Distributed storage ore machine
1. A distributed storage ore machine is characterized in that: the device comprises an ore machine box body (1), wherein the lower surface of the ore machine box body (1) is an inclined plane with a high left side and a low right side, a power supply interface (2) and a data line interface (3) are arranged on the right side of the ore machine box body (1), a supporting transverse plate (101) is fixedly connected to the inner wall of the ore machine box body (1), a display card (4) is fixedly connected to the upper surface of the supporting transverse plate (101), fluorinated liquid is filled in the ore machine box body (1), and a through hole is formed in the upper surface of the ore machine box body (1) and is fixedly connected with a rectangular cover body (5;
the front side dead axle of the rectangle cover body (5) rotates and is connected with gear (6), the front side of gear (6) is opened and is equipped with spiral guide slot (7), the inner wall sliding connection of spiral guide slot (7) has slide bar (8), the front side swing joint of gear (6) has driving frame (9), slide bar (8) run through driving frame (9) and with driving frame (9) fixed connection, sliding connection has piston plate (10) about the inner wall of the rectangle cover body (5), the last fixed surface of piston plate (10) is connected with lifter plate (11), the rear side that is close to the top on driving frame (9) and the front side fixed connection of lifter plate (11), the last fixed surface of piston plate (10) is connected with pressure spring (12), the top of pressure spring (12) and the top fixed connection of the rectangle cover body (5) inner wall, the through-hole has been seted up and has through-hole fixedly connected with spiral pipe on the left side that is close to the top on the rectangle cover body (5) (through-hole fixedly connected with (s (a), (a) is through-hole fixedly connected with 13) The spiral pipe (13) is provided with a circulating device (14), the circulating device (14) is provided with a cleaning device (15), and the right side of the cleaning device (15) is provided with an auxiliary device (16).
2. A distributed storage machine according to claim 1, wherein: the circulating device (14) comprises a liquid storage box body (17), the right side of the liquid storage box body (17) is fixedly connected with the left side of the rectangular cover body (5), the two ends of the spiral tube (13) penetrate through the two sides of the liquid storage box body (17) and are fixedly connected with the liquid storage box body (17), the left side of the liquid storage box body (17) is fixedly connected with a liquid storage tube (18), the left end of the spiral tube (13) penetrates through the right side of the liquid storage tube (18) and extends into the liquid storage tube (18), the inner wall of the liquid storage tube (18) close to the top is fixedly connected with a filter sponge (19), the bottom of the liquid storage tube (18) is fixedly connected with a limiting tube (20), a liquid outlet (21) is formed in the limiting tube (20) just opposite to the upper surface of the liquid storage tube (18), a sliding transverse rod (22) is connected in the limiting tube (20) in a left-right sliding mode, and a toothed plate (23) is fixedly connected to the right end of the sliding transverse rod (22), tooth meshing on tooth on pinion rack (23) and gear (6), stock solution logical groove (24) have been seted up to the upper surface of slip horizontal pole (22), lower liquid mouth two (25) have been seted up to the lower surface that is close to the right-hand member on spacing pipe (20), just lower fixed surface who goes down liquid mouth two (25) is connected with catheter (26) on spacing pipe (20), the upper surface of ore deposit box (1) is run through and extends to in ore deposit box (1) to the bottom of catheter (26).
3. A distributed storage machine according to claim 2, wherein: the cleaning device (15) comprises a first transmission vertical plate (27), the first transmission vertical plate (27) is fixedly connected with the right side of the top and the left end of a sliding cross rod (22), the first transmission vertical plate (27) is fixedly connected with a first transmission cross rod (28) of the bottom, the first transmission cross rod (28) is in limited sliding connection with a sealing pipe (29), the surface of the sealing pipe (29) penetrates through the left side of the ore mining box body (1) and is fixedly connected with the ore mining box body (1), the right end of the first transmission cross rod (28) is in fixed-axis rotating connection with a movable rod (30), a second spiral guide groove (31) is formed in the arc-shaped outline of the movable rod (30), a support vertical plate (32) is fixedly connected with the bottom of the inner wall of the ore mining box body (1), and the support vertical plate (32) is penetrated by the movable rod (30) and is movably connected with the movable rod (30), the top of the supporting vertical plate (32) is provided with a through hole and is fixedly connected with a limiting guide rod (33) through the through hole, the bottom of the limiting guide rod (33) is connected with the inner wall of the spiral guide groove II (31) in a sliding manner, the right end of the movable rod (30) is fixedly connected with a transmission transverse rod II (34), the surface of the transmission transverse rod II (34) is fixedly sleeved with a rotating ring (35), the right side of the rotating ring (35) is provided with an elliptical guide groove (36), the lower surface of the supporting transverse plate (101) is connected with a transmission vertical plate II (37) in a left-right limiting sliding manner, the side surface of the transmission vertical plate II (37) is penetrated by the transmission transverse rod II (34) and is connected with the transmission transverse rod II (34) in a limiting rotating manner, both sides of the transmission vertical plate II (37) are movably connected with a limiting ring (38), the inner wall of the limiting ring (38) is fixedly connected with the surface of the transmission transverse rod II (34), a limit groove (39) is arranged on the left side of the second transmission vertical plate (37) close to the bottom, the inner wall of the limit groove (39) is in up-down limit sliding connection with a lifting rod (40), the left side of the lifting rod (40) is fixedly connected with a third transmission cross rod (41), the left end of the third transmission cross rod (41) is connected with the inner wall of the oval guide groove (36) in a sliding way, the bottom of the lifting rod (40) is rotationally connected with a rotary brush plate (42) through a pin shaft, the lower surface of the rotating brush board (42) is fixedly connected with a first brush hair (43), the right end of the rotating brush plate (42) is rotationally connected with a supporting arm (44) through a pin shaft, the top of the supporting arm (44) is fixedly connected with a horizontal telescopic rod (45), the surface cover of horizontal telescopic link (45) has telescopic sleeve (46), the left end of telescopic sleeve (46) and the right side fixed connection of transmission riser two (37).
