Stainless steel material processing equipment capable of rapidly cooling
1. The utility model provides a but rapid cooling's stainless steel material processing equipment, includes thermal-insulated section of thick bamboo (1), the inner wall of thermal-insulated section of thick bamboo (1) is equipped with that the rectangle is protruding and fixedly connected with rotates motor (2), and the transmission shaft fixed mounting who rotates motor (2) has sleeve (6), and the outer wall fixedly connected with push pedal A (7) of sleeve (6), the outside of sleeve (6) embolias sleeve (3), and the back fixed mounting of sleeve (3) has abrasive disc (4), its characterized in that: the front surface of the heat insulation cylinder (1) is provided with a hole, the hole is connected with an inserted rod (5) through a rotating bearing, the inner walls of the upper surface and the lower surface of the sleeve (3) are fixedly connected with a fixed plate (9), a push plate A (7) is positioned on the right side of the fixed plate (9), the right surface of the fixed plate (9) positioned on the upper side is fixedly connected with a telescopic pad (10), the bottom end of the telescopic pad (10) is fixedly connected with a push plate B (8), the upper right side inside the sleeve (3) is provided with a telescopic groove (11), the telescopic groove (11) is communicated with the telescopic pad (10), the inner wall of the telescopic groove (11) is sleeved with a piston (12), the piston (12) is connected with the inner wall of the telescopic groove (11) through a spring A (15), the top surface of the piston (12) is fixedly connected with a plug rod (13), the plug rod (13) penetrates through, the pressing block (14) is attached to the outer wall of the sleeve (3), and a rubber pad is fixedly connected to one surface, far away from the sleeve (3), of the pressing block (14).
2. The stainless steel material processing equipment capable of rapidly cooling according to claim 1, which is characterized in that: the outer wall of the top face of the front end of the inserted rod (5) is fixedly connected with a connecting frame (16), a sliding shaft (17) is sleeved on the inner wall of the connecting frame (16), a threaded hole is formed in the bottom face of the sliding shaft (17), a screw rod (18) is connected with the bottom face of the sliding shaft in a threaded mode, a clamping plate (19) is sleeved on the outer wall of the screw rod (18), and the sliding shaft (17) is connected with the inner wall of the connecting frame (16) through a spring B (25.
3. The stainless steel material processing equipment capable of rapidly cooling according to claim 2, wherein: sleeve (3) openly set up protruding and fixedly connected with rotary drum (20) of rectangle, both ends all are seted up porosely and downthehole the emboliaing has pivot A (21) about rotary drum (20) the back, one end fixedly connected with belt pulley (22) in pivot A (21) corresponds rotary drum (20), two belt pulleys (22) are connected through drive belt transmission, pivot A (21) rear end fixedly connected with spool (23) that are located the bottom, spool (23) outer wall fixed connection and winding have connection rope (24), the one end that spool (23) were kept away from in connection rope (24) runs through in inserted bar (5) and sleeve (6) and with smooth axle (17) fixed connection.
4. The stainless steel material processing equipment capable of rapidly cooling according to claim 2, wherein: the outer wall of the inserted bar (5) is in a sectioning separation state and is connected through a through hole ring (26), and the bottom end of the front surface of the inserted bar (5) is provided with a hole.
5. The stainless steel material processing equipment capable of rapidly cooling according to claim 3, wherein the stainless steel material processing equipment comprises: the corresponding one side of splint (19) and slide shaft (17) all sets up porosely and downthehole fixedly connected with fixed column (36) and embolias lantern ring (38), and connecting frame (16) are located lantern ring (38) inner wall department, and connecting frame (16) outer wall and lantern ring (38) inner wall are provided with ratchet (37).
6. The stainless steel material processing equipment capable of rapidly cooling according to claim 4, wherein the stainless steel material processing equipment comprises: the outer wall of the front end of the inserted rod (5) is fixedly connected with a baffle (27), the front surface of the baffle (27) is fixedly connected with a collecting cylinder (28), and the inserted rod (5) is obliquely arranged.
7. The stainless steel material processing equipment capable of rapidly cooling according to claim 6, wherein: baffle (27) bottom surface fixedly connected with connecting plate (29), spout (30) have openly been seted up in connecting plate (29), spout (30) inner wall is connected with slider (31) through elastic rod (32), slider (31) are the relation of emboliaing with spout (30), slider (31) inner wall is connected with pivot B (33) through rolling bearing, pivot B (33) are at the outer wall fixedly connected with laminating section of thick bamboo (34) of slider (31) rear side, the sieve mesh has openly been laid in laminating section of thick bamboo (34), the three fan board (35) of equidistant fixedly connected with of outer wall in laminating section of thick bamboo (34) of pivot B (33).
