CN211253968U

CN211253968U - Automatic warehouse of transplanting of copper bar

Info

Publication number: CN211253968U
Application number: CN201922251764.9U
Authority: CN
Inventors: 赵刚
Original assignee: Hangzhou Yan Zhuo Intelligent Technology Co ltd
Current assignee: Hangzhou Yan Zhuo Intelligent Technology Co ltd
Priority date: 2019-12-16
Filing date: 2019-12-16
Publication date: 2020-08-14
Anticipated expiration: 2029-12-16

Abstract

The utility model relates to an automatic warehouse of transplanting of copper bar for put in storage, the processing of leaving warehouse to the copper bar work piece, it pushes away material platform including the material loading to transplant the warehouse, cylinder transfer chain, truss manipulator and copper bar storehouse position, material loading pushes away the material platform and is located the material loading end of truss manipulator, and material loading pushes away the bottom frame of material platform and is fixed subaerial through expansion bolts with ground, and the cylinder transfer chain is located the material loading end of truss manipulator for carry out the location operation to the copper bar work piece, truss manipulator include that the stand supports the steel construction cross axle that gets up and be located the cross epaxial mechanism and the moving mechanism that snatchs, be used for accomplishing the warehouse entry and the operation of leaving warehouse to the work piece, copper bar storehouse position is under the truss manipulator for save the copper. This automatic transplanting warehouse can snatch to the copper bar of different specifications, and the compatibility is excellent, can classify according to the product of different specifications and put in storage, the warehouse-out.

Description

Automatic warehouse of transplanting of copper bar

Technical Field

The utility model relates to an intelligence warehouse field, in particular to warehouse is transplanted in automation of semi-manufactured goods copper bar panel of electric power industry.

Background

At present, the warehouse of the copper bar plates in the electric power industry relies on manual work and forklift feeding and discharging, the counting, the classification, the stacking and the ex-warehouse management, the counting of the quantity of the inventory, the management of the space of the to-be-warehoused specification and the existing warehouse and the like, all rely on manual management, the labor and time are greatly wasted in the transportation of the copper bar plates in and out of the warehouse, the management of the copper bar plates in and out of the warehouse in time is disordered, a clearer solution is provided, the difficulty in managing the space of the warehouse is greatly solved, the production efficiency is effectively ensured, and the production cost is reduced; copper bar panel discrepancy storehouse operation space needs to give out artifical transport space at present, and is great to storage area and space ratio, and extravagant space is more, and the transport is also very inconvenient, and the pile up neatly is put and also has the defect in management, is unfavorable for reasonable overall management, and the degree of difficulty of putting out the warehouse entry is great, transfers the data difficulty, and is inefficient, is unfavorable for humanized management.

SUMMERY OF THE UTILITY MODEL

The utility model aims at storing the material in the copper bar production, keeping in, the problem that the ex-warehouse exists provides one kind and can snatch to the copper bar of different specifications, and compatible excellent can classify according to the product of different specifications and put in storage, and the warehouse is transplanted automatically to the copper bar of ex-warehouse.

The technical scheme of the utility model as follows: the utility model provides an automatic warehouse of transplanting of copper bar for put in storage, the processing of leaving warehouse to the copper bar work piece, transplant the warehouse and include that the material loading pushes away material platform, cylinder transfer chain, truss manipulator and copper bar storehouse position, the material loading pushes away the material platform and is located the material loading end of truss manipulator, and the material loading pushes away the bottom frame of material platform and passes through expansion bolts with ground and be connected and fix subaerial, and the cylinder transfer chain is located the material loading end of truss manipulator for carry out the location operation to the copper bar work piece, the truss manipulator includes that the stand supports the steel construction cross axle and be located the cross axle and snatch mechanism and moving mechanism, be used for accomplishing the warehouse entry and the operation of leaving warehouse to the work piece, copper bar storehouse position is under the truss manipulator.

As one of the preferable schemes, preferably, the feeding and pushing platform further comprises a moving feeding mechanism, the moving feeding mechanism is a moving trolley, rollers are arranged at the bottom of the moving trolley, a trolley guide rail and a trolley propulsion oil cylinder are arranged on the bottom rack, the moving trolley rollers are slidably connected with the trolley guide rail, and the trolley propulsion oil cylinder is in driving connection with the moving trolley.