4. A distributed storage machine according to claim 3, wherein: the auxiliary device (16) comprises a rotating shaft (47) which is limited to rotate in the inner wall of the mining machine box body (1), two symmetrical rotating drums (48) are fixedly sleeved on the surface of the rotating shaft (47), two bristles (481) are fixedly connected to the arc-shaped outline of the rotating drums (48), guide shifting blocks (49) are arranged on the opposite surfaces of the two rotating drums (48) in an annular array mode, a moving block (50) is fixedly connected to the right end of the horizontal telescopic rod (45), a first inclined plane block (51) and a second inclined plane block (52) are fixedly connected to the front side and the rear side of the moving block (50), and inclined planes on the first inclined plane block (51) and the second inclined plane block (52) are alternately connected with the surface of the guide shifting blocks (49).
5. A distributed storage machine according to claim 3, wherein: and a limiting sliding groove (102) is formed in the lower surface of the supporting transverse plate (101), and the top of the second transmission vertical plate (37) is in sliding connection with the inner wall of the limiting sliding groove (102).
6. A distributed storage machine according to claim 5, wherein: the top of the second transmission vertical plate (37) is an arc-shaped surface, and the second transmission vertical plate (37) is connected with the inner wall of the limiting sliding groove (102) in a sliding mode through the arc-shaped surface on the second transmission vertical plate.
7. A distributed storage machine according to claim 1, wherein: the number of the rotating brush plates (42) is two, and the heights of the two rotating brush plates (42) are matched with the inclined plane on the lower surface of the mining machine box body (1).
8. A distributed storage machine according to claim 1, wherein: the mining machine box body (1) is provided with a through groove on the lower surface close to the right side and is fixedly connected with a U-shaped box body (53) through the through groove, and the bottom of the U-shaped box body (53) is provided with a through hole and is fixedly connected with a sealing plug through the through hole.
Background
The most important characteristic of the bitcoin in the virtual currency is decentralization, and the decentralization of the bitcoin is realized by using asymmetric encryption technology and distributed storage; a distributed storage system is used for storing data on a plurality of independent devices in a distributed mode. The traditional network storage system adopts a centralized storage server to store all data, the storage server becomes the bottleneck of the system performance, is also the focus of reliability and safety, and cannot meet the requirement of large-scale storage application. The distributed network storage system adopts an expandable system structure, utilizes a plurality of storage servers to share storage load, utilizes the position server to position and store information, not only improves the reliability, the availability and the access efficiency of the system, but also is easy to expand, adopts point-to-point network and consensus initiative, opens source codes, and takes a block chain as virtual encryption currency of a bottom layer technology.
The machine for digging the bitcoin is a computer for earning the bitcoin. The computers generally have professional mine digging chips, mostly work in a mode of installing a large number of display cards, and have higher power consumption. The user downloads the software by the personal computer and then runs a specific algorithm, and the corresponding bitcoin can be obtained after the user communicates with the remote server, which is one of the ways of obtaining the bitcoin.
Can be equipped with many display cards simultaneous operation in order to improve the calculation power in one of them ore deposit built-in, but many display cards can produce a large amount of heats when the operation in the ore deposit built-in, untimely the discharge can lead to the heat to gather, shortens the life of display card, and traditional air-cooled heat dissipation noise is difficult to eliminate, especially after numerous ore deposit built-in moves simultaneously, a large amount of noises can make the health of operating personnel wherein of body department influenced, bring inconvenience for the use.
Disclosure of Invention
The invention aims to provide a distributed storage ore machine, which has the advantages of liquid cooling heat dissipation, noise elimination, cooling liquid circulation and foreign matter collection and solves the problems in the background technology.
In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a distributed storage ore deposit machine, includes the ore deposit box, the lower surface of ore deposit box is the inclined plane of high left low right, the right side of ore deposit box is equipped with power source and data line interface, the inner wall fixedly connected with of ore deposit box supports the diaphragm, the last fixed surface who supports the diaphragm is connected with the display card, the interior liquid of fluoridizing that is equipped with of ore deposit box, the through-hole has been seted up to the upper surface of ore deposit box and has been passed through-hole fixedly connected with rectangular cover body.
