CN215101599U - Orbital loading attachment is used in work piece application - Google Patents

Abstract

The application relates to a feeding device of a rail for coating workpieces, which comprises a ground vehicle for loading large workpieces on the ground in batches; a bearing frame used for connecting the ground vehicle and the large workpiece is arranged between the ground vehicle and the large workpiece; the ground is fixedly connected with a supporting component; the support assemblies are provided with three groups and are arranged along the width direction of the support assemblies; a guide rail is connected between two groups of adjacent supporting components; the guide rail is connected with a crown block in a sliding way, and the crown block is used for adjusting the relative position of the batch large-scale workpieces and the ground at high altitude; a lifting component for adjusting the distance between the crown block and the ground is arranged between the remaining two groups of adjacent supporting components; the lifting assembly is connected with a first locking assembly used for fixing the relative position between the crown block and the lifting assembly; and lifting unit is connected with the second locking Assembly who is used for fixed relative position between lifting unit and the guide rail, and this application has the effect that improves large-scale work piece spraying efficiency.

Description

Orbital loading attachment is used in work piece application

Technical Field

The application relates to the technical field of coating processing, in particular to a feeding device of a rail for workpiece coating.

Background

Painting is an important step in modern product manufacturing processes. The quality of antirust and anticorrosive coatings is one of the important aspects of the overall quality of products. The appearance quality of the product not only reflects the protection and decoration performance of the product, but also is an important factor forming the value of the product.

When coating is carried out on a large-sized workpiece, a worker is required to manually carry the workpiece to a drying room or a spraying room, so that the large-sized workpiece is sprayed or dried.

With respect to the related art among the above, the inventors consider that the following drawbacks exist: when large-scale workpieces are coated, workers are required to carry the workpieces manually, so that the spraying efficiency of the large-scale workpieces is low.

SUMMERY OF THE UTILITY MODEL

In order to improve large-scale work piece spraying efficiency, this application provides a orbital loading attachment is used in work piece application.

The application provides a orbital loading attachment is used in work piece application adopts following technical scheme: the ground vehicle is used for loading large workpieces on the ground in batches; a bearing frame used for connecting the ground vehicle and the large workpiece is arranged between the ground vehicle and the large workpiece; the ground is fixedly connected with a supporting component; the support assemblies are provided with three groups and are sequentially arranged along the width direction; a guide rail is connected between two groups of adjacent supporting components; the guide rail is connected with a crown block in a sliding way, and the crown block is used for adjusting the relative position of the batch large-scale workpieces and the ground at high altitude; a lifting component for adjusting the distance between the crown block and the ground is arranged between the remaining two groups of adjacent supporting components; the lifting assembly is connected with a first locking assembly used for fixing the relative position between the crown block and the lifting assembly; and the lifting component is connected with a second locking component used for fixing the relative position between the lifting component and the guide rail.

Through adopting above-mentioned technical scheme, be connected large-scale work piece and bear the frame during the use, use the land car to bear frame and large-scale work piece and load after the completion of connecting, adjust the relative position between overhead traveling crane and the guide rail this moment, use the relative position between first locking subassembly fixed overhead traveling crane and the lifting unit, guarantee overhead traveling crane and lifting unit and be connected, when bearing the frame and being located the overhead traveling crane under, realize the lift to large-scale work piece under lifting unit's effect, after the lift is accomplished, use the relative position between second locking subassembly fixed lifting unit and the guide rail, the overhead traveling crane drives large-scale work piece and removes this moment, the transfer to large-scale work piece has been accomplished, the batch transfer to large-scale work piece has been realized, and then reached the effect that improves large-scale work piece spraying efficiency.

Optionally, the ground vehicle comprises a connecting frame, two groups of supporting frames, rollers and limiting frames, wherein the two groups of supporting frames are vertically and fixedly connected to the upper surface of the connecting frame, and the supporting frames are respectively positioned at two ends of the connecting frame in the length direction; the number of the rollers is multiple, and the rollers are fixedly connected to the lower surface of the connecting frame; spacing frame fixed connection has the multiunit at the support frame upper surface, and distributes along the length direction of support frame.

Through adopting above-mentioned technical scheme, guarantee that large-scale work piece is located between two sets of support frames during the use, promote the support frame this moment, realize shifting the below of lifting unit with large-scale work piece in batches under the effect of gyro wheel, and then the staff of being convenient for shifts large-scale work piece in batches, when having reached the use of making things convenient for the staff, improved the spraying efficiency of large-scale work piece.

