CN211254513U - Automatic pile up neatly loading and unloading car system tears open - Google Patents

Abstract

The utility model discloses an automatic tear pile up neatly loading and unloading car system open, including fixed frame and transport vechicle, install in the carriage of transport vechicle and remove the stack platform that stretches out and retract the carriage, install goods in the fixed frame and carry buffer memory device, be used for unstacking and pile up neatly the robot of goods and be used for ordering about the removal drive arrangement that the stack platform removed, still install goods loading device in the fixed frame, goods loading device is including adopting the removal drive assembly that can stretch into and withdraw from the loading conveyer and the drive loading conveyer in carriage on the fixed frame of portable mode installation. The automatic stacking and unloading truck system has the functions of an automatic stacking and unloading truck and an automatic stacking and unloading manual auxiliary truck, and has the advantages of high working efficiency, low control difficulty, good compatibility, capability of improving cargo stacking regularity and compactness and the like.

Description

Automatic pile up neatly loading and unloading car system tears open

Technical Field

The utility model relates to an equipment technical field is transported in the commodity circulation, concretely relates to automatic tear pile up neatly loading and unloading car system open.

Background

In the current civil explosive industry, an automatic unstacking and stacking loading and unloading vehicle system does not exist, the unloading and the delivery of the explosive are finished manually, the efficiency is low, and the labor cost is consumed. And the automatic unstacking and stacking loading and unloading vehicle system applied to the aspects of food, logistics and packaging in the market can not meet the particularity of the civil explosive industry, for example, the system does not have the explosion-proof requirement, has low safety, and has the problems of low working efficiency, high control difficulty, poor cargo stacking regularity and compactness and the like when being used for explosive unstacking and stacking loading and unloading vehicles.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome the not enough of prior art existence, provide a work efficiency height, the control degree of difficulty is low, compatible good, can improve goods pile up neatly nature and compactedness, have the automatic pile up neatly loading and unloading car of tearing open and pile up neatly and tear the artifical supplementary loading and unloading car function of pile up neatly automatically simultaneously and tear open the pile up neatly loading and unloading car system open automatically.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides an automatic destacking and stacking loading and unloading car system, includes fixed frame and transport vechicle, install in the carriage of transport vechicle and remove the stack platform that stretches out and retract the carriage, install the goods in the fixed frame and carry buffer memory device, be used for destacking and pile up neatly the robot of goods and be used for ordering about the removal drive arrangement that the stack platform removed, still install the goods loading device in the fixed frame, the goods loading device is including adopting portable mode to install loading conveyer and the drive in order to stretch into and withdraw from the carriage in the fixed frame the removal drive assembly that the loading conveyer removed.

As a further improvement of the above technical solution:

the loading conveyor is a belt conveyor which is arranged on the fixed rack in a sliding mode, and the moving driving assembly comprises a first moving trolley and a first driving mechanism, wherein the first moving trolley travels along a linear guide rail arranged on the fixed rack, and the first driving mechanism drives the first moving trolley to move.

The mobile driving device comprises a second mobile trolley and a second driving mechanism, wherein the second mobile trolley travels along a linear guide rail arranged on the fixed rack, the second driving mechanism drives the second mobile trolley to move, and a detachable connecting mechanism is arranged between the second mobile trolley and the stacking platform.

The goods conveying caching device comprises two material positioning platforms and two conveying lines, the output ends of the two conveying lines are connected with the two material positioning platforms through a jacking conveyor, the jacking conveyor comprises a chain plate conveyor and two material conveying devices which are arranged on the fixed frame, the two material conveying devices are arranged at intervals in the conveying direction of the chain plate conveyor, the chain plate conveyor is arranged on the fixed frame in a way of adjusting the height through the lifting device, and the height of the chain plate conveyor can be adjusted to ensure that the conveying surface of the chain plate conveyor is changed between two states which are higher than the conveying surfaces of the two material conveying devices and lower than the conveying surfaces of the two material conveying devices, one ends of the two material conveying devices are respectively connected with the two conveying lines in a corresponding mode, and the other ends of the two material conveying devices are respectively connected with the two material positioning platforms in a corresponding mode.