The front fixed shaft of the rectangular cover body is rotationally connected with a gear, the front side of the gear is provided with a first spiral guide groove, the inner wall of the first spiral guide groove is connected with a sliding rod in a sliding manner, the front side of the gear is movably connected with a transmission frame, the slide bar penetrates through the transmission frame and is fixedly connected with the transmission frame, the inner wall of the rectangular cover body is connected with a piston plate in a vertical sliding manner, the upper surface of the piston plate is fixedly connected with a lifting plate, the rear side of the transmission frame close to the top is fixedly connected with the front side of the lifting plate, the upper surface of the piston plate is fixedly connected with a pressure spring, the top of the pressure spring is fixedly connected with the top of the inner wall of the rectangular cover body, the left side of the rectangular cover body close to the top is provided with a through hole and is fixedly connected with a spiral pipe through the through hole, the spiral pipe is provided with a circulating device, the circulating device is provided with a cleaning device, and the right side of the cleaning device is provided with an auxiliary device.
Preferably, the circulating device comprises a liquid storage box body, the right side of the liquid storage box body is fixedly connected with the left side of the rectangular cover body, two ends of the spiral pipe penetrate through two sides of the liquid storage box body and are fixedly connected with the liquid storage box body, the left side of the liquid storage box body is fixedly connected with a liquid storage pipe, the left end of the spiral pipe penetrates through the right side of the liquid storage pipe and extends into the liquid storage pipe, a filtering sponge is fixedly connected to the inner wall of the liquid storage pipe close to the top, a limiting pipe is fixedly connected to the bottom of the liquid storage pipe, a first liquid outlet is formed in the limiting pipe just opposite to the upper surface of the liquid storage pipe, a sliding cross rod is connected in a left-right limiting sliding mode in the limiting pipe, a toothed plate is fixedly connected to the right end of the sliding cross rod, teeth on the toothed plate are meshed with teeth on the gear, a liquid storage through groove is formed in the upper surface of the sliding cross rod, a second liquid outlet is formed in the limiting pipe close to the lower surface of the right end, and a liquid guide pipe is fixedly connected to the lower surface of the limiting pipe, which is opposite to the second lower liquid port, and the bottom of the liquid guide pipe penetrates through the upper surface of the mining machine box body and extends into the mining machine box body.
Preferably, the cleaning device comprises a first transmission vertical plate, the right side of the first transmission vertical plate close to the top is fixedly connected with the left end of a sliding cross rod, the right side of the first transmission vertical plate close to the bottom is fixedly connected with a first transmission cross rod, the surface of the first transmission cross rod is in limited sliding connection with a sealing pipe, the surface of the sealing pipe penetrates through the left side of the ore machine box body and is fixedly connected with the ore machine box body, the right end of the first transmission cross rod is in fixed-shaft rotating connection with a movable rod, a spiral guide groove II is formed in the arc profile of the movable rod, the bottom of the inner wall of the ore machine box body is fixedly connected with a support vertical plate, the support vertical plate is penetrated through by the movable rod and is movably connected with the movable rod, a through hole is formed in the top of the support vertical plate and is fixedly connected with a limited guide rod through the through hole, and the bottom of the limited guide rod is in sliding connection with the inner wall of the spiral guide groove II, the right end of the movable rod is fixedly connected with a transmission transverse rod II, the surface of the transmission transverse rod II is fixedly sleeved with a rotating ring, the right side of the rotating ring is provided with an elliptical guide groove, the left side and the right side of the lower surface of the supporting transverse plate are connected with a transmission vertical plate II in a limiting and sliding manner, the side surface of the transmission vertical plate II is penetrated through by the transmission transverse rod II and is connected with the transmission transverse rod II in a limiting and rotating manner, both sides of the transmission vertical plate II are movably connected with a limiting ring, the inner wall of the limiting ring is fixedly connected with the surface of the transmission transverse rod II, the left side of the transmission vertical plate II, which is close to the bottom, is provided with a limiting groove, the inner wall of the limiting groove is connected with a lifting rod in a limiting and sliding manner from top to bottom, the left side of the lifting rod is fixedly connected with a transmission transverse rod III, the left end of the transmission transverse rod III is connected with the inner wall of the elliptical guide groove in a sliding manner, and the bottom of the lifting rod is connected with a rotating brush plate through a pin shaft in a rotating manner, the lower fixed surface that rotates the brush board is connected with brush hair one, the right-hand member that rotates the brush board is connected with the support arm through round pin axle rotation, the top fixedly connected with horizontal telescopic link of support arm, horizontal telescopic link's surface cover has the telescope tube, the left end of telescope tube and the right side fixed connection of transmission riser two.
Preferably, the auxiliary device comprises a rotation shaft which is limited to rotate in the inner wall of the box body of the mining machine, two symmetrical rotary drums are fixedly sleeved on the surface of the rotation shaft, second bristles are fixedly connected to the arc-shaped profiles of the rotary drums, guide shifting blocks are arranged on the opposite surfaces of the two rotary drums in an annular array mode, a moving block is fixedly connected to the right end of the horizontal telescopic rod, a first inclined surface block and a second inclined surface block are fixedly connected to the front side and the rear side of the moving block, and inclined surfaces on the first inclined surface block and the second inclined surface block are alternately connected with the surface of the guide shifting blocks.
Preferably, the lower surface of the supporting transverse plate is provided with a limiting sliding groove, and the top of the transmission vertical plate II is connected with the inner wall of the limiting sliding groove in a sliding mode.
Preferably, the top of the second transmission vertical plate is an arc-shaped surface, and the second transmission vertical plate is connected with the inner wall of the limiting sliding groove in a sliding mode through the arc-shaped surface on the second transmission vertical plate.
Preferably, the number of the rotating brush plates is two, and the height of the two rotating brush plates is matched with the inclined plane on the lower surface of the mining machine box body.
