1. The utility model provides an optical device heating damping device, a serial communication port, including damper (1) and heating cabinet (2), damper (1) sets up subaerial, heating cabinet (2) set up the top at damper (1), still be equipped with on heating cabinet (2) and remove subassembly (3), heating assembly (4) and automatic door subassembly (5), it sets up the one side at heating cabinet (2) to remove subassembly (3), the work end setting of removing subassembly (3) is in the inside of heating cabinet (2), heating assembly (4) set up on the work end of removing subassembly (3), the opposite side of heating cabinet (2) is equipped with the opening, automatic door subassembly (5) set up on heating cabinet (2) opening, damper (1) includes shell (11), first fixed plate (12), first support component (13), The support device comprises a second support component (14), two hydraulic components (15), a support plate (16) and a support plate (17), wherein the shell (11) is arranged on the ground, the first fixing plate (12) is provided with two blocks, the two first fixing plates (12) are fixedly arranged at the bottoms of two sides of the shell (11), the first support component (13) and the second support component (14) are respectively provided with two groups, the two groups of first support components (13) and the two groups of second support components (14) have the same structure, the two groups of first support components (13) are arranged at one side of the shell (11), the two groups of second support components (14) are arranged at the other side of the shell (11), the support plate (17) is arranged on the two groups of first support components (13) and the two groups of second support components (14), and the hydraulic components (15) are arranged on the support plate (17), the working end of the hydraulic component (15) is vertically arranged downwards, the hydraulic component (15) is movably connected with the two groups of first supporting assemblies (13) and the two groups of second supporting assemblies (14), the number of the supporting plates (16) is two, and the two supporting plates (16) are arranged on two sides of the working end of the hydraulic component (15).

2. An optical device heating and shock absorbing device as claimed in claim 1, wherein each group of the first supporting parts (13) comprises a first cylinder (131), a first movable rod (132), a first spring (133), a second movable rod (134), a second spring (135), a first connecting rod (136), a second connecting rod (137) and a rotating shaft (138), the first cylinder (131) is L-shaped, the first cylinder (131) is disposed at the bottom of the housing (11), the first movable rod (132) is disposed in the first cylinder (131), the first spring (133) is sleeved on the first movable rod (132), the second movable rod (134) is installed at one side below the first cylinder (151), the second spring (135) is sleeved on the outer side of the second movable rod (134), one end of the first connecting rod (136) is movably connected to the output end of the second movable rod (134), one end of the second connecting rod (137) is movably connected with the other end of the first connecting rod (136), the rotating shaft (138) is rotatably mounted on the support plate (16), two ends of the rotating shaft (138) penetrate through the support plate (16) and extend to two sides outside the support plate (16), and the other end of the second connecting rod (137) is movably arranged at one end of the rotating shaft (138).

3. A light heating and shock absorbing device according to claim 1, wherein the hydraulic unit (15) comprises a second cylinder (151) and a hydraulic movable rod (152), the second cylinder (151) is disposed below the support plate (17), and the hydraulic movable rod (152) is installed inside the second cylinder (151).

4. An optical device heating and shock-absorbing device as claimed in claim 1, wherein the heating box (2) is provided with two supporting columns (21), two solar panels (22) and four heat-conducting plates (23), the two supporting columns (21) are spaced apart from each other on the heating box (2), the solar panels (22) are disposed above the two supporting columns (21), the number of the heat-conducting plates (23) is four, one end of each of the four heat-conducting plates (23) is connected with the heating box (2), and the other end of each of the four heat-conducting plates (23) is connected with the solar panels (22).

5. A light heating and shock absorbing device according to claim 1, wherein the moving assembly (3) comprises a moving push rod (31), a sliding frame (32), a sliding plate (33), a moving link (34) and a second fixing plate (35), the movable push rod (31) is fixedly arranged on the outer side of the heating box (2), the output end of the movable push rod (31) penetrates through the outer side of the heating box (2), the sliding frame (32) is horizontally arranged at one side in the heating box (2), the sliding plate (33) is horizontally arranged on the sliding frame (32), the sliding plate (33) is in sliding fit with the sliding frame (32), the telescopic end of the movable push rod (31) is connected with the sliding plate (33), one end of the movable connecting rod (34) is fixedly connected with the sliding plate (32), and the second fixing plate (35) is connected with the other end of the movable connecting rod (34).