Elevating gear includes lifting rotary driving piece and installs many lifting rods by rotation axis drive elevating movement in fixed frame, drag chain conveyor and many the lifting rod links to each other, many the rotation axis interconnect of lifting rod rotates in step, lifting rotary driving piece's drive end links to each other with the rotation axis of one of them lifting rod.

The chain plate conveyor comprises a lifting frame, a plurality of plate chain conveying belts arranged on the lifting frame and a chain plate rotary driving piece arranged on the lifting frame and used for driving the plate chain conveying belts, wherein the lifting frame is connected with the jacking rods.

The material conveying device comprises a conveying rotary driving part and a plurality of rollers which are rotatably installed on a fixed rack, the rollers are installed in gaps among a plurality of plate chain conveying belts, and the conveying rotary driving part is connected with the rollers through a transmission mechanism and drives the rollers to rotate.

The conveying line is a roller conveyor; the material positioning platform comprises a blocking positioning piece and a plurality of supporting rollers, the supporting rollers are rotatably installed on the fixed rack, and the blocking positioning piece is arranged on one side, far away from the material conveying device, of the material positioning platform.

Two material positioning platforms are respectively arranged at two sides of the robot.

Compared with the prior art, the utility model has the advantages of:

the utility model discloses an automatic pile up neatly loading and unloading car system of tearing open both can carry out automatic pile up neatly loading and unloading car of breaking a yard, also can carry out the artifical supplementary loading and unloading car of automatic pile up neatly, its function is complete, the integrated level is high, when carrying out cargo handling car, the robot need not pass in and out the carriage repeatedly, make the carriage inner space obtain make full use of, can avoid causing the carriage slope and rock the swing, can improve the position precision of pile up neatly goods greatly, improve the regularity and the compactedness of goods, avoid the goods to bump and empty in the transportation, the security that improves freight greatly. The automatic stacking and unloading truck detaching system has the advantages of high working efficiency, low control difficulty and good compatibility.

Drawings

FIG. 1 is a schematic perspective view of an automatic pallet truck system.

Fig. 2 is a schematic top view of the automatic unstacking loading and unloading truck system.

FIG. 3 is a schematic front view of the auto-unstacking truck system.

Fig. 4 is a schematic perspective view of the jacking conveyor.

Fig. 5 is a schematic top view of the jacking conveyor.

Fig. 6 is a schematic front view of the jacking conveyor in a state that the chain scraper conveyor is lowered.

Fig. 7 is a front view of the jacking conveyor in a raised state of the slat conveyor.

Illustration of the drawings:

1. fixing the frame; 2. a cargo conveying buffer device; 20. a material positioning platform; 201. a support roller; 202. blocking the positioning piece; 21. a conveying line; 22. a chain scraper conveyor; 221. a lifting frame; 222. a plate chain conveyor belt; 223. a chain plate rotating driving piece; 23. a lifting rotary driving member; 24. a rotating shaft; 25. a jacking rod; 251. installing a box body; 26. an intermediate shaft; 27. a coupling; 28. a material conveying device; 281. a drum; 3. a robot; 4. a loading conveyor; 100. a transport vehicle; 101. a carriage; 102. a stacking platform; 200. the driving device is moved.

Detailed Description

The present invention will be described in further detail with reference to the following drawings and specific embodiments.