Optionally, the bearing frame comprises a bearing rod, a reinforcing beam, hanging plates and a connecting rod, the bearing rod is of a rectangular columnar structure, the hanging plates are fixedly connected to the upper surface of the bearing rod, and the two hanging plates form a group; a group of hanging plates are respectively arranged at two ends of the bearing rod; the reinforcing beam is fixedly connected to the upper surface of the bearing rod and is positioned between the two groups of hanging plates; the connecting rod penetrates through the two hanging plates in the same group, and the connecting rod is vertically and fixedly connected with the hanging plates; the bearing rod is inserted in the limiting frame.

By adopting the technical scheme, when the large workpiece is connected with the ground vehicle by using the bearing, the large workpiece is firstly connected with the bearing rod, and after the connection is finished, the bearing rod is inserted into the limiting frame, so that the connection of the large workpiece and the ground vehicle is finished; the stability of carrier bar after the bearing has been guaranteed in the setting of reinforcing beam.

Optionally, the supporting component comprises two upright columns and two cross beams, and the cross beams are vertically and fixedly connected to two side walls close to the top ends of the two upright columns.

Through adopting above-mentioned technical scheme, the setting up of stand provides the space that rises for the promotion of large-scale work piece, and the setting up of crossbeam has guaranteed the connection stability between the stand, and the setting up of crossbeam has guaranteed that large-scale work piece is located between the coexistence post all the time, and structural stability is high when having guaranteed to hang and rise large-scale work piece simultaneously.

Optionally, the lifting assembly comprises a lifting frame and a lifting slide rail; the lifting frame is positioned between the two upright posts on the same side of the two groups of supporting components, and slides along the height direction of the upright posts; the lifting slide rail is fixedly connected with the lifting frame, and when the lifting frame is positioned at the top end of the upright post, the lifting slide rail is communicated with the guide rail; a power component for adjusting the relative position between the lifting frame and the upright post is arranged between the lifting frame and the upright post.

Through adopting above-mentioned technical scheme, when using lifting unit to hoist large-scale work piece, at first guarantee that the overhead traveling crane is located the lift slide rail, first locking unit has accomplished the fixed to relative position between lift slide rail and the overhead traveling crane simultaneously, and the overhead traveling crane is connected with bearing the frame this moment, under power component's effect, has realized the lift to large-scale work piece.

Optionally, the power assembly comprises a mounting plate, a rotating motor, a driving sprocket, a rotating shaft, a driven sprocket, a driving chain, a guide shaft, a balancing weight, a transmission sprocket and a transmission chain; the mounting plate is vertically and fixedly connected between two vertical columns of two groups of adjacent supporting assemblies; the mounting plate is positioned above the lifting frame; the rotating motor is fixedly connected to the upper surface of the mounting plate; the driving chain wheel is coaxially and fixedly connected with an output shaft of the rotating motor; the rotating shaft is rotatably connected to the upper surface of the mounting plate, and the rotating axis of the rotating shaft is parallel to the output shaft of the rotating motor; the driven chain wheel is coaxially and fixedly connected with the rotating shaft; the driving chain is meshed with the driving chain wheel and the driven chain wheel; the guide shaft is rotationally connected to the upper surface of the upright post, and the rotation axis of the guide shaft is parallel to that of the rotating shaft; the transmission chain wheel is coaxially and fixedly connected with the rotating shaft; the upper surface of the mounting plate is provided with a through hole; one end of the transmission chain is fixedly connected with the lifting frame, the remaining end of the transmission chain penetrates through the through hole to be meshed with the transmission chain wheel and is fixedly connected with the balancing weight, and the transmission chain is abutted against the top end of the circumferential outer wall of the guide shaft.

By adopting the technical scheme, when the power assembly is used for adjusting the relative position between the lifting frame and the upright post, the rotating motor is started, the output shaft of the rotating motor drives the driving chain wheel to rotate, the driven chain wheel rotates under the action of the driving chain, meanwhile, the rotating shaft rotates and drives the transmission chain wheel to rotate, and the lifting frame is lifted under the action of the transmission chain; the arrangement of the balancing weight ensures that the transmission chain is always in a tight state, and the transmission chain can be always meshed with the transmission chain wheel; meanwhile, due to the arrangement of the guide shaft, the abrasion to a transmission chain is reduced, and the use stability of the power assembly is ensured; and then realized the lift to large-scale work piece, reached and reduced staff's work load, improved work efficiency's effect.

Optionally, the upright columns of the two groups of support assemblies fixedly connected with the lifting assembly are both fixed with bearing beams, and the bearing beams extend from the side where the two upright columns are close to each other to the side where the two upright columns are away from each other; the guide rail is fixedly connected to the lower surface of the bearing beam.