As one of the preferable schemes, preferably, the feeding and pushing platform further comprises a workpiece limiting mechanism, the workpiece limiting mechanism comprises a fixed guide rod, a fixed rod seat, a movable pushing rod and a pushing bracket, the fixed guide rod is connected with the fixed rod seat through a bolt, and the fixed rod seat is fixed with the frame of the movable trolley through a bolt; the movable pushing rod is fixedly connected to the pushing support through a bolt, the pushing support is fixedly connected with the sliding block through threads, the sliding block is in sliding connection with the sliding rail, the sliding rail is fixedly connected to the frame of the movable trolley through a bolt, sliding rods are arranged on two sides of the sliding rail, the sliding rods are connected with the frame of the movable trolley through bolts, and the pushing oil cylinder is in driving connection with the pushing support.

As one of the preferable schemes, preferably, a trolley in-place sensor is arranged on the cross bar of the bottom rack, a sensor for detecting whether a copper bar exists or not is arranged on the fixed rod seat, and a copper bar in-place sensor is arranged on the cross bar of the frame of the movable trolley.

Preferably, the roller conveyor line comprises a roller and a frame, the roller is fixed on the frame through bolts, and the frame is provided with a sensor for sensing whether the workpiece exists or not.

As one preferable scheme, preferably, the upright of the truss manipulator is connected with the ground through a chemical bolt, the top of the upright is connected and fixed with the steel structure cross shaft through a bolt, two parallel linear guide rails are further arranged between the front steel structure cross shaft and the rear steel structure cross shaft, the guide rails at the upper parts of the cross shafts are connected and fixed on the cross shafts through bolts, the moving mechanism is arranged between the parallel linear guide rails, and the grabbing mechanism is fixed on the vertical shaft perpendicular to the linear guide rails through bolts.

As one of the preferable schemes, preferably, a sponge sucker at the bottom of a gripper of the grabbing mechanism is fixedly connected to a sucker connecting plate through a bolt, the sucker connecting plate is connected to a sucker guide rod through a bolt, the sucker guide rod is fixed with a guide rod adjusting nut through a thread, and the sucker guide rod is in sliding connection with the first shaft sleeve; the upper side of the first shaft sleeve is connected with a second shaft sleeve through a shaft sleeve connecting shaft, two ends of the shaft sleeve connecting shaft are fixed through bolts through shaft sleeve connecting plates, a first proximity switch and a second proximity switch are arranged on the shaft sleeve connecting shaft, a spring is further arranged below the first shaft sleeve, the tail end of the spring is provided with an in-place detection rod, and the first shaft sleeve and the second shaft sleeve are both fixed on a lifting shaft through bolt connection.

As one of the preferable schemes, preferably, the transfer mechanism comprises a lifting mechanism and a translation mechanism, a rack of the transfer mechanism is fixedly connected to a lifting shaft through a bolt, a side surface of the lifting shaft is connected to a vertical line guide rail through a bolt, and the vertical line guide rail is in sliding connection with a slide block fixed on a bottom plate of the lifting sports car; the lifting gear on the lifting sports car is meshed with the rack on the lifting shaft to lift transmission; the translational sports car bottom plate is connected with a sliding block through a bolt and connected with a linear guide rail connected with the transverse shaft through a bolt to slide; a translation gear at the bottom of the sports car is in meshing transmission with a translation rack on a transverse shaft through a bolt, the translation rack is fixedly connected on the linear guide through a bolt, the translation gear is connected with a translation transmission shaft through a flat key groove, and the bolt is fixed; the translation bearing block is fixed on a translation sports car bottom plate through a bolt; the other end of the translation transmission shaft is fixed with a translation coupler bolt to transmit power; the lifting transmission shaft is sleeved into a vertical bearing seat and is supported and fixed through a screw, and the vertical bearing seat is connected and fixed with a sports car bottom plate through a bolt; a speed reducing motor and a lifting servo motor are also arranged between the left coupler and the right coupler in the lifting mechanism, and the speed reducing motor and the translation servo motor are arranged between the left translation coupler and the right translation coupler in the translation mechanism.