Background
Before the stainless steel material is produced, the stainless steel material needs to be ground and polished, and the tubular stainless steel material is specially processed, the inner wall of the stainless steel material needs to be ground and polished, and grinding equipment needs to be used to deeply penetrate into the inner wall of the stainless steel material for work.
The prior patent No. CN103522134B provides an aluminum bottle inner wall grinding machine, which comprises a frame, a grinding rotating shaft and a motor, wherein a vertical guide rail is arranged on the left side of the frame, and a platform is arranged on the guide rail; the motor comprises a first motor and a second motor, the first motor is arranged on the platform, the lower edge of the platform is connected with a cylinder, and the cylinder is arranged below the platform and fixed on the left side of the rack; one side of pivot below of polishing is equipped with a pivot, the opposite side of pivot below of polishing is equipped with and rotates the wheelset, just pivot and rotation wheelset locate in the frame, through semi-automatization's equipment, the manual operation is replaced to the part, reduce workman's intensity of labour, improve production efficiency, but its cooling means to stainless steel material that lacks, after stainless steel material polishes, in order to improve follow-up machining efficiency, need let stainless steel material cool down, and above-mentioned equipment needs to additionally use cooling mechanism just can cool down stainless steel material, the use of cooling mechanism can lead to the cost-push, energy use, the problem of device bloated and inefficiency, be unfavorable for energy-concerving and environment-protective and raise the efficiency.
The prior patent No. CN107081644B proposes a pipe fitting inner wall polishing device, which comprises a base, wherein a first push rod motor is installed on one side of the top end of the base, a first slide block is installed on an output shaft of the first push rod motor, a first slide groove is formed in the top end of the base, the first slide block is slidably installed in the first slide groove, the first slide block extends out of the first slide groove, a first servo motor is fixed on one end of the first slide block, which is positioned outside the first slide groove, by screws, a rotary table is installed on an output shaft of the first servo motor, the first servo motor is installed at the central position of one end of the rotary table, a second slide groove is formed in one end of the rotary table, which is far away from the output shaft of the first servo motor, a plurality of screw holes are formed in the second slide groove, two first fixing seats are slidably arranged in the second slide groove, the two first fixing seats are symmetrically installed in the second slide groove, and fixing bolts are arranged at four corners of the two first fixing seats, the fixing bolt is matched with the screw hole, the second servo motors are respectively arranged at the center positions of the two first fixing seats, the hollow rods are respectively arranged on the output shafts of the two second servo motors, telescopic rods are movably arranged in the ends, away from the output shafts of the second servo motors, of the hollow rods, the telescopic rods extend out of the hollow rods, the second fixing seats are arranged at the ends, located outside the hollow rods, of the telescopic rods, polishing heads can be controlled more accurately to polish, polishing precision is higher, meanwhile, the clamping blocks are adjustable, the stainless steel pipe polishing machine can be suitable for pipes with various diameters, and the stainless steel pipe polishing machine is single in function, only has the function of polishing stainless steel materials, and can not meet the requirement for heat dissipation of the stainless steel.
Therefore, a stainless steel material processing device capable of rapidly cooling is needed to solve the above problems.
Disclosure of Invention
Technical problem to be solved
Aiming at the defects of the prior art, the invention provides a stainless steel material processing device capable of rapidly cooling to solve the problems.