As shown in fig. 1 to 3, the automatic pallet truck removing system of the embodiment includes a fixed frame 1 and a transport vehicle 100, a stacking platform 102 capable of movably extending out of and retracting into the carriage 101 is installed in the carriage 101 of the transport vehicle 100, a cargo conveying buffer device 2, a robot 3 for unstacking and stacking cargo and a moving driving device 200 for driving the stacking platform 102 to move are installed on the fixed frame 1, and a cargo loading device is also installed on the fixed frame 1, and the cargo loading device includes a loading conveyor 4 movably installed on the fixed frame 1 so as to extend into and withdraw from the carriage 101 and a moving driving component for driving the loading conveyor 4 to move. When the automatic unstacking and loading and unloading truck system carries out automatic unloading work of cargos, the stacking platform 102 is driven to move to extend out of the carriage 101 by the moving driving device 200, the cargos stacked on the stacking platform 102 are unstacked by the robot 3, stacked on the tray of the material positioning platform 20 of the cargo conveying caching device 2 and conveyed to a designated position by the cargo conveying caching device 2; when unloading is assisted manually, the loading conveyor 4 is driven to extend into the carriage 101 through the movable driving assembly, an operator carries goods to the loading conveyor 4, the goods are conveyed out of the carriage 101 through the loading conveyor 4, the goods on the loading conveyor 4 are stacked on the tray of the material positioning platform 20 of the goods conveying caching device 2 through the robot 3, and the goods are conveyed to a designated position through the goods conveying caching device 2. When the automatic loading is carried out, the mobile driving device 200 drives the stacking platform 102 to move and extend out of the carriage 101, the robot 3 is used for unstacking the goods stacked on the tray of the material positioning platform 20 of the goods conveying and caching device 2 and stacking the goods on the stacking platform 102, and after the stacking is finished, the mobile driving device 200 drives the stacking platform 102 to move and return into the carriage 101; during artifical supplementary loading, drive assembly through removing and order about loading conveyer 4 and stretch into carriage 101 in, carry buffer memory device 2 by the goods and carry the tray of putting things in good order to the position of 3 other material positioning platform 20 of robot, utilize robot 3 to destack the goods that the tray was put things in good order on the material positioning platform 20 and shift to loading conveyer 4, the goods is carried to carriage 101 in through loading conveyer 4, and the manual work is put things in good order in carriage 101 again. This pile up neatly loading and unloading car system is torn open in automation both can carry out the automatic pile up neatly loading and unloading car of breaking a yard, also can carry out the artifical supplementary loading and unloading car of automatic pile up neatly, its function is complete, the integrated level is high, when carrying out cargo handling, 3 robots need not pass in and out carriage 101 repeatedly, make the carriage 101 inner space obtain make full use of, can avoid causing carriage 101 slope and rock the swing, can improve the position precision of pile up neatly goods greatly, improve the regularity and the compactedness of goods, avoid the goods to bump and empty in the transportation, improve freight's security greatly. The automatic stacking and unloading truck detaching system has the advantages of high working efficiency, low control difficulty and good compatibility.

In this embodiment, the loading conveyor 4 is a belt conveyor installed on the fixed frame 1 in a sliding manner, and the belt conveyor adopts the prior art. The mobile driving component comprises a first mobile trolley and a first driving mechanism, wherein the first mobile trolley travels along a linear guide rail arranged on the fixed rack 1, and the first driving mechanism drives the first mobile trolley to move. The first driving mechanism is a chain driving mechanism, the chain driving mechanism comprises a chain which is arranged on the fixed rack 1 and driven by a chain wheel mechanism to operate, the chain is provided with a straight driving section, the first movable trolley is connected with the driving section, and the driving section drives the first movable trolley to move when the chain operates. The first driving mechanism can also be a gear and rack driving mechanism, a rack is arranged on the fixed rack 1, a gear is arranged on the first moving trolley and is meshed with the rack, and a motor is adopted to drive the gear to rotate so as to force the first moving trolley to move. The first driving mechanism can also adopt other existing structural combinations capable of driving the first moving trolley to reciprocate.

In this embodiment, the moving driving device 200 includes a second moving cart traveling along a linear guide rail disposed on the fixed frame 1 and a second driving mechanism for driving the second moving cart to move, and a detachable connection mechanism is disposed between the second moving cart and the stacking platform 102. The second driving mechanism is a chain driving mechanism, the chain driving mechanism comprises a chain which is arranged on the fixed rack 1 and driven by a chain wheel mechanism to operate, the chain is provided with a straight driving section, and the second movable trolley is connected with the driving section and driven by the driving section to move when the chain operates. The second driving mechanism can also be a gear and rack driving mechanism, a rack is arranged on the fixed rack 1, a gear is arranged on the second movable trolley and is meshed with the rack, and a motor is adopted to drive the gear to rotate so as to force the second movable trolley to move. The second driving mechanism can also adopt other existing structural combinations capable of driving the second movable trolley to reciprocate.