Preferably, the lower surface of the ore machine box body close to the right side is provided with a through groove and is fixedly connected with a U-shaped box body through the through groove, and the bottom of the U-shaped box body is provided with a through hole and is fixedly connected with a sealing plug through the through hole.
Compared with the prior art, the invention has the following beneficial effects: the mine machine box body is used for fixedly supporting the whole device, the display card is fixedly supported through the supporting transverse plate, the power supply is switched on through the power supply interface to provide electric energy for the display card, and the display card is butted through the data line interface to realize real-time transmission of data; the model of the fluorizating liquid is HYM-47, the boiling point of the display card is forty-five ℃, the heat generated when the display card runs can be quickly absorbed by the fluoridized liquid by soaking the display card in the fluoridized liquid in the ore-concentrating machine box body, when the temperature of the fluoric liquid rises to thirty degrees centigrade, a large amount of steam is generated in the fluoric liquid, and the large amount of steam is accumulated in the ore machine box body and the rectangular cover body, so that the pressure in the rectangular cover body is increased, under the action of high pressure, the piston plate moves upwards after overcoming the elasticity of the pressure spring, and the spiral pipe is communicated with the high-pressure environment in the rectangular cover body along with the continuous upward movement of the piston plate, so that the fluoridizing liquid steam in the rectangular cover body can be transferred outwards through the spiral pipe, in the spiral pipe, the fluorizated liquid steam is quickly liquefied in the presence of cold under the cooperation of a circulating device and intermittently flows back to the ore machine box;
through the arrangement of the cleaning device, fine particles accumulated on the bottom of the inner wall of the ore machine box body can be collected in a centralized manner, and the fine particles are prevented from participating in the flow of liquid in the ore machine box body again due to the rotation of the fan blades in the display card; through auxiliary device's setting, finally concentrate the corner department that leans on the right side in the ore deposit machine box with tiny granule, make things convenient for the cleanness in the future.
Through the cooperation use between the above-mentioned structure, solved in the in-service use process, because can be equipped with many display cards simultaneous operation in traditional ore deposit machine in order to improve the computing power, but many display cards can produce a large amount of heats when the operation in the ore deposit machine, untimely the discharge can lead to the heat to gather, shorten the life of display card, and traditional air-cooled heat dissipation noise is difficult to eliminate, especially after numerous ore deposit machines of quantity move simultaneously, a large amount of noises can make the health of operating personnel wherein of body department receive the influence, bring inconvenient problem for the use.
Drawings
FIG. 1 is a front cross-sectional view of the structure of the present invention;
FIG. 2 is a front cross-sectional view of a rectangular housing of the present invention;
FIG. 3 is a front cross-sectional view of a reservoir tube according to the present invention;
FIG. 4 is a front cross-sectional view of a second drive rail of the present invention;
FIG. 5 is a front cross-sectional view of a support riser of the present invention;
FIG. 6 is a front cross-sectional view of a second driving riser of the present invention;
FIG. 7 is a right side cross-sectional view of the elliptical guide slot of the present invention;
FIG. 8 is a top view of the drum of the present invention;
fig. 9 is a cross-sectional view of the rotary shaft of fig. 8 taken along direction AA in accordance with the present invention.
In the figure: 1. an ore machine box body; 101. supporting the transverse plate; 102. a limiting chute; 2. a power interface; 3. a data line interface; 4. a display card; 5. a rectangular cover body; 6. a gear; 7. a first spiral guide groove; 8. a slide bar; 9. a transmission frame; 10. a piston plate; 11. a lifting plate; 12. a pressure spring; 13. a spiral tube; 14. a circulation device; 15. a cleaning device; 16. an auxiliary device; 17. a liquid storage box body; 18. a liquid storage pipe; 19. filtering the sponge; 20. a limiting pipe; 21. a first lower liquid port; 22. a sliding rail; 23. a toothed plate; 24. a liquid storage through groove; 25. a second lower liquid port; 26. a catheter; 27. a first transmission vertical plate; 28. a first transmission cross bar; 29. a sealing tube; 30. a movable rod; 31. a second spiral guide groove; 32. a support vertical plate; 33. a limiting guide rod; 34. a second transmission cross rod; 35. a rotating ring; 36. an elliptical guide groove; 37. a second transmission vertical plate; 38. a limiting ring; 39. a limiting groove; 40. a lifting rod; 41. a third transmission cross bar; 42. rotating the brush plate; 43. brushing one; 44. a support arm; 45. a horizontal telescopic rod; 46. a telescopic sleeve; 47. a rotating shaft; 48. a rotating drum; 481. bristles II; 49. a guide shifting block; 50. a moving block; 51. a bevel block I; 52. a second inclined plane block; 53. a U-shaped box body.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1 to 9, the present invention provides a technical solution: a distributed storage ore machine comprises an ore machine box body 1, the whole fixed support of the device is lifted through the ore machine box body 1, the ore machine box body 1 is an integrated machine body made of transparent glass, the lower surface of the ore machine box body 1 is an inclined plane with a high left side and a low right side, a power supply interface 2 and a data line interface 3 are arranged on the right side of the ore machine box body 1, a supporting transverse plate 101 is fixedly connected to the inner wall of the ore machine box body 1, the display card 4 is fixedly supported through the supporting transverse plate 101, the upper surface of the supporting transverse plate 101 is fixedly connected with the display card 4, a power supply is switched on through the power supply interface 2 to provide electric energy for the display card 4, the display card 4 is butted through the data line interface 3, and real-time transmission of data is realized; inject the fluoridizing liquid in ore deposit machine box 1, the fluoridizing liquid model of this scheme is HYM-47, its boiling point is forty-five degrees centigrade, display card 4 is in the high strength operation, the temperature is generally at fifty to sixty degrees centigrade, the fluoridizing liquid is equipped with in the ore deposit machine box 1, the through-hole has been seted up to the upper surface of ore deposit machine box 1 and has been passed through-hole fixedly connected with rectangle cover body 5, through soaking display card 4 in the fluoridizing liquid in ore deposit machine box 1, the heat that produces when 4 operation of display card can be quick is absorbed by the fluoridizing liquid, when the temperature of fluoridizing liquid rises to thirty degrees centigrade up, produce a large amount of steam in the fluoridizing liquid when can making, a large amount of steam is gathered in ore deposit machine box 1 and rectangle cover body 5, cause the pressure increase in the rectangle cover body 5.