As one of the preferred scheme, preferably, the copper bank position includes bearing piece and guide, and the bearing piece is bearing I shape section bar, and it is fixed in ground through bolted connection, and the guide is storehouse position pin, and storehouse position pin is through storehouse position pin fixing base bolt clamp fastening fixed, and storehouse position pin is multirow parallel arrangement on storehouse position pin fixing base, and storehouse position pin fixing base passes through bolted connection to be fixed on storehouse position pin aluminium alloy, and storehouse position pin aluminium alloy passes through the bolt fastening on bearing I shape section bar.

As one preferable scheme, the overall height of the copper bar storage position is preferably lower than the highest lifting height of the sponge suction cups at the bottoms of the truss manipulator grippers.

Compared with the prior art, the beneficial effects of the utility model are that: the automatic transplanting warehouse can grab copper bars with different specifications by utilizing the truss manipulator, has excellent compatibility, is classified and warehoused according to products with different specifications, is discharged from the warehouse, automatically counts the internal data and the actual quantity of the warehouse by a system, and is more rapid and accurate in manual data calling and convenient for warehouse material management; the rhythm of the warehouse-in and warehouse-out is obviously improved, the transportation time is shortened, and the accuracy of the warehouse-in and warehouse-out is accurate, the utility model discloses a compatible product specification length 4000-6000mm, width 50-125mm, thickness 5-12mm, kind 30-80 KG. The compatible specification of the copper bar bank can be adjusted correspondingly according to the specification type, the adjustment is convenient and fast, and the space is optimized reasonably; the warehouse entry and exit is simple, parameters are called, the warehouse entry and exit is intelligent, and the warehouse entry and exit accuracy is high. The space utilization rate is remarkably improved, unnecessary space waste is greatly reduced, and the space occupied by the conventional artificial goods shelf is greatly compressed, so that the utilization rate is improved; after the improvement, the warehouse entry and the warehouse exit can be carried out only by one person, and the operation cost is greatly improved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of the overall structure of the transplant warehouse of the present invention;

fig. 2 is a schematic view of the left side structure of the loading and pushing platform of the transplant warehouse of the present invention;

fig. 3 is a schematic diagram of the structure of the right side of the loading and pushing platform of the transplant warehouse;

fig. 4 is a schematic structural view of the copper bar storage space of the present invention;

fig. 5 is a schematic structural view of the truss manipulator of the present invention;

fig. 6 is a right side schematic view of the transfer mechanism of the present invention;

fig. 7 is a left side schematic view of the transfer mechanism of the present invention;

FIG. 8 is a partial enlarged view of the elevating mechanism of the present invention;

fig. 9 is a schematic structural view of the gripper portion of the gripping mechanism of the present invention;

fig. 10 is a schematic structural view of the roller conveyor line of the present invention;

wherein, 1, a material loading and pushing platform; 101. moving the trolley; 102. a roller; 103. a trolley guide rail; 104. a trolley propulsion oil cylinder; 105. fixing the guide rod; 106. a fixed rod seat; 107. moving the material pushing rod; 108. a material pushing bracket; 109. a slider; 110. a slide rail; 111. a slide bar; 112. a material pushing oil cylinder; 113. a cross bar; 114. a trolley in-place sensor; 115. the copper bar is provided with or not provided with a sensor; 116. a frame rail; 117. a copper bar in-place sensor; 2. a roller conveyor line; 201. a drum; 202. a frame; 3. a truss manipulator; 301. a column; 302. a horizontal axis; 303. a linear guide rail; 304. a vertical axis; 305. a sponge sucker; 306. a sucker connecting plate; 307. a suction cup guide bar; 308. a guide rod adjusting nut; 309. a first bushing; 310. the shaft sleeve is connected with the shaft; 311. a second shaft sleeve; 312. the shaft sleeve connecting plate; 313. a first proximity switch; 314. a second proximity switch; 315. a spring; 316. an in-place detection rod; 317. a lifting shaft; 318. a rack; 319. a vertical line guide rail; 320. lifting the sports car bottom plate; 321. a slider; 322. a lifting gear; 323. a lifting transmission shaft; 324. a bearing seat; 325. a lifting coupling; 326. a lifting gear motor; 327. a lifting servo motor; 328. a translational sports car bottom plate; 329. a slider; 330. a translation gear; 331. a translation rack; 332. a translation transmission shaft; 333. translating the bearing block; 334. a sports car floor; 335. a translation coupler; 336. a translation gear motor; 337. a translation servo motor; 4. a copper bar storage position; 401. a bearing member; 402. a guide member; 403. a storage position stop lever; 404. a storage position stop lever fixing seat; 405. a storehouse position stop lever aluminum profile; 5. a bottom chassis; 6. steel structure cross axle.