6. A light device heating and shock-absorbing device according to claim 5, wherein the heating assembly (4) comprises a fixing bracket (41), circular fixing rings (42) and heating circular tubes (43), the fixing bracket (41) is disposed on the second fixing plate (35), the heating circular tubes (43) are provided with a plurality of the circular fixing rings (42), the heating circular tubes (43) are disposed on the fixing bracket (41) at intervals, and each circular heating circular tube (43) is sleeved with two circular fixing rings (42).

7. The optical device heating and shock absorbing device as claimed in claim 1, wherein the automatic door assembly (5) comprises an L-shaped plate (51), a rotating motor (52), a first rotating wheel (53), a second rotating wheel (54), a first belt (55), a first switch door (56) and a second switch door (57), the L-shaped plate (51) is arranged on the heating box (2), the rotating motor (52) is arranged on the L-shaped plate (51), one end of the first rotating wheel (53) is movably arranged on the heating box (2), the other end of the first rotating wheel (53) is connected with the rotating motor (52), the second rotating wheel (54) is arranged on the heating box (2), the second rotating wheel (54) is arranged on one side of the first rotating wheel (53), two ends of the first belt (55) are respectively sleeved on the first rotating wheel (53) and the second rotating wheel (54), first switch door (56) with second switch door (57) cover is established on the opening of heating cabinet (2), the one end of first switch door (56) upside with the one end of second switch door (57) upside is fixed the upper and lower both sides that set up respectively in first belt (55) intermediate position.

Background

Patent number CN107728268A discloses a heating device for optical device among the prior art, including the base, the upper end of base is equipped with the spacing groove, be fixed with two cylinders that are parallel to each other on the one end lateral wall of spacing groove, the telescopic link end of two cylinders is fixed with the movable block jointly, the upper end of movable block is equipped with the shifting chute, install two fourth sliders that are parallel to each other in the shifting chute, the upper end of two fourth sliders all is equipped with the driving groove, the bottom in the driving groove all is fixed with second drive arrangement, the output shaft end of second drive arrangement is fixed with the second threaded rod. The device realizes the omnibearing heating of the light device and the heat shrinkable tube, avoids the damage of the light device and the heat shrinkable tube caused by overhigh temperature of one part, solves the problem of higher defective rate of a common heating method, improves the production efficiency, improves the profit of enterprises, has a simple structure, is convenient for workers to operate, and is suitable for popularization.

However, the above patent has the following problems that in the heating process, if the number of devices is large, the weight is large, the base is easily damaged due to large bearing force, and the service life of the equipment is influenced for a long time.

Disclosure of Invention

The embodiment of the invention provides an optical device heating and damping device, and aims to solve the problems that in the prior art, if a plurality of devices are arranged in the heating process, the weight is large, the base is easily damaged due to large bearing force, and the service life of equipment is influenced for a long time.

The embodiment of the invention adopts the following technical scheme: including shock-absorbing component and heating cabinet, shock-absorbing component sets up subaerial, the heating cabinet sets up the top at shock-absorbing component, still be equipped with removal subassembly, heating element and automatic door subassembly on the heating cabinet, the removal subassembly sets up the one side at the heating cabinet, the work end setting of removal subassembly is in the inside of heating cabinet, heating element sets up on the work end of removing the subassembly, the opposite side of heating cabinet is equipped with the opening, automatic door subassembly sets up on the heating cabinet opening.

Furthermore, the shock absorption assembly comprises a shell, two first fixing plates, two first supporting parts, two second supporting parts, a hydraulic part, a supporting plate and a supporting plate, wherein the shell is arranged on the ground, the two first fixing plates are fixedly arranged at the bottoms of the two sides of the shell, the two first supporting parts and the two second supporting parts are respectively provided with two groups, the structures of the two groups of first supporting parts and the two groups of second supporting parts are the same, the two groups of first supporting parts are arranged on one side of the shell, the two groups of second supporting parts are arranged on the other side of the shell, the supporting plate is arranged on the two groups of first supporting parts and the two groups of second supporting parts, the hydraulic part is arranged on the supporting plate, the working end of the hydraulic part is vertically arranged downwards, and the hydraulic part is movably connected with the two groups of first supporting parts and the two groups of second supporting parts, the two support plates are arranged on two sides of the working end of the hydraulic component.