A gear 6 is rotatably connected to a front fixed shaft of a rectangular cover body 5, a first spiral guide groove 7 is arranged on the front side of the gear 6, the number of turns of the first spiral guide groove 7 is one point and three turns, a slide rod 8 is slidably connected to the inner wall of the first spiral guide groove 7, a transmission frame 9 is movably connected to the front side of the gear 6, the slide rod 8 penetrates through the transmission frame 9 and is fixedly connected with the transmission frame 9, a piston plate 10 is slidably connected to the inner wall of the rectangular cover body 5 up and down, a lifting plate 11 is fixedly connected to the upper surface of the piston plate 10, the rear side of the transmission frame 9 close to the top is fixedly connected with the front side of the lifting plate 11, a pressure spring 12 is fixedly connected to the upper surface of the piston plate 10, the top of the pressure spring 12 is fixedly connected with the top of the inner wall of the rectangular cover body 5, a through hole is arranged on the left side of the rectangular cover body 5 close to the top and is fixedly connected with a spiral tube 13 through the through hole, under the action of high pressure, the piston plate 10 moves up after overcoming the elasticity of the pressure spring 12, the spiral pipe 13 is communicated with the high-pressure environment in the rectangular cover body 5 along with the continuous upward movement of the piston plate 10, so that the fluorinated liquid steam in the rectangular cover body 5 can be outwards transferred through the spiral pipe 13, and the fluorinated liquid steam is rapidly liquefied in the spiral pipe 13 by cooling under the cooperation of the circulating device 14 and intermittently flows back to the mining machine box body 1; the spiral pipe 13 is provided with a circulating device 14.
The circulating device 14 comprises a liquid storage box body 17, the right side of the liquid storage box body 17 is fixedly connected with the left side of the rectangular cover body 5, two ends of a spiral tube 13 penetrate through two sides of the liquid storage box body 17 and are fixedly connected with the liquid storage box body 17, a liquid storage tube 18 is fixedly connected with the left side of the liquid storage box body 17, the left end of the spiral tube 13 penetrates through the right side of the liquid storage tube 18 and extends into the liquid storage tube 18, a filter sponge 19 is fixedly connected with the inner wall of the liquid storage tube 18 close to the top, a limiting tube 20 is fixedly connected with the bottom of the liquid storage tube 18, a first liquid outlet 21 is formed in the limiting tube 20 and is just opposite to the upper surface of the liquid storage tube 18, a sliding cross rod 22 is connected in a left-right limiting sliding mode in the limiting tube 20, a toothed plate 23 is fixedly connected with the right end of the sliding cross rod 22, teeth on the toothed plate 23 are meshed with teeth on the gear 6, a liquid storage through groove 24 is formed in the upper surface of the sliding cross rod 22, a second liquid outlet 25 is formed in the lower surface of the limiting tube 20 close to the right end, a liquid guide pipe 26 is fixedly connected to the lower surface of the limiting pipe 20 just opposite to the second lower liquid opening 25, the bottom of the liquid guide pipe 26 penetrates through the upper surface of the mining machine box 1 and extends to the circulating device 14 in the mining machine box 1 and comprises a liquid storage box body 17, the right side of the liquid storage box body 17 is fixedly connected with the left side of the rectangular cover body 5, two ends of the spiral pipe 13 penetrate through two sides of the liquid storage box body 17 and are fixedly connected with the liquid storage box body 17, the left side of the liquid storage box body 17 is fixedly connected with a liquid storage pipe 18, the left end of the spiral pipe 13 penetrates through the right side of the liquid storage pipe 18 and extends into the liquid storage pipe 18, a filtering sponge 19 is fixedly connected to the inner wall of the liquid storage pipe 18 close to the top, the bottom of the liquid storage pipe 18 is fixedly connected with the limiting pipe 20, the first lower liquid opening 21 is arranged on the limiting pipe 20 just opposite to the upper surface of the liquid storage pipe 18, a sliding cross rod 22 is connected to the left and right limiting in the limiting pipe 20 in a sliding manner, a toothed plate 23 is fixedly connected to the right end of the sliding cross rod 22, tooth on the pinion rack 23 meshes with tooth on the gear 6, and stock solution logical groove 24 has been seted up to the upper surface of slip horizontal pole 22, and liquid mouth two 25 under being close to the lower surface of right-hand member on the spacing pipe 20, and just to the lower fixed surface of liquid mouth two 25 under being connected with catheter 26 on the spacing pipe 20, the upper surface of ore deposit box 1 is run through and extends to in the ore deposit box 1 to the bottom of catheter 26.