Detailed Description

The following description of the embodiments of the present invention is provided for illustrative purposes, and other advantages and effects of the present invention will be readily apparent to those skilled in the art from the disclosure herein.

As shown in fig. 1, an automatic copper bar transplanting warehouse is used for warehousing and ex-warehouse treatment of copper bar workpieces, the transplanting warehouse comprises a loading and pushing platform 1, a roller conveying line 2, a truss manipulator 3 and a copper bar warehouse position 4, the loading and pushing platform 1 is located at a loading end of the truss manipulator 3, a bottom rack 5 of the loading and pushing platform 1 is connected and fixed on the ground through expansion bolts, the roller conveying line 2 is located at a loading end of the truss manipulator 3 and used for positioning the copper bar workpieces, the truss manipulator 3 comprises a steel structure cross shaft 7 supported by an upright post 6 and a grabbing mechanism and a moving mechanism located on the cross shaft 7 and used for completing warehousing and ex-warehouse operation of the workpieces, and the copper bar warehouse position 4 is located under the truss manipulator 3 and used for storing the copper bar workpieces.

As shown in fig. 2 and 3, the feeding and pushing platform 1 further includes a moving feeding mechanism, the moving feeding mechanism is a moving trolley 101, the bottom of the moving trolley 101 is provided with a roller 102, the bottom frame 5 is provided with a trolley guide rail 103 and a trolley propulsion cylinder 104, the roller 102 of the moving trolley 101 is slidably connected with the trolley guide rail 103, and the trolley propulsion cylinder 104 is drivingly connected with the moving trolley 101. The workpiece limiting mechanism comprises a fixed guide rod 105, a fixed rod seat 106, a movable pushing rod 107 and a pushing support 108, the fixed guide rod 105 is connected with the fixed rod seat 106 through a bolt, and the fixed rod seat 106 and the frame of the movable trolley 102 are fixed through a bolt; the movable pushing rod 107 is fixedly connected to the pushing support 108 through a bolt, the pushing support 108 is fixedly connected to the sliding block 109 through a thread, the sliding block 109 is slidably connected to the sliding rail 110, the sliding rail 110 is fixedly connected to the frame of the movable trolley 102 through a bolt, sliding rods 111 are arranged on two sides of the sliding rail 110, the sliding rods 111 are connected to the frame of the movable trolley 102 through bolts, and the pushing oil cylinder 112 is in driving connection with the pushing support 108. A trolley in-place sensor 114 is arranged on a cross rod 113 of the bottom rack 5, a copper bar sensor 115 is arranged on the fixed rod seat 106, and a copper bar in-place sensor 117 is arranged on a cross rod 116 of the frame of the movable trolley 102.

As shown in fig. 4, the roller conveyor line 2 includes a roller 201 and a frame 202, the roller 201 is fixed to the frame 202 by bolts, and the frame 202 is provided with a sensor (not shown) for sensing the presence or absence of a workpiece.

As shown in fig. 5-9, the upright 301 of the truss manipulator 3 is connected to the ground through chemical bolts, the top of the upright 301 is connected and fixed to the horizontal shafts 302 of the steel structures through bolts, two parallel linear guide rails 303 are further arranged between the horizontal shafts 302 of the front and rear steel structures, the linear guide rails 303 on the upper portions of the horizontal shafts 302 are fixed to the horizontal shafts 302 through bolts, the moving mechanism is arranged between the parallel linear guide rails 303, and the grabbing mechanism is fixed to the vertical shafts 304 perpendicular to the linear guide rails 303 through bolts.