(II) technical scheme
In order to achieve the purpose, the invention provides the following technical scheme: a stainless steel material processing device capable of rapidly cooling comprises a heat insulation cylinder with a hollowed back surface and adopting heat insulation materials, wherein a rectangular bulge is arranged on the inner wall of the heat insulation cylinder, a rotating motor is fixedly connected with the heat insulation cylinder, a sleeve shaft is fixedly installed on a transmission shaft of the rotating motor, a push plate A is fixedly connected to the outer wall of the sleeve shaft, a sleeve barrel in a ring shape is sleeved on the outer side of the sleeve shaft, a grinding disc is fixedly installed on the back surface of the sleeve barrel, a hole is formed in the front surface of the heat insulation cylinder, an inserting rod with a hollowed inner part is connected in the hole through a rotating bearing, fixing plates are fixedly connected to the inner walls of the upper surface and the lower surface of the sleeve barrel, the push plate A is positioned on the right side of the fixing plate, a telescopic pad in a quarter ring shape is fixedly connected to the right side of the fixing plate on the upper side, a telescopic groove is formed in the right upper side of the inner part of the sleeve barrel, the telescopic groove is communicated with the telescopic pad, a piston is sleeved on the inner wall of the telescopic groove, the piston passes through spring A and flexible inslot wall connection, and piston top surface fixedly connected with cock stem, cock stem run through in the sleeve, and the cock stem is located the briquetting that the outside one end fixedly connected with of sleeve is the quadrant, and the laminating of briquetting and sleeve outer wall, telescopic one side fixedly connected with rubber pad is kept away from to the briquetting.
Preferably, the front end top surface outer wall fixedly connected with of inserted bar is the connection frame of L type and top surface fretwork, the connection frame inner wall embolias the slide-shaft that is the I shape, screw hole and threaded connection have a screw rod are seted up to the slide-shaft bottom surface, the screw rod outer wall embolias splint, the slide-shaft passes through spring B and is connected with the connection frame inner wall, the sleeve openly sets up the protruding and fixedly connected with of rectangle and is the rotary drum of top surface fretwork, porose and downthehole the emboliaing of having pivot A all seted up at both ends about the rotary drum back, pivot A corresponds the one end fixedly connected with belt pulley in the rotary drum, two belt pulleys pass through drive belt and connect, the pivot A rear end fixedly connected with spool that is located the bottom, spool outer wall fixed connection and winding have the connection rope, the one end that the.
Preferably, the outer wall of the inserted bar is in a cutting separation state and is connected with a through hole ring with a hole paved on the outer wall, and the bottom end of the front side of the inserted bar is provided with a hole.
Preferably, holes are formed in the corresponding surfaces of the clamping plates and the sliding shaft, fixing columns are fixedly connected in the holes, the lantern ring is sleeved in the holes, the connecting frame is located on the inner wall of the lantern ring, and the ratchet mechanisms are arranged on the outer wall of the connecting frame and the inner wall of the lantern ring.
Preferably, the outer wall of the front end of the inserted bar is fixedly connected with a baffle, the front surface of the baffle is fixedly connected with a collecting cylinder with a hollowed top surface and a hollowed back surface, and the inserted bar is obliquely placed.
Preferably, the baffle bottom surface fixedly connected with connecting plate, the spout has openly been seted up to the connecting plate, and the spout inner wall is connected with through the elastic rod and openly sets up porose slider, and the slider is the relation of emboliaing with the spout, and the slider inner wall is connected with pivot B through rolling bearing, and pivot B is the laminating section of thick bamboo that the fretwork state is personally submitted at the outer wall fixedly connected with back of the slider rear side, and the sieve mesh has openly been laid to the laminating section of thick bamboo, and the equidistant fixedly connected with three fan boards of outer.
(III) advantageous effects
Compared with the prior art, the invention provides a stainless steel material processing device capable of rapidly cooling, which has the following beneficial effects:
1. this but stainless steel material processing equipment of rapid cooling, through the setting of briquetting, let the device can switch its function according to the different rotation direction of rotating the motor drive shaft, let the device possess the function of tubular stainless steel material inner wall polishing promptly, the problem of tubular stainless steel material inner wall department polishing difficulty has been solved, also let the device possess the function that drives tubular stainless steel material and rotate together and carry out rapid cooling, the convenience of machining efficiency and device use improves, and avoid the cost increase that extra cooling mechanism set up and lead to, the energy uses, the device is bloated and the problem of inefficiency, possess energy-concerving and environment-protective benefit, in addition, the expansibility of this device is very strong, for example, carry out cutting operation etc. at its outer wall when stainless steel material rotates, possess certain extension function possibility.
2. This but rapid cooling's stainless steel material processing equipment, through the setting of sliding shaft, let the pipeline fix at the in-process of polishing, make it can not produce the rotation because of the friction, the setting of rethread belt pulley lets the device remove at the automatic pulling tubulose stainless steel material of in-process of polishing, improves the degree of automation of device, helps improving machining efficiency.