When the high-pressure steam of the fluorinated liquid in the rectangular cover body 5 passes through the spiral pipe 13, the high-temperature and high-pressure fluorinated liquid steam can be rapidly precooled and liquefied due to the fact that the cooling liquid is filled in the liquid storage box body 17, and the liquefied fluorinated liquid can fall into the liquid storage pipe 18 and is collected in the liquid storage pipe 18 in a centralized mode; the excessive air is filtered layer by the filtering sponge 19 and finally discharged through the top of the liquid storage pipe 18; as shown in fig. 1, 2 and 3, when the high-pressure steam inside the rectangular cover body 5 pushes the piston plate 10 and the lifting plate 11 to move upwards, the transmission frame 9 moves upwards synchronously, the transmission frame 9 moves upwards to drive the sliding rod 8 to move upwards synchronously, so that the sliding rod 8 and the inner wall of the first spiral guide groove 7 slide relatively, and under the guide of the track on the first spiral guide groove 7, the gear 6 rotates anticlockwise on the front side of the rectangular cover body 5, and the toothed plate 23 engaged with the teeth on the gear 6 drives the sliding cross rod 22 to move rightwards in the limiting pipe 20; on the contrary, when the fluorinated liquid steam in the rectangular cover body 5 and the ore machine box body 1 is exhausted from the spiral pipe 13 due to the upward movement of the piston plate 10, the air pressure in the rectangular cover body 5 is rapidly reduced, the piston plate 10 drives the lifting plate 11 and the transmission frame 9 to rapidly move downwards under the action of the elastic force of the pressure spring 12, the sliding rod 8 synchronously moves downwards, the gear 6 rotates clockwise on the rectangular cover body 5, and the toothed plate 23 drives the sliding cross rod 22 to move leftwards in the limiting pipe 20;
as shown in fig. 3, when the sliding cross bar 22 moves to the extreme left, the liquid storage through slot 24 and the first liquid outlet 21 communicate with the bottom of the liquid storage pipe 18, the fluorinated liquid collected in the liquid storage pipe 18 enters the space of the liquid storage through the first liquid outlet 21, then the rightward movement of the sliding cross bar 22 can make the fluorinated liquid in the liquid storage through slot 24 move to the right synchronously, until the fluorinated liquid moves to the second liquid outlet 25, the liquid storage through slot 24 and the liquid guide pipe 26 to communicate, the upward movement of the piston plate 10 in the rectangular cover 5 can make the spiral pipe 13 communicate with the rectangular cover 5, the air pressure in the rectangular cover 5 decreases rapidly, at this time, the fluorinated liquid in the liquid storage through slot 24 can enter the mining machine box 1 rapidly through the second liquid outlet 25 and the liquid guide pipe 26, the heat transfer and cooling cycle of the fluorinated liquid in the mining machine box 1 can be realized, and simultaneously, because the display card 4 runs in the fluorinated liquid in the mining machine box 1, the noise generated when the display card 4 operates is reduced;
be equipped with cleaning device 15 on circulating device 14, through cleaning device 15's setting, can concentrate the collection with the tiny particle that gathers on the bottom of ore deposit box 1 inner wall, avoid the tiny particle to participate in the flow of ore deposit box 1 interior liquid once more because of the rotation of display card 4 interior flabellum.
The cleaning device 15 comprises a first transmission vertical plate 27, the right side of the first transmission vertical plate 27 close to the top is fixedly connected with the left end of a sliding cross rod 22, the right side of the first transmission vertical plate 27 close to the bottom is fixedly connected with a first transmission cross rod 28, the surface of the first transmission cross rod 28 is in limited sliding connection with a sealing pipe 29, the surface of the sealing pipe 29 penetrates through the left side of the mining machine box body 1 and is fixedly connected with the mining machine box body 1, the right end of the first transmission cross rod 28 is in fixed-shaft rotating connection with a movable rod 30, the arc-shaped profile of the movable rod 30 is provided with a second spiral guide groove 31, the bottom of the inner wall of the mining machine box body 1 is fixedly connected with a support vertical plate 32, the support vertical plate 32 is penetrated by the movable rod 30 and is movably connected with the movable rod 30, the top of the support vertical plate 32 is provided with a through hole and is fixedly connected with a limited guide rod 33 through the through hole, and the bottom of the limited guide rod 33 is in sliding connection with the inner wall of the second spiral guide groove 31, the right end of the movable rod 30 is fixedly connected with a transmission cross rod II 34, the surface of the transmission cross rod II 34 is fixedly sleeved with a rotating ring 35, the right side of the rotating ring 35 is provided with an oval guide groove 36, the left and right sides of the lower surface of the supporting transverse plate 101 are in limited sliding connection with a transmission vertical plate II 37, the side surface of the transmission vertical plate II 37 is penetrated by the transmission cross rod II 34 and is in limited rotating connection with the transmission cross rod II 34, both sides of the transmission vertical plate II 37 are movably connected with a limiting ring 38, the inner wall of the limiting ring 38 is fixedly connected with the surface of the transmission cross rod II 34, the left side of the transmission vertical plate II 37, which is close to the bottom, is provided with a limiting groove 39, the upper and lower limited sliding connection of the inner wall of the limiting groove 39 is provided with a lifting rod 40, the left side of the lifting rod 40 is fixedly connected with a transmission cross rod III 41, the left end of the transmission cross rod III 41 is in sliding connection with the inner wall of the oval guide groove 36, the bottom of the lifting rod 40 is rotatably connected with a rotating brush plate 42 through a pin shaft, the lower surface of the rotating brush plate 42 is fixedly connected with a first bristle 43, the right end of the rotating brush plate 42 is rotatably connected with a support arm 44 through a pin shaft, the top of the support arm 44 is fixedly connected with a horizontal telescopic rod 45, the surface of the horizontal telescopic rod 45 is sleeved with a telescopic sleeve 46, and the left end of the telescopic sleeve 46 is fixedly connected with the right side of a second transmission vertical plate 37.