A sponge sucker 305 at the bottom of a gripper of the gripping mechanism is fixedly connected with a sucker connecting plate 306 through a bolt, the sucker connecting plate 306 is connected with a sucker guide rod 307 through a bolt, the sucker guide rod 307 is fixed with a guide rod adjusting nut 308 through a thread, and the sucker guide rod 307 is in sliding connection with a first shaft sleeve 309; the upper portion of the first shaft sleeve 309 is connected with a second shaft sleeve 311 through a shaft sleeve connecting shaft 310, two ends of the shaft sleeve connecting shaft 310 are fixed through bolts through shaft sleeve connecting plates 312, a first proximity switch 313 and a second proximity switch 314 are arranged on the shaft sleeve connecting shaft 310, the first proximity switch 313 is used for servo stop, the second proximity switch 314 is used for servo deceleration, a spring 315 is further arranged below the first shaft sleeve 309, the tail end of the spring 315 is provided with an in-place detection rod 316, and the first shaft sleeve 309 and the second shaft sleeve 311 are both fixed on a lifting shaft 317 through bolt connection.

The transfer mechanism comprises a lifting mechanism and a translation mechanism, a rack 318 of the lifting mechanism is fixedly connected on a lifting shaft 317 through a bolt, the side surface of the lifting shaft 317 is connected with a vertical line guide rail 319 through a bolt, and the vertical line guide rail 319 is in sliding connection with a slide block 321 fixed on a lifting sports car bottom plate 320; a lifting gear 322 on the lifting roadster is meshed with a rack 318 on a lifting shaft 317 to lift transmission; the lifting transmission shaft 323 is sleeved in the vertical bearing seat 324 and supported and fixed through a screw, the vertical bearing seat 324 is connected and fixed with the bottom plate of the sports car through a bolt, and the other end of the lifting transmission shaft 323 is fixed with the coupler 325 through a bolt to transmit power; a lifting gear motor 326 and a lifting servo motor 327 are provided between the left and right couplings 325 in the lifting mechanism.

In the translation mechanism, a translation sports car bottom plate 328 is connected with a slide block 329 through a bolt and slides in connection with a linear guide rail 303 connected with a cross shaft 302 through a bolt; the translation gear 330 at the bottom of the sports car is in meshed transmission with the linear guide rail 303 on the transverse shaft 302 through a translation rack 331 connected through a bolt, the translation rack 331 is fixedly connected on the linear guide rail 303 through a bolt, and the translation gear 330 and the translation transmission shaft 332 are connected through a flat key and a key slot and are fixed through a bolt; the translation bearing seat 333 is fixed on the bottom plate 334 of the sports car through bolts; the other end of the translation transmission shaft 332 is fixed with a coupling 335 through a bolt to transmit power; a translation gear motor 336 and a translation servo motor 337 are provided between the left and right couplers 335 in the translation mechanism.

As shown in fig. 10, the copper bank 4 includes a bearing part 401 and a guide part 402, the bearing part 401 is a bearing i-shaped section bar fixed to the ground through bolt connection, the guide part 402 is a bank stop lever 403, the bank stop lever 403 is fixed through a bank stop lever fixing seat 404 by bolt clamping, the bank stop lever 403 is arranged in parallel on the bank stop lever fixing seat 404 in multiple rows, the bank stop lever fixing seat 404 is fixed on a bank stop lever aluminum section bar 405 through bolt connection, and the bank stop lever aluminum section bar 405 is fixed on the bearing i-shaped section bar through bolt connection.

The total height of the copper bar storage position 4 is lower than the highest height of the lifting of the sponge sucker 305 at the bottom of the gripper of the truss manipulator 3, so that the normal grabbing of the truss manipulator can be guaranteed, and workpieces are delivered out of the warehouse and stored in the warehouse.