3. This but rapid cooling's stainless steel material processing equipment through the setting of through-hole ring, lets tubulose stainless steel material when rotating, and the air current can be through inserted bar and through-hole ring at tubulose stainless steel material inner wall circulation, further increases radiating effect and the efficiency of tubulose stainless steel material.
4. This but rapid cooling's stainless steel material processing equipment, through the setting of the lantern ring, let tubulose stainless steel material possess the rotation function under the regulation that need not follow the smooth axle and splint and dismantle, utilize smooth axle and splint to the centre gripping of tubulose stainless steel material, stability when improving tubulose stainless steel material rotation avoids tubulose stainless steel material to throw away the potential safety hazard that leads to from the device, and the convenience is in polishing and cooling that carry out the interrupted formula, avoid the loaded down with trivial details operation of dismouting repeatedly when improving work efficiency.
5. This but rapid cooling's stainless steel material processing equipment, setting through the baffle, the baffle seals the front end mouth of pipe of tubulose stainless steel material, and the abrasive disc seals the terminal mouth of pipe of pipeline, the piece that the inner wall exists because of polishing can not follow mouth of pipe department and throw out when making tubulose stainless steel material rotate, and can be along with rotating through-hole ring input in the inserted bar in discharging into the surge drum, thereby realize clastic centralized processing and discharge, avoid the piece bottom surface polluted environment scheduling problem that drops, possess energy-concerving and environment-protective benefit, also improve the efficiency of collecting the piece in the course of working.
6. This but rapid cooling's stainless steel material processing equipment, through the setting of a laminating section of thick bamboo, after the baffle is laminated to tubulose stainless steel material, a laminating section of thick bamboo and the laminating of tubulose stainless steel material outer wall, a laminating section of thick bamboo rotates along with tubulose stainless steel material, then utilizes the rotation of sector to produce the air current and blow tubulose stainless steel material to further increase the cooling efficiency of tubulose stainless steel material.
Drawings
FIG. 1 is a schematic structural view of the present invention;
FIG. 2 is an enlarged view taken at A of FIG. 1 in accordance with the present invention;
FIG. 3 is a schematic cross-sectional front view of the sleeve of the present invention;
FIG. 4 is a schematic front cross-sectional structural view of the insulated drum and rotating drum of the present invention;
FIG. 5 is a schematic view of the backside structure of the drum of the present invention;
FIG. 6 is a schematic view of the back side of the laminating barrel according to the present invention;
FIG. 7 is a schematic rear sectional view of a slide shaft according to the present invention.
In the figure: 1. a heat insulating cylinder; 2. rotating the motor; 3. a sleeve; 4. grinding; 5. inserting a rod; 6. a sleeve shaft; 7. pushing a plate A; 8. pushing a plate B; 9. a fixing plate; 10. a stretchable pad; 11. a telescopic groove; 12. a piston; 13. a stopper rod; 14. briquetting; 15. a spring A; 16. a connecting frame; 17. a slide shaft; 18. a screw; 19. a splint; 20. a rotating drum; 21. a rotating shaft A; 22. a belt pulley; 23. a bobbin; 24. connecting ropes; 25. a spring B; 26. a through-hole ring; 27. a baffle plate; 28. a collection canister; 29. a connecting plate; 30. a chute; 31. a slider; 32. an elastic rod; 33. a rotating shaft B; 34. a laminating cylinder; 35. a fan plate; 36. fixing a column; 37. a ratchet mechanism; 38. a collar.