Through adopting above-mentioned technical scheme, the setting up of spandrel girder has improved the stability between the adjacent stand, simultaneously because guide rail fixed connection is at the spandrel girder lower surface, the setting up of spandrel girder has improved the anti ability of buckling of guide rail under the bearing condition this moment, has guaranteed the stability in use of guide rail.

Optionally, the second locking assembly comprises a limiting cylinder, a clamping sleeve, a clamping plate, a connecting plate and an adjusting hydraulic cylinder; the limiting cylinder is fixedly connected with the lifting frame, and the length direction of the limiting cylinder is the same as the length direction of the bearing beam; the clamping sleeve is fixedly connected to one end, close to each other, of the bearing beam; the clamping plate is inserted in the limiting cylinder in a sliding manner and slides along the length direction of the limiting cylinder; the adjusting hydraulic cylinder is fixedly connected to one side of the limiting cylinder, which is far away from the lifting frame; the connecting plate is fixedly connected with the clamping plate and the piston rods of the adjusting hydraulic cylinders, and the piston rods of the two adjusting hydraulic cylinders are positioned at one sides close to each other; and the clamping plate is inserted in the clamping sleeve in a sliding manner.

Through adopting above-mentioned technical scheme, when using the fixed relative position between lift slide rail of second locking Assembly and the guide rail, start adjusting hydraulic cylinder, adjusting hydraulic cylinder's piston rod drives the cardboard and slides along the length direction of a spacing section of thick bamboo in a spacing section of thick bamboo, and one end that even board was kept away from to the cardboard is pegged graft in the joint cover, has accomplished the fixed to relative position between lift slide rail and the guide rail promptly.

Optionally, the crown block comprises a pulley, a bearing plate, an adjusting plate, a hook, a return spring and a return rod; the plurality of pulleys are arranged and inserted in the lifting slide rail in a sliding manner, and the pulleys are fixedly connected with the upper surface of the bearing plate; the adjusting plates are distributed along the width direction of the bearing plate and are fixedly connected to the lower surface of the bearing plate; each adjusting plate is rotatably connected with two hooks which are respectively positioned on two symmetrical side walls of the adjusting plate; the reset rod is fixedly connected with the two hooks, one end of the reset spring is fixedly connected with the reset rod, and the other end of the reset spring is fixedly connected with the adjusting plate; the upper surface of the bearing plate is fixedly connected with a limiting plate.

By adopting the technical scheme, when the overhead traveling crane is used for adjusting the relative position between the large-sized workpiece and the ground at high altitude, only the relative position between the bearing plate and the guide rail needs to be adjusted, at the moment, the pulley and the guide rail slide relatively, and when the pulley is positioned in the lifting slide rail, the first locking component is used for fixing the relative position between the lifting slide rail and the overhead traveling crane; bearing plate and couple downstream under lifting unit's effect this moment, when couple and connecting rod butt, at the couple under the guide effect, the couple at bearing plate length direction both ends to the lopsidedness that deviates from each other, when the couple is hung at connecting rod length direction both ends, under the effect of reset spring and release link, realized the overhead traveling crane and born being connected of frame, and then accomplished being connected of overhead traveling crane and large-scale work piece, reached the effect that makes things convenient for the staff to use.

Optionally, the first locking assembly comprises a locking cylinder, a locking plate, a locking hydraulic cylinder and a bearing plate; a locking section of thick bamboo and crane fixed connection, the locking plate slides and pegs graft in a locking section of thick bamboo, and locking pneumatic cylinder fixed connection accepts piston rod and the locking plate of board fixed connection locking pneumatic cylinder at a locking section of thick bamboo upper surface, and the one end that the board was accepted in keeping away from to the locking plate is pegged graft in the limiting plate.

By adopting the technical scheme, when the first locking component is used for fixing the relative position between the crown block and the lifting component, the locking hydraulic cylinder is started and is matched with the bearing plate for use, so that the relative position between the locking plate and the locking barrel is adjusted until the locking plate is inserted into the limiting plate, and the locking component is used; the locking assembly ensures the connection stability between the large-sized workpiece and the crown block.