The utility model discloses a material loading part carries out the material loading, and fork truck puts into the copper bar material loading position, sends the work piece signal that targets in place, and material loading part bottom pneumatic cylinder promotes the push rod, and the copper bar is just fixed a position, and the signal that targets in place that the just fixed a position gives the truss manipulator, and the truss manipulator absorbs the copper bar and puts in the drum line, carries out the secondary location. After the cylinder at the upper part of the roller line pushes the copper bar plate to perform secondary positioning, the manipulator sucks the copper bar plate, the specification is selected by manual operation to be put in a warehouse, and the copper bars with the same specification are put in corresponding warehouse positions; when the copper bar plate is delivered out of the warehouse, the copper bar plate with the specification is taken out of the warehouse only by the operation screen, the truss manipulator automatically absorbs the copper bar plate with the specification, the copper bar plate is placed on the roller line, and after the in-place signal is sent, the roller line moves the copper bar plate to the discharging position. The utility model discloses a copper bar panel is absorb to the sponge sucking disc, copper bar panel width is inconsistent, compatible product specification length 4000 adds 6000mm, width 50-125mm, thickness 5-12mm, kind 30-80KG, the sucking disc compatible range is wide, the suction power is big, can absorb the copper bar panel of different specifications, the copper bar panel that needs the warehouse-out, only need transfer the specification parameter that needs on operating panel, truss manipulator absorbs copper bar panel to roller line automatically, roller line promotes copper bar panel to unloading position, it is accurate rapidly to transfer the copper bar material, transfer the parameter, intelligent warehouse entry, the warehouse entry rate of going out is high. The space utilization rate is remarkably improved, unnecessary space waste is greatly reduced, and the space occupied by the conventional artificial goods shelf is greatly compressed, so that the utilization rate is improved; after the improvement, the warehouse entry and the warehouse exit can be carried out only by one person, and the operation cost is greatly improved.

The basic principles, main features and advantages of the present invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides an automatic warehouse of transplanting of copper bar for put in storage, the processing of leaving warehouse to the copper bar work piece, its characterized in that: transplanting the warehouse and pushing away the material platform including the material loading, the cylinder transfer chain, truss manipulator and copper bar storehouse position, material loading pushes away the material platform and is located the material loading end of truss manipulator, material loading pushes away the bottom frame of material platform and passes through expansion bolts with ground and is connected fixedly subaerial, the cylinder transfer chain is located the material loading end of truss manipulator for carry out the location operation to the copper bar work piece, the truss manipulator includes that the stand supports the steel construction cross axle and is located the mechanism and the moving mechanism that snatchs on the cross axle, be used for accomplishing the warehouse entry and the operation of leaving warehouse to the work piece, copper bar storehouse position is located truss manipulator under, be used for saving the copper bar work piece.

2. The automatic copper bar transplanting warehouse of claim 1, wherein: the feeding and pushing platform further comprises a movable feeding mechanism which is a movable trolley, rollers are arranged at the bottom of the movable trolley, a trolley guide rail and a trolley propulsion oil cylinder are arranged on the bottom rack, the movable trolley rollers are connected with the trolley guide rail in a sliding mode, and the trolley propulsion oil cylinder is connected with the movable trolley in a driving mode.

3. The automatic copper bar transplanting warehouse of claim 2, wherein: the feeding and pushing platform further comprises a workpiece limiting mechanism, the workpiece limiting mechanism comprises a fixed guide rod, a fixed rod seat, a movable pushing rod and a pushing support, the fixed guide rod is connected with the fixed rod seat through a bolt, and the fixed rod seat is fixed with the frame of the movable trolley through a bolt; the movable pushing rod is fixedly connected to the pushing support through a bolt, the pushing support is fixedly connected with the sliding block through threads, the sliding block is in sliding connection with the sliding rail, the sliding rail is fixedly connected to the frame of the movable trolley through a bolt, sliding rods are arranged on two sides of the sliding rail, the sliding rods are connected with the frame of the movable trolley through bolts, and the pushing oil cylinder is in driving connection with the pushing support.

4. The automatic copper bar transplanting warehouse of claim 3, wherein: the trolley in-place sensor is arranged on the cross rod of the bottom rack, the copper bar sensor is arranged on the fixed rod seat, and the copper bar in-place sensor is arranged on the cross rod of the frame of the moving trolley.