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. 1-7, a stainless steel material processing device capable of rapidly cooling comprises a heat insulation cylinder 1 with a hollow back and adopting heat insulation material, the inner wall of the heat insulation cylinder 1 is provided with a rectangular protrusion and fixedly connected with a rotating motor 2, a transmission shaft of the rotating motor 2 is fixedly provided with a sleeve shaft 6, the outer wall of the sleeve shaft 6 is fixedly connected with a push plate a7, the outer side of the sleeve shaft 6 is sleeved with a sleeve 3 in the shape of a ring, the back of the sleeve 3 is fixedly provided with a grinding plate 4, the front of the heat insulation cylinder 1 is provided with a hole, the hole is connected with an inserted rod 5 with a hollow inside through a rotating bearing, the inner walls of the upper and lower surfaces of the sleeve 3 are fixedly connected with a fixed plate 9, the push plate a7 is positioned at the right side of the fixed plate 9, the right side of the fixed plate 9 positioned at the upper side is fixedly connected with a telescopic pad 10 in the shape of a quarter ring, the bottom end of the telescopic pad 10 is fixedly connected with a push plate B8, the right upper side inside of the sleeve 3 is provided with a telescopic groove 11, the telescopic groove 11 is communicated with a telescopic pad 10, a piston 12 is sleeved on the inner wall of the telescopic groove 11, the piston 12 is connected with the inner wall of the telescopic groove 11 through a spring A15, the top surface of the piston 12 is fixedly connected with a plug rod 13, the plug rod 13 penetrates through the sleeve 3, one end of the plug rod 13, which is positioned outside the sleeve 3, is fixedly connected with a press block 14 in a sector shape, the press block 14 is attached to the outer wall of the sleeve 3, one surface of the press block 14, which is far away from the sleeve 3, is fixedly connected with a rubber pad, firstly, the grinding plate 4 is inserted into the inner wall of the tubular stainless steel material, then, a transmission shaft of a rotating motor 2 is started to rotate along with a pointer, a transmission shaft of the rotating motor 2 drives the sleeve shaft 6 to rotate, a push plate A7 rotates along with the sleeve shaft 6 and contacts with a fixing plate 9 positioned below, the push plate A7 drives the sleeve 3 to rotate by pushing the fixing plate 9, the sleeve 3 drives the grinding plate 4 to rotate to polish the inner wall of a pipeline, then, the polishing position is adjusted by holding the insertion rod 5 to move in the tubular stainless steel material, after polishing, the transmission shaft of the rotating motor 2 is started to rotate anticlockwise, the push plate A7 firstly pushes the push plate B8 to slide in the sleeve shaft 6, the push plate B8 extrudes the telescopic pad 10, air in the telescopic pad 10 is injected into the telescopic groove 11 to push the plug rod 13 to extend out of the sleeve 3, the press block 14 extends out along with the plug rod 13 and is tightly attached to the inner wall of the tubular stainless steel material, after the telescopic pad 10 cannot be contracted, the push plate A7 pushes the push plate B8 to drive the sleeve shaft 6 to rotate, the press block 14 is in close contact with the inner wall of the tubular stainless steel material, the pipeline rotates along with the sleeve 3, the external airflow is enabled to flow by the rotating pipeline, the heat exchange of the pipeline is accelerated by the flowing airflow, so that the effect of rapid cooling is achieved, the device can switch the function according to different rotating directions of the transmission shaft of the rotating motor 2 by the arrangement of the press block 14, and has the function of polishing on the inner wall of the tubular stainless steel material, the problem of the difficult polishing of tubulose stainless steel material inner wall department also let the device possess the function that drives tubulose stainless steel material and rotate together and carry out rapid cooling, improve machining efficiency and the convenience of device use, and avoid the cost increase that extra cooling mechanism set up and lead to, energy use, the device is bloated and problem that inefficiency, possess energy-concerving and environment-protective benefit, in addition, the expansibility of this device is very strong, for example when stainless steel material rotates carry out cutting operation etc. at its outer wall, possess certain function extension possibility.
The outer wall of the top surface of the front end of the inserted link 5 is fixedly connected with a connecting frame 16 which is L-shaped and has a hollow top surface, the inner wall of the connecting frame 16 is sleeved with an I-shaped sliding shaft 17, the bottom surface of the sliding shaft 17 is provided with a threaded hole and is connected with a screw rod 18 in a threaded manner, the outer wall of the screw rod 18 is sleeved with a clamping plate 19, the sliding shaft 17 is connected with the inner wall of the connecting frame 16 through a spring B25, the front surface of the sleeve 3 is provided with a rectangular protrusion and is fixedly connected with a revolving drum 20 with a hollow top surface, the upper end and the lower end of the back surface of the revolving drum 20 are provided with holes and are sleeved with a rotating shaft A21, one end of the rotating shaft A21, which corresponds to the inside of the revolving drum 20, is fixedly connected with a belt pulley 22 through transmission belt, the rear end of the rotating shaft A21 at the bottom end is fixedly connected with a bobbin 23, the outer wall of the bobbin 23 is fixedly connected and is wound with a connecting rope 24, one end of the connecting rope 24, which is far away from the bobbin 5 and the sleeve 6, is fixedly connected with the sliding shaft 17, firstly, the front end of a tubular stainless steel material is placed between a sliding shaft 17 and a clamping plate 19, then a screw 18 is screwed to clamp the sliding shaft 17 and the clamping plate 19 to the tubular stainless steel material, the tubular stainless steel material is pushed to enable the inner wall of the tubular stainless steel material to be sleeved at the outer wall of a rotating shaft A21, then a rotating drum 20 rotates along with a sleeve 3 in the polishing process, the rotating shaft A21 rubs against the inner wall of the tubular stainless steel material and generates rotation in the rotating process of the rotating drum 20, the rotating shaft A21 rotates and enables a spool 23 to rotate through transmission belt transmission, a connecting rope 24 is pulled to be wound on the outer wall of the spool 23 in the rotating process, the connecting rope 24 is stressed to pull the sliding shaft 17 to slide on a connecting frame 16, so that the pipeline is automatically pulled, the pipeline is automatically moved in the polishing process, the pipeline is fixed in the polishing process through the arrangement of the sliding shaft 17, the, let the device remove at the automatic pulling tubulose stainless steel material of in-process of polishing, improve the degree of automation of device, help improving machining efficiency.