The connection relation of the second transmission transverse rod 34 and the second transmission vertical plate 37 in limiting rotation can be further ensured by arranging the limiting ring 38 on the second transmission transverse rod 34.
When the device is used, the transmission vertical plate I27, the transmission cross rod I28 and the movable rod 30 are driven to move left and right through the left and right movement of the sliding cross rod 22, the transmission cross rod I28 moves left and right through the filtering sponge 19 for sealing treatment, and the leakage of the fluoridized liquid in the ore machine box body 1 is avoided; as shown in fig. 5, when the movable rod 30 moves to the right, because the surface of the movable rod is provided with the second spiral guide groove 31, and the movement track of the limit guide rod 33 is fixedly limited by the support vertical plate 32, when the movable rod 30 moves to the left and right, the movable rod 30 rotates relative to the first transmission cross rod 28, so that the movable rod 30 also rotates when moving to the left and right;
the second transmission vertical plate 37 is penetrated by the second transmission cross rod 34 and is connected with the second transmission cross rod 34 in a limiting and rotating mode, namely the second transmission vertical plate 37 can rotate relatively at a fixed position on the second transmission cross rod 34 and can move left and right along with the second transmission cross rod 34 synchronously, the movement tracks of the lifting rod 40 and the third transmission cross rod 41 are limited by the limiting groove 39 on the second transmission vertical plate 37, only the vertical limiting sliding can be carried out on the second transmission vertical plate 37, after the rotating ring 35 rotates along with the second transmission cross rod 34, the third transmission cross rod 41 and the oval guide groove 36 on the rotating ring 35 can slide relatively, under the guide of the sliding groove, the third transmission cross rod 41 can drive the lifting rod 40 to slide up and down in the limiting groove 39, and when the lifting rod 40 moves down, the height of the left end part of the rotating brush plate 42 is reduced, the inclination angle of the rotating brush plate 42 is reduced, so that the first bristles 43 on the lower surface of the rotating brush plate 42 can contact with the bottom of the inner wall of the mining machine box body 1, and the rotating brush plate 42 can smoothly rotate along with the horizontal moving fit of the horizontal telescopic rod 45 in the telescopic sleeve 46, through the angular rotation of the rotating brush plate 42 and the integral right movement of the transmission cross rod two 34, the rotating brush plate 42 can perform a right sweeping action on the debris particles on the bottom of the inner wall of the mining machine box body 1, so that the debris particles are continuously moved to the right for transfer, and because the display card 4 is in use, flabellum rotation and each part on it are ageing, have the condition that the surface finish material dropped, the easy granule piece that appears from this, the piece adulterates the liquid of fluorinating in ore deposit box 1, influences the heat dissipation easily and causes adverse effect to the long-term use of display card 4.
The lower surface of the supporting transverse plate 101 is provided with the limiting sliding groove 102, the top of the second transmission vertical plate 37 is connected with the inner wall of the limiting sliding groove 102 in a sliding mode, the limiting sliding groove 102 is formed in the supporting transverse plate 101, the left limiting sliding and the right limiting sliding of the second transmission vertical plate 37 are further limited, and the stability of the device in the whole use process is improved.
The top of the second transmission vertical plate 37 is an arc-shaped surface, the second transmission vertical plate 37 is connected with the inner wall of the limiting sliding groove 102 in a sliding mode through the arc-shaped surface on the second transmission vertical plate 37, and sliding friction resistance of the second transmission vertical plate 37 in the limiting sliding groove 102 is reduced through arrangement of the arc-shaped surface on the top of the second transmission vertical plate 37, and movement is smooth.
The quantity of rotating brush board 42 is two, and two rotate brush board 42's height and the inclined plane looks adaptation on the ore deposit box 1 lower surface, because the bottom of ore deposit box 1 inner wall is for the inclined plane of high left right low, and transmission horizontal pole two 34 is the pole of level setting, causes the two to lean on the right side more, and the interval is big more, leans on the height of right side rotation brush board 42 through the adjustment of adaptability for brush hair 43 on it can have more abundant contact with the inner wall of ore deposit box 1.
The right side of cleaning device 15 is equipped with auxiliary device 16, and through auxiliary device 16's setting, the final corner department that leans on the right side of gathering fine particle in ore deposit machine box 1 facilitates the cleanness in the future.