5. The automatic copper bar transplanting warehouse of claim 1, wherein: the roller conveying line comprises a roller and a rack, the roller is fixed on the rack through bolts, and a sensor is arranged on the rack and used for sensing whether a workpiece exists or not.

6. The automatic copper bar transplanting warehouse of claim 1, wherein: the truss manipulator is characterized in that an upright post of the truss manipulator is connected with the ground through a chemical bolt, the top of the upright post is fixedly connected with a steel structure cross shaft through a bolt, two parallel linear guide rails are further arranged between the front steel structure cross shaft and the rear steel structure cross shaft, guide rails on the upper portion of the cross shaft are fixedly connected on the cross shaft through bolts, a moving mechanism is arranged between the parallel linear guide rails, and a grabbing mechanism is fixedly arranged on a vertical shaft perpendicular to the linear guide rails through bolts.

7. The automatic copper bar transplanting warehouse of claim 6, wherein: a sponge sucker at the bottom of a gripper of the grabbing mechanism is fixedly connected onto a sucker connecting plate through a bolt, the sucker connecting plate is connected onto a sucker guide rod through a bolt, the sucker guide rod is fixed with a guide rod adjusting nut through threads, and the sucker guide rod is in sliding connection with a first shaft sleeve; the upper side of the first shaft sleeve is connected with a second shaft sleeve through a shaft sleeve connecting shaft, two ends of the shaft sleeve connecting shaft are fixed through bolts through shaft sleeve connecting plates, a first proximity switch and a second proximity switch are arranged on the shaft sleeve connecting shaft, a spring is further arranged below the first shaft sleeve, the tail end of the spring is provided with an in-place detection rod, and the first shaft sleeve and the second shaft sleeve are both fixed on a lifting shaft through bolt connection.

8. The automatic copper bar transplanting warehouse of claim 7, wherein: the transfer mechanism comprises a lifting mechanism and a translation mechanism, a rack of the lifting mechanism is fixedly connected on a lifting shaft through a bolt, the side surface of the lifting shaft is connected with a vertical line guide rail through a bolt, and the vertical line guide rail is in sliding connection with a slide block fixed on a lifting sports car bottom plate; the lifting gear on the lifting sports car is meshed with the rack on the lifting shaft to lift transmission; the lifting transmission shaft is sleeved in a vertical bearing seat and is supported and fixed through a screw, the vertical bearing seat is connected and fixed with a sports car bottom plate through a bolt, and the other end of the lifting transmission shaft is fixed with a coupling bolt to transmit power; a lifting speed reducing motor and a lifting servo motor are also arranged between the left coupler and the right coupler in the lifting mechanism; a translational sports car bottom plate in the translational mechanism is connected with a sliding block through a bolt and slides in a connection way with a linear guide rail connected with a cross shaft through a bolt; a translation gear at the bottom of the sports car is in meshing transmission with a translation rack on a transverse shaft through a bolt, the translation rack is fixedly connected on the linear guide through a bolt, the translation gear is connected with a translation transmission shaft through a flat key groove, and the bolt is fixed; the translation bearing block is fixed on the running car bottom plate through a bolt; the other end of the translation transmission shaft is fixed with a coupling bolt to transmit power; a translation speed reducing motor and a translation servo motor are arranged between a left coupler and a right coupler in the translation mechanism.

9. The automatic copper bar transplanting warehouse of claim 1, wherein: copper bar storehouse position includes bearing piece and guide, and the bearing piece is bearing I shape section bar, and it is fixed in ground through bolted connection, and the guide is storehouse position pin, and storehouse position pin passes through storehouse position pin fixing base bolt fastening and fixes, and storehouse position pin is multirow parallel arrangement on storehouse position pin fixing base, and storehouse position pin fixing base passes through bolted connection to be fixed on storehouse position pin aluminium alloy, and storehouse position pin aluminium alloy passes through the bolt fastening on bearing I shape section bar.

10. The automatic copper bar transplanting warehouse according to any one of claims 1 to 9, wherein: the overall height of the copper bar storage position is lower than the highest lifting height of the sponge sucker at the bottom of the truss manipulator gripper.