The outer wall of inserted bar 5 is and dissects the detached state and lays porose through the outer wall and encircle 26 and connect, and the porose through-hole ring 26 is seted up to the positive bottom of inserted bar 5, and through the setting of through-hole ring 26, lets tubular stainless steel material when rotating, the air current can be through inserted bar 5 and through-hole ring 26 at the circulation of tubular stainless steel material inner wall, further increases radiating effect and the efficiency of tubular stainless steel material.
The corresponding surfaces of the clamping plate 19 and the sliding shaft 17 are provided with holes, fixing columns 36 are fixedly connected in the holes and sleeved with a lantern ring 38, the connecting frame 16 is positioned on the inner wall of the lantern ring 38, ratchet mechanisms 37 are arranged on the outer wall of the connecting frame 16 and the inner wall of the lantern ring 38, the lantern ring 38 replaces the sliding shaft 17 and the clamping plate 19 to clamp tubular stainless steel materials, a transmission shaft of the rotating motor 2 can rotate clockwise when polishing, when the pipeline receives clockwise thrust, the pipeline cannot rotate along with the limitation of the ratchet mechanisms 37, when the transmission shaft of the rotating motor 2 rotates anticlockwise, the pipeline receives the clockwise thrust, the lantern ring 38 can rotate through the ratchet mechanisms 37, so that the tubular stainless steel materials have a rotating function under the condition that the tubular stainless steel materials are not required to be detached from the sliding shaft 17 and the clamping plate 19, and through the arrangement of the lantern ring 38, the tubular stainless steel materials have a rotating function under the condition that the tubular stainless steel materials are not required to be detached from the sliding shaft 17 and the clamping plate 19, utilize slide shaft 17 and splint 19 to the centre gripping of tubulose stainless steel material, stability when improving tubulose stainless steel material and rotating avoids tubulose stainless steel material to throw away the potential safety hazard that leads to from the device, and conveniently in carrying out interrupted polishing and cooling, avoids the loaded down with trivial details operation of repeated dismouting when improving work efficiency.
Front end outer wall fixedly connected with baffle 27 of inserted bar 5, baffle 27 openly fixedly connected with top surface and the equal collection tube 28 of fretwork in the back, inserted bar 5 is the slope and places, setting through baffle 27, baffle 27 seals the front end mouth of pipe of tubulose stainless steel material, and abrasive disc 4 seals the terminal mouth of pipe of pipeline, the piece that makes tubulose stainless steel material rotate the time inner wall because of polishing the existence can not throw from the mouth of pipe, and can be along with rotate through-hole ring 26 input in inserted bar 5 in the collection tube 28 of discharging, thereby realize clastic centralized processing and discharge, avoid the piece to drop bottom surface polluted environment scheduling problem, possess energy-concerving and environment-protective benefit, also improve the efficiency of collecting the piece in the course of working.