In summary, the present application includes at least one of the following beneficial technical effects:

1. due to the arrangement of the ground vehicle and the bearing frame, workers can transfer large-sized workpieces on the ground conveniently, the working efficiency of workers is improved, and the effect of improving the spraying efficiency of the large-sized workpieces is further achieved;

2. the arrangement of the supporting component, the lifting component, the first locking component and the second locking component can facilitate the lifting of a large-sized workpiece by a worker, so that the worker can spray the large-sized workpiece conveniently;

3. the crown block is matched with the guide rail for use, so that workers can transfer large-sized workpieces at high altitude conveniently, and the effect of improving the spraying efficiency of the large-sized workpieces is achieved.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a partial schematic part view showing the lift assembly;

FIG. 3 is a part view showing the ground vehicle;

FIG. 4 is a partial detail view showing a second locking assembly;

FIG. 5 is a schematic view of a portion of the components showing the overhead crane;

FIG. 6 is a schematic view of a portion of the components showing a retainer plate;

fig. 7 is a partial part schematic view showing the first locking assembly.

Description of reference numerals: 1. carrying out ground vehicle; 11. a connecting frame; 12. a support frame; 13. a roller; 14. a limiting frame;

2. a carrier; 21. a carrier bar; 22. reinforcing the beam; 23. hanging the plate; 24. a connecting rod;

3. a support assembly; 31. a column; 32. a cross beam;

4. a guide rail;

5. a crown block; 51. a pulley; 52. a carrier plate; 521. a limiting plate; 53. an adjusting plate; 54. hooking; 55. a return spring; 56. a reset lever;

6. a lifting assembly; 61. a lifting frame; 62. lifting the slide rail;

7. a second locking assembly; 71. a limiting cylinder; 72. a clamping sleeve; 73. clamping a plate; 74. connecting plates; 75. adjusting a hydraulic cylinder;

8. a first locking assembly; 81. a locking cylinder; 82. a locking plate; 83. locking a hydraulic cylinder; 84. a bearing plate;

9. a power assembly; 91. mounting a plate; 911. a through hole; 92. rotating the motor; 93. a drive sprocket; 94. a rotating shaft; 95. a driven sprocket; 96. a drive chain; 97. a guide shaft; 98. a balancing weight; 99. a drive sprocket; 910. a drive chain;

10. a load-bearing beam.

Detailed Description

The present application is described in further detail below with reference to figures 1-7.

The embodiment of the application discloses orbital loading attachment is used in work piece application.

Referring to fig. 1 and 2, a loading device of a rail for coating workpieces comprises a ground vehicle 1 for loading large workpieces on the ground in batches, wherein a bearing frame 2 for connecting the ground vehicle 1 and the large workpieces is arranged between the ground vehicle 1 and the large workpieces; the ground is fixedly connected with three groups of supporting components 3, and the three groups of supporting components 3 are sequentially arranged along the width direction; a guide rail 4 is fixedly connected between two groups of adjacent components, the guide rail 4 is connected with a crown block 5 in a sliding manner, the crown block 5 is used for adjusting batch large-scale workpieces at high altitude, and the sliding direction of the crown block 5 is the length direction of the guide rail 4; a lifting component 6 for adjusting the relative position between the crown block 5 and the ground is arranged between the remaining two groups of adjacent supporting components 3; the lifting component 6 is connected with a power component 9 for providing power for the lifting component; the lifting component 6 is connected with a first locking component 8 for fixing the relative position between the crown block 5 and the lifting component 6, and the lifting component 6 is connected with a second locking component 7 for fixing the relative position between the lifting component 6 and the guide rail 4.

Referring to fig. 1 and 2, when a large workpiece is hoisted, the large workpiece is firstly connected with a ground vehicle 1 by using a bearing frame 2, after the connection is completed, the relative positions of a crown block 5 and a lifting assembly 6 are adjusted, and at the moment, the relative positions of the crown block 5 and the lifting assembly 6 are fixed by using a first locking assembly 8; under the action of the power assembly 9, the lifting assembly 6 slides along the height direction of the supporting assembly 3 to realize the connection of the bearing frame 2 and the crown block 5, at the moment, the power assembly 9 drives the lifting assembly 6 to ascend, so that the lifting of the large-sized workpiece is completed, and at the moment, the transfer of the large-sized workpiece in the high altitude is completed under the matching of the guide rail 4 and the crown block 5; the use of staff is reduced, the batch transfer of large-sized workpieces can be realized, and the effect of improving the spraying efficiency of the large-sized workpieces is achieved.