Further, the first supporting part comprises a first cylinder body, a first movable rod, a first spring, a second movable rod, a second spring, a first connecting rod, a second connecting rod and a rotating shaft, the first cylinder body is L-shaped, the first cylinder body is arranged at the bottom of the shell, the first movable rod is arranged in the first cylinder body, the first spring is sleeved on the first movable rod, the second movable rod is arranged at one side in the second cylinder body, and the second spring is sleeved on the outer side of the second movable rod, one end of the first connecting rod is movably connected on the output end of the second movable rod, one end of the second connecting rod is movably connected with the other end of the first connecting rod, the rotating shaft is rotatably arranged on the support plate, two ends of the rotating shaft penetrate through the support plate and extend to two sides outside the support plate, and the other end of the second connecting rod is movably arranged at one end of the rotating shaft.

Further, the hydraulic part includes a second cylinder disposed below the support plate and a hydraulic movable rod installed inside the second cylinder.

Further, be equipped with support column, solar panel and heat-conducting plate on the heating cabinet, the support column is equipped with two, two the support column interval sets up on the heating cabinet, solar panel sets up two the top of support column, the heat-conducting plate is equipped with four, four the one end of heat-conducting plate all with the heating cabinet is connected, and four the equal solar panel of the other end of heat-conducting plate connects.

Further, the moving assembly comprises a moving push rod, a sliding frame, a sliding plate, a moving connecting rod and a second fixing plate, the moving push rod is fixedly arranged on the outer side of the heating box, the output end of the moving push rod penetrates through the outer side of the heating box, the sliding frame is horizontally arranged on one side in the heating box, the sliding plate is horizontally arranged on the sliding frame and is in sliding fit with the sliding frame, the telescopic end of the moving push rod is connected with the sliding plate, one end of the moving connecting rod is fixedly connected with the sliding plate, and the second fixing plate is connected with the other end of the moving connecting rod.

Further, heating element includes fixed bolster, circular solid fixed ring and heating pipe, the fixed bolster sets up on the second fixed plate, the heating pipe is equipped with a plurality of, a plurality of the heating pipe interval sets up on the fixed bolster, circular solid fixed ring is equipped with a plurality of groups, and is every two sets of circular solid fixed ring sets up respectively on the heating pipe.

Further, the automatic door assembly comprises an L-shaped plate, a rotating motor, a first rotating wheel, a second rotating wheel, a first belt, a first switch door and a second switch door, the L-shaped plate is arranged on the heating box, the rotating motor is arranged on the L-shaped plate, one end of the first rotating wheel is movably arranged on the heating box, the other end of the first rotating wheel is connected with the rotating motor, the second rotating wheel is arranged on the heating box, the second rotating wheel is positioned at one side of the first rotating wheel, two ends of the first belt are respectively sleeved on the first rotating wheel and the second rotating wheel, the first switch door and the second switch door are covered on the opening of the heating box, one end of the upper side of the first switch door and one end of the upper side of the second switch door are respectively and fixedly arranged on the upper side and the lower side of the middle position of the first belt,

the embodiment of the invention adopts at least one technical scheme which can achieve the following beneficial effects:

the invention is used for reducing the pressure and the shaking of the device caused by the self weight in the heating process of the photoelectric device by arranging the damping component, thereby preventing the device from being damaged. When damper unit during operation, carry out the atress through the backup pad and push down, carry out the atress through the first movable rod on first supporting part and the second supporting part, first movable rod pushes down and drives the cover simultaneously and establish the first spring on first movable rod and push down, first spring pushes down and has an ascending reaction force simultaneously, first spring on two first supporting parts and two second supporting parts provides ascending reaction simultaneously and is used for reaching the shock attenuation effect, and when the backup pad local carries out the atress, drive the axis of rotation through hydraulic pressure part and move downwards, the axis of rotation drives second connecting rod work, the second connecting rod drives first connecting rod work, first connecting rod drives the second movable rod and establishes the second spring on the second movable rod and carries out local flexible shock attenuation operation.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the invention and not to limit the invention. In the drawings:

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a first schematic structural view of the shock absorbing assembly of the present invention;

FIG. 3 is a second schematic structural view of the shock absorbing assembly of the present invention;

FIG. 4 is an enlarged view taken at A in FIG. 3;

FIG. 5 is a schematic diagram of the hydraulic assembly of the present invention;

FIG. 6 is a schematic view of the structure of the heating chamber of the present invention;

FIG. 7 is a schematic view of the moving assembly of the present invention;

FIG. 8 is a schematic view of the heating assembly of the present invention;

fig. 9 is a schematic structural view of an automatic door assembly of the present invention.

Reference numerals: 1. a shock absorbing assembly; 11. a housing; 12. a first fixing plate; 13. a first support member; 131. a first cylinder; 132. a first movable bar; 133. a first spring; 134. a second movable bar; 135. a second spring; 136. a first link; 137. a second link; 138. a rotating shaft; 14. a second support member; 15. a hydraulic component; 151. a second cylinder; 152. a hydraulic movable rod; 16. a support plate; 17. a support plate; 2. a heating box; 21. a support pillar; 22. a solar panel; 23. a heat conducting plate; 3. a moving assembly; 31. moving the push rod; 32. a carriage; 33. a sliding plate; 34. moving the connecting rod; 35. a second fixing plate; 4. a heating assembly; 41. fixing a bracket; 42. a circular fixing ring; 43. heating the circular tube; 5. an automatic door assembly; 51. an L-shaped plate; 52. rotating the motor; 53. a first rotating wheel; 54. a second rotating wheel; 55. a first belt; 56. a first switch door; 57. and a second switch door.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the technical solutions of the present invention will be clearly and completely described below with reference to the specific embodiments of the present invention and the accompanying drawings. It is to be understood that the described embodiments are merely exemplary of the invention, and not restrictive of the full scope of the invention. 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.

The technical solutions provided by the embodiments of the present invention are described in detail below with reference to the accompanying drawings of fig. 1 to 9.

An optical device heating and shock-absorbing device comprises a shock-absorbing component 1 and a heating box 2, wherein the shock-absorbing component 1 is arranged on the ground, the heating box 2 is arranged above the shock-absorbing component 1, a moving component 3, a heating component 4 and an automatic door component 5 are further arranged on the heating box 2, the moving component 3 is arranged on one side of the heating box 2, the working end of the moving component 3 is arranged in the heating box 2, the heating component 4 is arranged on the working end of the moving component 3, the other side of the heating box 2 is provided with an opening, the automatic door component 5 is arranged on the opening of the heating box 2, the heating component 4 heats devices when needed through the matching work of the components, the devices are withdrawn when not needed, the work of other components is prevented from being influenced, the opening of the heating box 2 is automatically closed or opened through the arrangement of the automatic door component 5, the shock absorption assembly 1 is used for reducing pressure and shaking of the device caused by the self weight in the heating process of the photoelectric device, and preventing the device from being damaged after long-time trial use.

Specifically, the shock absorption assembly 1 comprises a housing 11, a first fixing plate 12, two first fixing plates 12, two second fixing plates 14, a hydraulic component 15, a support plate 16 and a support plate 17, wherein the housing 11 is arranged on the ground, the first fixing plate 12 is provided with two blocks, the two first fixing plates 12 are fixedly arranged at the bottoms of two sides of the housing 11, the first supporting components 13 and the second supporting components 14 are respectively provided with two groups, the two groups of first supporting components 13 and the two groups of second supporting components 14 have the same structure, the two groups of first supporting components 13 are arranged at one side of the housing 11, the two groups of second supporting components 14 are arranged at the other side of the housing 11, the support plate 17 is arranged on the two groups of first supporting components 13 and the two groups of second supporting components 14, the hydraulic component 15 is arranged on the support plate 17, and the working end of the hydraulic component 15 is vertically arranged downwards, the hydraulic component 15 is movably connected with the two groups of first supporting components 13 and the two groups of second supporting components 14, the number of the supporting plates 16 is two, and the two supporting plates 16 are arranged on two sides of the working end of the hydraulic component 15.