The bottom surface of the baffle 27 is fixedly connected with a connecting plate 29, the front surface of the connecting plate 29 is provided with a chute 30, the inner wall of the chute 30 is connected with a slide block 31 with a hole on the front surface through an elastic rod 32, the slide block 31 is in a sleeved relation with the chute 30, the inner wall of the slide block 31 is connected with a rotating shaft B33 through a rotating bearing, the outer wall of the rotating shaft B33 at the rear side of the slide block 31 is fixedly connected with a laminating cylinder 34 with a hollowed-out back surface, the front surface of the laminating cylinder 34 is paved with a sieve mesh, the outer wall of the rotating shaft B33 in the laminating cylinder 34 is fixedly connected with three fan plates 35 at equal intervals, after the tubular stainless steel material is laminated on the baffle 27, the laminating cylinder 34 is laminated with the outer wall of the tubular stainless steel material, the laminating cylinder 34 rotates along with the tubular stainless steel material, then the tubular stainless steel material is blown by the rotation of the fan plates 35, after the tubular stainless steel material is laminated on the baffle 27, the laminating cylinder 34 is laminated with the outer wall of the tubular stainless steel material, the fitting cylinder 34 rotates along with the tubular stainless steel material, and then the fan plate 35 rotates to generate wind flow to blow the tubular stainless steel material, so that the cooling efficiency of the tubular stainless steel material is further increased.
When the pipe polishing device is used, S1, firstly, the abrasive disc 4 is inserted into the inner wall of the tubular stainless steel material, then the transmission shaft of the rotating motor 2 is started to rotate along the pointer, the transmission shaft of the rotating motor 2 drives the sleeve shaft 6 to rotate, the push plate A7 rotates along with the sleeve shaft 6 and contacts with the fixed plate 9 positioned below, the push plate A7 drives the sleeve 3 to rotate by pushing the fixed plate 9, the sleeve 3 drives the abrasive disc 4 to rotate to polish the inner wall of the pipe, then the polishing position is adjusted by holding the insertion rod 5 to move in the tubular stainless steel material, after polishing is finished, the transmission shaft of the rotating motor 2 is started to rotate anticlockwise, the push plate A7 firstly pushes the push plate B8 to slide in the sleeve shaft 6, the push plate B8 extrudes the telescopic pad 10, air in the telescopic pad 10 is injected into the telescopic groove 11 to push the plug rod 13 to extend out from the sleeve 3, the pressing block 14 extends out along with the plug rod 13 and is tightly attached to the inner wall of the tubular stainless steel material, after the telescopic pad 10 cannot be contracted, the push plate a7 pushes the push plate B8 to drive the sleeve shaft 6 to rotate, the press block 14 is in close contact with the inner wall of the tubular stainless steel material, the pipeline rotates along with the sleeve 3, the rotating pipeline enables external airflow to flow, the flowing airflow is utilized to accelerate heat exchange of the pipeline, and therefore the effect of rapid cooling is achieved.
S2, firstly, placing the front end of the tubular stainless steel material between the sliding shaft 17 and the clamping plate 19, then screwing the screw 18 to clamp the sliding shaft 17 and the clamping plate 19 to the tubular stainless steel material, then pushing the tubular stainless steel material to enable the inner wall of the tubular stainless steel material to be sleeved on the outer wall of the rotating shaft A21, then rotating the rotating drum 20 along with the sleeve 3 in the polishing process, rubbing the rotating shaft A21 with the inner wall of the tubular stainless steel material and generating rotation in the rotating process of the rotating drum 20, driving the spool 23 to rotate through a driving belt after the rotating shaft A21 rotates, pulling the connecting rope 24 to be wound on the outer wall of the spool 23 in the rotating process, and pulling the sliding shaft 17 to slide on the connecting frame 16 by the connecting rope 24 under stress, thereby automatically pulling the pipeline and enabling the pipeline to automatically move in the polishing process.
S3, the lantern ring 38 replaces the sliding shaft 17 and the clamping plate 19 to clamp the tubular stainless steel material, the transmission shaft of the rotating motor 2 can rotate clockwise when polishing, when the pipeline receives clockwise thrust, the pipeline cannot rotate along with the limitation of the ratchet mechanism 37, when the transmission shaft of the rotating motor 2 rotates anticlockwise, the pipeline receives clockwise thrust, the lantern ring 38 can rotate through the ratchet mechanism 37, and therefore the tubular stainless steel material does not need to be detached from the sliding shaft 17 and the clamping plate 19 and has a rotating function.
And S4, after the tubular stainless steel material is adhered to the baffle plate 27, the adhering cylinder 34 is adhered to the outer wall of the tubular stainless steel material, the adhering cylinder 34 rotates along with the tubular stainless steel material, and then wind flow generated by the rotation of the fan plate 35 blows the tubular stainless steel material.
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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