Referring to fig. 1 and 3, the ground vehicle 1 includes a connecting frame 11, a supporting frame 12, a roller 13 and a limit frame 14; two groups of supporting frames 12 are arranged; the two groups of support frames 12 are vertically and fixedly connected to the upper surface of the connecting frame 11, and the support frames 12 are respectively positioned at two ends of the connecting frame 11 in the length direction; a plurality of rollers 13 are arranged, and the rollers 13 are fixedly connected with the lower surface of the connecting frame 11; the limiting frames 14 are fixedly connected to the upper surface of the support frame 12, and a plurality of groups of the limiting frames 14 are distributed along the length direction of the support frame 12; the limiting frame 14 is gradually flared from the bottom end to the top end; the bearing frame 2 comprises a bearing rod 21, a reinforcing beam 22, a hanging plate 23 and a connecting rod 24; the carrier bar 21 is a rectangular columnar structure, the reinforcing beam 22 is fixedly connected to the upper surface of the carrier bar 21, and the length direction of the reinforcing beam 22 is the same as that of the carrier bar 21; the hanging plates 23 are fixedly connected to the upper surface of the bearing rod 21, the two hanging plates 23 form a group, and each bearing rod 21 is fixedly connected with two groups of hanging plates 23; the two groups of hanging plates 23 are respectively positioned at two ends of the reinforcing beam 22 in the length direction; the connecting rod 24 penetrates through the two hanging plates 23 in the same group and is vertically and fixedly connected with the hanging plates 23; the bearing rod 21 is inserted in the limit frame 14.

Referring to fig. 1 and 3, when in use, the large-sized workpiece is connected with the bearing rod 21, the bearing rod 21 is inserted into the limiting frame 14 after the connection is completed, the ground vehicle 1 and the bearing frame 2 are matched for use, so that the large-sized workpiece can be transferred in batches by a worker conveniently, and the effect of improving the spraying efficiency is achieved.

Referring to fig. 1 and 2, the support assembly 3 includes a column 31 and a beam 32, the column 31 being provided in two; the beam 32 is vertically and fixedly connected with two side walls close to each other at the top ends of the two upright posts 31; the lifting assembly 6 comprises a lifting frame 61 and a lifting slide rail 62; the lifting frame 61 is positioned between the two upright posts 31, and the lifting frame 61 slides along the height direction of the upright posts 31; the lifting slide rail 62 is fixedly connected with the lifting frame 61; when the lifting frame 61 is positioned at the top end of the upright post 31, the lifting slide rail 62 is communicated with the guide rail 4; the power assembly 9 is located between the lifting frame 61 and the upright column 31, and the power assembly 9 drives the lifting frame 61 to slide along the height direction of the upright column 31.

Referring to fig. 1 and 2, the power assembly 9 includes a mounting plate 91, a rotating motor 92, a driving sprocket 93, a rotating shaft 94, a driven sprocket 95, a driving chain 96, a guide shaft 97, a weight block 98, a driving sprocket 99, and a driving chain 910; the mounting plate 91 is vertically and fixedly connected between the two upright posts 31 of two adjacent support assemblies 3, and the mounting plate 91 is positioned above the lifting frame 61; the rotating motor 92 is fixedly connected to the upper surface of the mounting plate 91; the upper surface of the mounting plate 91 is provided with a through hole 911; the driving sprocket 93 is coaxially and fixedly connected with an output shaft of the rotating motor 92; the rotating shaft 94 is rotatably connected to the upper surface of the mounting plate 91, and the rotating axis of the rotating shaft 94 is parallel to the output shaft of the rotating motor 92; the driven chain wheel 95 and the transmission chain wheel 99 are coaxially and fixedly connected with the rotating shaft 94; the driving chain 96 is meshed with the driving chain wheel 93 and the driven chain wheel 95; the guide shaft 97 is rotatably connected to the upper surface of the upright column 31, and the rotation axis of the guide shaft 97 is parallel to the rotation axis of the rotating shaft 94; one end of the transmission chain 910 is fixedly connected with the lifting frame 61; the remaining end of the transmission chain 910 passes through the through hole 911 to be meshed with the transmission chain wheel 99; one end of the transmission chain 910, which is far away from the lifting frame 61, is fixedly connected with the balancing weight 98; and the drive chain 910 abuts on the top end of the circumferential side wall of the guide shaft 97.

Referring to fig. 1 and 2, when the lifting assembly 6 is used for lifting a large workpiece, the rotating motor 92 is started, the output shaft of the rotating motor 92 drives the driving chain wheel 93 to rotate, the driving chain wheel 96 is used for transmission, and the driven chain wheel 95 is used for matching, so that the rotation of the rotating shaft 94 is realized, the balancing weight 98 tensions the transmission chain 910, the transmission chain wheel 99 is meshed with the transmission chain 910, so that the relative position between the lifting frame 61 and the upright column 31 is adjusted, the lifting of the large workpiece is realized under the matching action of the crown block 5, the large workpiece is lifted by a worker conveniently, and the effect of improving the spraying efficiency of the large workpiece is further achieved.