Specifically, the first support member 13 includes a first cylinder 131, a first movable rod 132, a first spring 133, a second movable rod 134, a second spring 135, a first connecting rod 136, a second connecting rod 137, and a rotating shaft 138, the first cylinder 131 is L-shaped, the first cylinder 131 is disposed at the bottom of the housing 11, the first movable rod 132 is disposed in the first cylinder 131, the first spring 133 is sleeved on the first movable rod 132, the second movable rod 134 is mounted at one side of the inside of the second cylinder 151, the second spring 135 is sleeved on the outside of the second movable rod 134, one end of the first connecting rod (136) is movably connected to the output end of the second movable rod (134), one end of the second connecting rod (137) is movably connected to the other end of the first connecting rod (136), the rotating shaft (138) is rotatably mounted on the support plate (16), and two ends of the rotating shaft (138) penetrate through the support plate (16) and extend to two sides outside the support plate (16), the other end of the second connecting rod (137) is movably arranged on one end of the rotating shaft (138);

specifically, the hydraulic component 15 includes a second cylinder 151 and a hydraulic movable rod 152, the second cylinder 151 is disposed below the support plate 17, and the hydraulic movable rod 152 is installed inside the second cylinder 151;

when the shock absorption assembly 1 works, the support plate 17 is pressed downwards under stress, the first movable rod 132 on the first support part 13 and the second support part 14 is stressed, the first movable rod 132 is pressed downwards to drive the first spring 133 sleeved on the first movable rod 132 to be pressed downwards, the first spring 133 is pressed downwards and has an upward reaction force, the first springs 13 on the two first support parts 13 and the two second support parts 14 simultaneously provide the upward reaction force to achieve the shock absorption effect, and when the support plate 17 is locally stressed, the hydraulic component 15 drives the rotating shaft 138 to move downwards, the rotating shaft 138 drives the second connecting rod 137 to work, the second connecting rod 137 drives the first connecting rod 136 to work, and the first connecting rod 136 drives the second movable rod 134 and the second spring sleeved on the second movable rod 134 to perform local telescopic shock absorption operation.

It is specific, be equipped with support column 21, solar panel 22 and heat-conducting plate 23 on the heating cabinet 2, support column 21 is equipped with two, two support column 21 interval sets up on heating cabinet 2, solar panel 22 sets up two the top of support column 21, heat-conducting plate 23 is equipped with four, four the one end of heat-conducting plate 23 all with heating cabinet 2 is connected, and four the equal solar panel 22 of the other end of heat-conducting plate 23 connects, absorbs solar heat through solar panel 22, and solar panel 22's heat can pass through heat-conducting plate 23 and pass to in the heating cabinet 2 for the temperature in the heating cabinet 2 risees.

Specifically, the moving assembly 3 comprises a moving push rod 31, a sliding frame 32, a sliding plate 33, a moving link 34 and a second fixing plate 35, the moving push rod 31 is fixedly arranged on the outer side of the heating box 2, the output end of the moving push rod 31 penetrates through the outer side of the heating box 2, the carriage 32 is horizontally disposed at one side inside the heating compartment 2, the sliding plate 33 is horizontally disposed on the carriage 32, and a sliding plate 33 is slidably engaged with the sliding frame 32, the telescopic end of the moving push rod 31 is connected with the sliding plate 33, one end of the moving link 34 is fixedly connected to the sliding plate 32, the second fixing plate 35 is connected to the other end of the moving link 34, the sliding bar 33 is driven by moving the push rod 31 to perform work, the sliding bar 33 slides in the sliding frame 32, at the same time, the moving link 34 is driven to move, and the moving link 34 drives the second fixing plate 35 to move.

Specifically, heating element 4 includes fixed bolster 41, circular solid fixed ring 42 and heating pipe 43, fixed bolster 41 sets up on second fixed plate 35, heating pipe 43 is equipped with a plurality of, a plurality of heating pipe 43 interval sets up on fixed bolster 41, circular solid fixed ring 42 is equipped with a plurality of groups, and is every two sets circular solid fixed ring 42 sets up respectively on heating pipe 43.