Auxiliary device 16 includes spacing pivoted axis of rotation 47 in ore deposit box 1 inner wall, the fixed surface of axis of rotation 47 has two symmetrical rotary drums 48, fixedly connected with brush hair two 481 on the arc profile of rotary drum 48, the opposite face annular array of two rotary drums 48 is equipped with direction shifting block 49, the right-hand member fixedly connected with movable block 50 of horizontal telescopic link 45, equal fixedly connected with sloping block one 51 and sloping block two 52 of front and back side of movable block 50, the inclined plane on sloping block one 51 and the sloping block two 52 is connected with the surface of direction shifting block 49 in turn.
When the mining machine is used, the rightmost horizontal telescopic rod 45 drives the corresponding moving block 50 to move left and right, referring to fig. 9, when the horizontal telescopic rod 45 drives the moving block 50 to move left, the current guide shifting block 49 is contacted with the inclined surface on the moving block 50 and pressed downwards, so that the guide shifting block 49 drives the rotary drum 48 and the rotating shaft 47 to rotate anticlockwise, then the moving block 50 moves right along with the horizontal telescopic rod 45, the inclined surface on the inclined surface block II 52 is contacted with the guide shifting block 49 and extrudes the guide shifting block 49, so that the guide shifting block 49 drives the rotary drum 48 and the rotating shaft 47 to continue to rotate anticlockwise, namely, the rotary drum 48 and the rotating shaft 47 rotate anticlockwise in the mining machine box 1 through the left and right reciprocating movement of the horizontal telescopic rod 45, the moving block 50, the inclined surface block I51 and the inclined surface block II 52, and the brush bristles 481 on the rotary drum 48 rotate anticlockwise along with the horizontal telescopic rod 45, the second 481 of the bristles at the lowest position can sweep the debris on the inner wall of the ore collection box 1 to the right through the anticlockwise rotation, so that the small particles of the debris continue to gather to the right and finally concentrate at the corner close to the right in the ore collection box 1, and the multiple sweeping can be smoothly carried out due to the fact that the bottom of the inner wall of the ore collection box 1 is an inclined plane which is high at the left and low at the right.
The lower surface that is close to the right side on ore deposit box 1 has been seted up logical groove and has been passed through logical groove fixedly connected with U-shaped box 53, the through-hole has been seted up and has been passed through-hole fixedly connected with sealing plug to the bottom of U-shaped box 53, setting through U-shaped box 53, make in ore deposit box 1 lean on the right side edge department to collect fall to wherein, and fall to the particle impurity of U-shaped box 53 bottom, even the flabellum by the display card 4 of fluoridizing liquid stirs and appears fluctuation on a large scale in ore deposit box 1, the piece granule in the U-shaped box 53 also can not influenced and adulterate once more in the fluoridizing liquid that is in stirring, extract the sealing plug on through regularly with U-shaped box 53, can realize the regular discharge to the piece granule.
The working principle is as follows: when the distributed storage ore machine is used, the whole fixed support of the device is played through the ore machine box body 1, the display card 4 is fixedly supported through the supporting transverse plate 101, the power supply is switched on through the power supply interface 2 to provide electric energy for the display card 4, and the display card 4 is butted through the data line interface 3 to realize real-time data transmission; the method is characterized in that a fluorinated liquid is injected into an ore machine box body 1, the type of the fluorinated liquid is HYM-47, the boiling point of the fluorinated liquid is forty-five ℃, the display card 4 is soaked in the fluorinated liquid in the ore machine box body 1, heat generated when the display card 4 operates can be quickly absorbed by the fluorinated liquid, when the temperature of the fluorinated liquid rises to thirty ℃ upwards, a large amount of steam is generated in the fluorinated liquid, the large amount of steam is accumulated in the ore machine box body 1 and the rectangular cover body 5, so that the pressure in the rectangular cover body 5 is increased, under the action of high pressure, the piston plate 10 can move upwards after overcoming the elasticity of the pressure spring 12, along with the continuous upwards movement of the piston plate 10, the spiral pipe 13 is communicated with the high-pressure environment in the rectangular cover body 5, so that the fluorinated liquid steam in the rectangular cover body 5 can be outwards transferred through the spiral pipe 13, and in the spiral pipe 13, the fluorinated liquid steam is matched with the circulating device 14, rapidly liquefied in the presence of cold and intermittently returned to the ore machine box 1; by the arrangement of the cleaning device 15, fine particles accumulated on the bottom of the inner wall of the ore machine box body 1 can be collected in a concentrated manner, and the fine particles are prevented from participating in the flow of liquid in the ore machine box body 1 again due to the rotation of the fan blades in the display card 4; by arranging the auxiliary device 16, fine particles are finally concentrated at the right corner in the ore machine box body 1, so that the later cleaning is facilitated; through the cooperation use between the above-mentioned structure, solved in the in-service use process, because can be equipped with many display cards simultaneous operation in traditional ore deposit machine in order to improve the computing power, but many display cards can produce a large amount of heats when the operation in the ore deposit machine, untimely the discharge can lead to the heat to gather, shorten the life of display card, and traditional air-cooled heat dissipation noise is difficult to eliminate, especially after numerous ore deposit machines of quantity move simultaneously, a large amount of noises can make the health of operating personnel wherein of body department receive the influence, bring inconvenient problem for the use.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
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