Referring to fig. 1 and 4, the two columns 31 of the two sets of supporting assemblies 3 connected with the lifting assembly 6 are both fixed with a bearing beam 10, the bearing beam 10 extends from one side of the two columns 31 close to each other to one side of the two columns 31 away from each other, and the bearing beam 10 is fixedly connected with the supporting assemblies 3; the guide rail 4 is fixedly connected to the lower surface of the bearing beam 10, and the length of the guide rail 4 is the same as that of the bearing beam 10.

Referring to fig. 1 and 4, the second locking assembly 7 comprises a limiting cylinder 71, a clamping sleeve 72, a clamping plate 73, a connecting plate 74 and an adjusting hydraulic cylinder 75, wherein the limiting cylinder 71 is fixedly connected with the lifting frame 61, and the length direction of the limiting cylinder 71 is the same as that of the bearing beam 10; the length direction of the limiting cylinder 71 is the same as that of the bearing beam 10; the clamping sleeve 72 is fixedly connected to one end of the bearing beam 10 close to each other; the clamping plate 73 is inserted in the limiting cylinder 71 in a sliding manner and slides along the length direction of the limiting cylinder 71; the adjusting hydraulic cylinder 75 is fixedly connected to one side of the limiting cylinder 71, which is far away from the lifting frame 61, and the connecting plate 74 is fixedly connected with the clamping plate 73 and a piston rod of the adjusting hydraulic cylinder 75; and the piston rods of the two adjusting hydraulic cylinders 75 are positioned at the sides close to each other; the catch plate 73 is slidably inserted into the catch sleeve 72.

Referring to fig. 2 and 4, under the action of the power assembly 9, when the lifting slide rail 62 is communicated with the guide rail 4, the adjusting hydraulic cylinder 75 is started to drive the clamping plate 73 to move to one side close to the clamping sleeve 72, at this time, the clamping plate 73 is inserted into the clamping sleeve 72, and meanwhile, the clamping plate 73 is inserted into the limiting barrel 71, so that the relative position between the lifting slide rail 62 and the guide rail 4 is fixed, and the use stability of the whole device is further ensured.

Referring to fig. 1 and 5, the crown block 5 includes a plurality of pulleys 51, a bearing plate 52, an adjusting plate 53, a hook 54, a return spring 55 and a return rod 56, the pulleys 51 are slidably inserted into a lifting slide rail 62, and when the lifting slide rail 62 is communicated with the guide rail 4, the pulleys 51 are slidably inserted into the guide rail 4; the pulley 51 is fixedly connected with the upper surface of the bearing plate 52, a plurality of adjusting plates 53 are arranged, and the adjusting plates 53 are fixedly connected with the lower surface of the bearing plate 52; and the adjusting plates 53 are distributed along the width direction of the carrier plate 52; the distance between the adjusting plates 53 is the same as the distance between the limiting frames 14; each adjusting plate 53 is rotatably connected with two hooks 54, the hooks 54 are respectively positioned at two symmetrical sides of the adjusting plate 53, a reset rod 56 is fixedly connected with the two hooks 54, one end of a reset spring 55 is fixedly connected with the reset rod 56, and the other end of the reset spring 55 is fixedly connected with the adjusting plate 53; the hooks 54 are hooked on both ends of the link 24 in the longitudinal direction.

Referring to fig. 1 and 6, a position limiting plate 521 is fixedly connected to the upper surface of the bearing plate 52.

Referring to fig. 2 and 7, the first locking assembly 8 includes a locking cylinder 81, a locking plate 82, a locking hydraulic cylinder 83 and a bearing plate 84, the locking cylinder 81 is fixedly connected with the lifting frame 61, the locking plate 82 is slidably inserted into the locking cylinder 81, the locking hydraulic cylinder 83 is fixedly connected to the upper surface of the locking cylinder 81, the bearing plate 52 is fixedly connected with the piston rod of the locking hydraulic cylinder 83 and the locking plate 82, when the first locking component 8 is used for fixing the relative position between the crown block 5 and the lifting component 6, the locking hydraulic cylinder 83 is started, the locking hydraulic cylinder 83 drives the locking plate 82 to slide towards one side close to the limiting plate 521, at the moment, the locking plate 82 is inserted into the limiting plate 521, meanwhile, the locking plate 82 is always positioned in the locking cylinder 81, because the locking cylinder 81 is fixedly connected with the lifting frame 61, and the limiting plate 521 is fixedly connected with the crown block 5, the relative position between the crown block 5 and the lifting assembly 6 is fixed; the stability of whole loading attachment use has been guaranteed.