Specifically, automatic door assembly 5 includes L template 51, rotation motor 52, first rotation wheel 53, second rotation wheel 54, first belt 55, first switch door 56 and second switch door 57, L template 51 sets up on heating cabinet 2, rotation motor 52 sets up on L template 51, the one end activity of first rotation wheel 53 sets up on heating cabinet 2, the other end of first rotation wheel 53 with rotate motor 52 and be connected, second rotation wheel 54 sets up on heating cabinet 2, just second rotation wheel 54 is located one side of first rotation wheel 53, the both ends of first belt 55 are established respectively on first rotation wheel 53 and second rotation wheel 54, first switch door 56 with second switch door 57 cover is established on the opening of heating cabinet 2, the one end of first switch door 56 upside and the one end of second switch door 57 upside are fixed the upper and lower both sides that set up at first belt 55 intermediate position respectively, when the automatic door assembly 5 works, the operation of the rotating motor 52 drives the first rotating wheel 53 to rotate, the first rotating wheel 53 drives the first belt 55 to rotate when rotating, the first belt 55 drives the second rotating wheel 54 to rotate, the first belt 55 drives the first switch door 56 and the second switch door 57 to move towards two sides when rotating in the forward direction, the first belt 55 drives the first switch door 56 and the second switch door 57 to move towards the middle when rotating in the reverse direction, because the two ends of the first switch door 56 and the second switch door 57 are respectively and fixedly arranged at the upper side and the lower side of the middle position of the first belt 55, when the first belt 55 rotates clockwise, the first switch door 56 opens towards the left and the second switch door 57, otherwise, the operation is closed, the opening of the heating box 2 is sealed through the arrangement of the automatic door assembly 5, and the heat in the heating box 2 is prevented from flowing out too much, affecting the heating efficiency of the device.

The working principle is as follows: when the device needs to be heated, the operation of the rotating motor 52 drives the first rotating wheel 53 to rotate, the rotation of the first rotating wheel 53 drives the first belt 55 to rotate, the first belt 55 drives the second rotating wheel 54 to rotate, the forward rotation of the first belt 55 drives the first switch door 56 and the second switch door 57 to move towards two sides, the reverse rotation of the first belt 55 drives the first switch door 56 and the second switch door 57 to move towards the middle to open and close the opening of the heating box 2, then the solar panel 22 in the heating box 2 absorbs the heat of the sun, the heat of the solar panel 22 is transmitted into the heating box 2 through the heat conducting plate 23, so that the temperature in the heating box 2 rises, if the sun does not exist, the sliding plate 33 is driven to move on the sliding frame 32 through the movement of the telescopic end of the moving push rod 31, the sliding plate 33 moves to drive the moving connecting rod 34 to contract and expand so as to drive the second fixing plate 35 to move in the heating box 2, the second fixing plate 35 moves to move the heating assembly 4, when the devices in the heating box 2 are too large, the heating box 2 needs to be decompressed, the supporting plate 17 is stressed to press downwards, the first supporting part 13 and the first movable rod 132 on the second supporting part 14 are stressed, the first movable rod 132 presses downwards to extrude the first cylinder 131 for damping, and when the supporting plate 17 is locally stressed, the second movable rod 134 extruding the lower end of the first supporting part 13 or the second supporting part 14 is pushed out, the second movable rod 134 pushes the first connecting rod 136, the first connecting rod 136 pushes the second connecting rod 137, the second connecting rod 137 is fixed at the bottom end of the movable rod plate of the hydraulic movable rod 152 through the rotating shaft 138, so that the first connecting rod 136 drives the second connecting rod 137 to push upwards, and the hydraulic movable rod 152 pushes the hydraulic movable rod 152 to damp through the second connecting rod 137 upwards, because the second connecting rods 137 are fixed at the bottom end of the same hydraulic movable rod 152, when the hydraulic movable rod 152 presses upwards, the other second connecting rod 137 is driven to move upwards, the other second movable rod 134 is driven to be pushed out, the other first movable rod 132 drives the supporting plate 17 to press downwards, and the balance of the top supporting plate 17 is ensured.

The above description is only an example of the present invention, and is not intended to limit the present invention. Various modifications and alterations to this invention will become apparent to those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the scope of the claims of the present invention.