The implementation principle of the feeding device of the track for coating the workpiece is as follows: the ground vehicle 1 and the bearing frame 2 are matched for use, so that large workpieces can be transferred on the ground in batches, the lifting assembly 6, the power assembly 9 and the crown block 5 are matched for use, so that the large workpieces are lifted, and the effect of adjusting the relative position between the large workpieces and the ground at high altitude is realized under the matching action of the guide rail 4 and the supporting assembly 3; meanwhile, the first locking component 8 and the second locking component 7 are matched for use, so that the use stability of the whole feeding device is improved; the large-sized workpiece is hoisted, so that the workload of workers is reduced, batch transfer and hoisting can be realized, and the effect of improving the spraying efficiency of the large-sized workpiece is achieved.

The embodiments of the present invention are preferred embodiments of the present application, and the scope of protection of the present application is not limited by the embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (10)

1. The utility model provides a work piece is orbital loading attachment for application which characterized in that: comprises a ground vehicle (1) for loading large workpieces on the ground in batch; a bearing frame (2) used for connecting the ground vehicle (1) and the large workpiece is arranged between the ground vehicle (1) and the large workpiece; the ground is fixedly connected with a supporting component (3); three groups of supporting components (3) are arranged, and the supporting components (3) are sequentially arranged along the width direction of the supporting components; a guide rail (4) is connected between two groups of adjacent supporting components (3); the guide rail (4) is connected with a crown block (5) in a sliding way, which is used for adjusting the relative position of the batch large-scale workpieces and the ground at high altitude; a lifting component (6) used for adjusting the distance between the crown block (5) and the ground is arranged between the remaining two groups of adjacent supporting components (3); the lifting component (6) is connected with a first locking component (8) which is used for fixing the relative position between the crown block (5) and the lifting component (6); and the lifting component (6) is connected with a second locking component (7) which is used for fixing the relative position between the lifting component (6) and the guide rail (4).

2. The loading device of a rail for coating a workpiece according to claim 1, characterized in that: the ground vehicle (1) comprises a connecting frame (11), two groups of supporting frames (12), rollers (13) and a limiting frame (14), wherein the two groups of supporting frames (12) are vertically and fixedly connected to the upper surface of the connecting frame (11), and the supporting frames (12) are respectively positioned at two ends of the connecting frame (11) in the length direction; a plurality of rollers (13) are arranged, and the rollers (13) are fixedly connected to the lower surface of the connecting frame (11); the limiting frames (14) are fixedly connected to the upper surface of the support frame (12), and a plurality of groups of limiting frames are distributed along the length direction of the support frame (12).

3. The loading device of a rail for coating a workpiece according to claim 2, characterized in that: the bearing frame (2) comprises a bearing rod (21), a reinforcing beam (22), hanging plates (23) and connecting rods (24), the bearing rod (21) is of a rectangular columnar structure, the hanging plates (23) are fixedly connected to the upper surface of the bearing rod (21), and the two hanging plates (23) form a group; a group of hanging plates (23) are respectively arranged at two ends of the bearing rod (21); the reinforcing beam (22) is fixedly connected to the upper surface of the bearing rod (21), and the reinforcing beam (22) is positioned between the two groups of hanging plates (23); the connecting rod (24) penetrates through the two hanging plates (23) in the same group, and the connecting rod (24) is vertically and fixedly connected with the hanging plates (23); the bearing rod (21) is inserted in the limit frame (14).

4. The loading device of a rail for coating a workpiece according to claim 1, characterized in that: the supporting component (3) comprises two upright columns (31) and two cross beams (32), wherein the two upright columns (31) are vertically and fixedly connected to two side walls close to the top ends of the two upright columns (31) through the cross beams (32).

5. The loading device of a rail for coating a workpiece according to claim 4, wherein: the lifting assembly (6) comprises a lifting frame (61) and a lifting slide rail (62); the lifting frame (61) is positioned between the two upright posts (31) on the same side of the two groups of supporting components (3), and the lifting frame (61) slides along the height direction of the upright posts (31); the lifting slide rail (62) is fixedly connected with the lifting frame (61), and when the lifting frame (61) is positioned at the top end of the upright post (31), the lifting slide rail (62) is communicated with the guide rail (4); a power assembly (9) for adjusting the relative position between the lifting frame (61) and the upright post (31) is arranged between the lifting frame (61) and the upright post (31).

6. The loading device of a rail for coating a workpiece according to claim 5, wherein: the power assembly (9) comprises a mounting plate (91), a rotating motor (92), a driving chain wheel (93), a rotating shaft (94), a driven chain wheel (95), a driving chain (96), a guide shaft (97), a balancing weight (98), a transmission chain wheel (99) and a transmission chain (910); the mounting plate (91) is vertically and fixedly connected between two vertical columns (31) of two groups of adjacent supporting assemblies (3); the mounting plate (91) is positioned above the lifting frame (61); the rotating motor (92) is fixedly connected to the upper surface of the mounting plate (91); the driving chain wheel (93) is coaxially and fixedly connected with an output shaft of the rotating motor (92); the rotating shaft (94) is rotatably connected to the upper surface of the mounting plate (91), and the rotating axis of the rotating shaft (94) is parallel to the output shaft of the rotating motor (92); the driven chain wheel (95) is coaxially and fixedly connected with the rotating shaft (94); the driving chain (96) is meshed with the driving chain wheel (93) and the driven chain wheel (95); the guide shaft (97) is rotatably connected to the upper surface of the upright post (31), and the rotating axis of the guide shaft (97) is parallel to the rotating axis of the rotating shaft (94); the transmission chain wheel (99) is coaxially and fixedly connected with the rotating shaft (94); the upper surface of the mounting plate (91) is provided with a through hole (911); one end of the transmission chain (910) is fixedly connected with the lifting frame (61), the remaining end of the transmission chain (910) penetrates through the through hole (911) to be meshed with the transmission chain wheel (99) and fixedly connected with the balancing weight (98), and the transmission chain (910) is abutted against the top end of the circumferential outer wall of the guide shaft (97).

7. The loading device of a rail for coating a workpiece according to claim 5, wherein: the bearing beams (10) are fixed on the upright columns (31) of the two groups of supporting assemblies (3) fixedly connected with the lifting assemblies (6), and the bearing beams (10) extend from one side, close to each other, of the two upright columns (31) to one side, away from each other, of the two upright columns (31); the guide rail (4) is fixedly connected to the lower surface of the bearing beam (10).

8. The loading device of a rail for coating a workpiece according to claim 7, wherein: the second locking assembly (7) comprises a limiting cylinder (71), a clamping sleeve (72), a clamping plate (73), a connecting plate (74) and a regulating hydraulic cylinder (75); the limiting cylinder (71) is fixedly connected with the lifting frame (61), and the length direction of the limiting cylinder (71) is the same as that of the bearing beam (10); the clamping sleeve (72) is fixedly connected to one end, close to each other, of the bearing beam (10); the clamping plate (73) is inserted in the limiting cylinder (71) in a sliding manner and slides along the length direction of the limiting cylinder (71); the adjusting hydraulic cylinder (75) is fixedly connected to one side of the limiting cylinder (71) far away from the lifting frame (61); the connecting plate (74) is fixedly connected with the clamping plate (73) and piston rods of the adjusting hydraulic cylinders (75), and the piston rods of the two adjusting hydraulic cylinders (75) are positioned on one sides close to each other; and the clamping plate (73) is inserted in the clamping sleeve (72) in a sliding manner.

9. The loading device of a rail for coating a workpiece according to claim 5, wherein: the overhead travelling crane (5) comprises a pulley (51), a bearing plate (52), an adjusting plate (53), a hook (54), a return spring (55) and a return rod (56); a plurality of pulleys (51) are arranged, the pulleys (51) are inserted into the lifting slide rail (62) in a sliding manner, and the pulleys (51) are fixedly connected with the upper surface of the bearing plate (52); the adjusting plates (53) are arranged in a plurality, the adjusting plates (53) are distributed along the width direction of the bearing plate (52), and the adjusting plates (53) are fixedly connected to the lower surface of the bearing plate (52); each adjusting plate (53) is rotatably connected with two hooks (54), and the hooks (54) are respectively positioned on two symmetrical side walls of the adjusting plate (53); the reset rod (56) is fixedly connected with the two hooks (54), one end of the reset spring (55) is fixedly connected with the reset rod (56), and the other end of the reset spring is fixedly connected with the adjusting plate (53); the upper surface of the bearing plate (52) is fixedly connected with a limiting plate (521).

10. The loading device of a rail for coating a workpiece according to claim 9, characterized in that: the first locking assembly (8) comprises a locking barrel (81), a locking plate (82), a locking hydraulic cylinder (83) and a bearing plate (84); locking cylinder (81) and crane (61) fixed connection, locking plate (82) slide and peg graft in locking cylinder (81), locking hydraulic cylinder (83) fixed connection is on locking cylinder (81) upper surface, accepts piston rod and locking plate (82) of board (84) fixed connection locking hydraulic cylinder (83), and the one end that accepting board (84) are kept away from in limiting plate (521) to locking plate (82).

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