In this embodiment, the goods conveying and caching device 2 comprises two material positioning platforms 20 and two conveying lines 21, and the two material positioning platforms 20 and the two conveying lines 21 are convenient for conveying goods of different sizes and models. The output ends of the two conveying lines 21 are connected with the two material positioning platforms 20 through a jacking conveyor, as shown in fig. 4 and 5, the lifting conveyor includes a chain conveyor 22 mounted on the fixed frame 1 and two material conveying devices 28, the two material conveying devices 28 are arranged at intervals in the conveying direction of the chain conveyor 22, the chain conveyor 22 is mounted on the fixed frame 1 in a height-adjustable manner by a lifting device, and the height of accessible regulation chain conveyor 22 makes chain conveyor 22 transport face between two states that are higher than two material conveyor 28 transport faces and are less than two material conveyor 28 transport faces and change, and the one end of two material conveyor 28 corresponds respectively and links to each other with the output of two transfer chain 21, and the other end of two material conveyor 28 corresponds respectively and links to each other with two material positioning platform 20, can transmit the goods between each material conveyor 28 and corresponding transfer chain 21 and material positioning platform 20. The jacking conveyor can transfer goods between the two material positioning platforms 20 and the two conveying lines 21, and the goods on the material positioning platforms 20 and the conveying lines 21 can be moved to the corresponding material conveying devices 28 when the conveying surface of the chain conveyor 22 is lower than the conveying surfaces of the two material conveying devices 28. When the conveying surface of the chain scraper conveyor 22 is higher than the conveying surfaces of the two material conveying devices 28, the goods on one material conveying device 28 can be supported to be conveyed to the other material conveying device 28, when the goods are conveyed to the position above the target material conveying device 28, the conveying surface of the chain scraper conveyor 22 is lower than the conveying surfaces of the two material conveying devices 28, the goods can be placed on the target material conveying device 28, and then the goods are conveyed to the corresponding material positioning platform 20 or the corresponding conveying line 21 through the target material conveying device 28. The goods conveying caching device 2 is good in use flexibility and suitable for continuous loading and unloading work of goods, pallets of piled goods can be conveyed to the material positioning platform 20 through one conveying line 21, the robot 3 carries out piling and loading, and then empty pallets are transferred to the other conveying line 21 through the jacking conveyor and output; the empty pallet can be conveyed to the material positioning platform 20 through one conveying line 21, the unloaded materials are stacked on the empty pallet by the robot 3, and the pallet for stacking the materials is transferred to the other conveying line 21 through the jacking conveyor and is output.

In this embodiment, the lifting device includes a lifting/lowering rotary driving member 23 and a plurality of lifting rods 25 mounted on the fixed frame 1 and driven by a rotating shaft 24 to move up and down, the chain scraper conveyor 22 is connected to the plurality of lifting rods 25, the rotating shafts 24 of the plurality of lifting rods 25 are connected to each other and rotate synchronously, and the driving end of the lifting/lowering rotary driving member 23 is connected to the rotating shaft 24 of one of the lifting rods 25. This elevating gear adopts many jacking rods 25 by rotation axis 24 drive elevating movement, many jacking rod 25's rotation axis 24 interconnect and synchronous rotation, adopt a lift rotary driving piece 23 can drive all jacking rods 25 synchronous elevating movement, its lift synchronism is good, can not appear the uneven problem in both ends during the lift, even long wheel base chain scraper conveyor 22 also can stably go up and down, make jacking conveyor have simple structure compactness, with low costs, long service life's advantage.

In this embodiment, the lifting rod 25 is a threaded rod rotatably mounted on a mounting box 251 around a vertical axis, the rotating shaft 24 is rotatably mounted on the mounting box 251, the rotating shaft 24 is provided with a driving thread which drives the threaded rod to rotate by matching with the thread of the threaded rod when the rotating shaft 24 rotates, the slat conveyor 22 is connected with the threaded rod by matching with the thread of the threaded rod, and the slat conveyor 22 is driven to move up and down by rotating the threaded rod. The lifting device is simple in structure, good in lifting stability and convenient to overhaul and maintain. In other embodiments, other mounting and matching manners between the lifting rod 25 and the rotating shaft 24 may be adopted, as long as the rotating motion of the rotating shaft 24 can be converted into the lifting motion of the lifting rod 25.

In this embodiment, the rotation shafts 24 of the plurality of lifting rods 25 are sequentially connected through the intermediate shaft 26, and the rotation shafts 24 of the lifting rods 25 are in transmission connection with the intermediate shaft 26 through the coupling 27. The intermediate shaft 26 and the coupling 27 are connected for transmission, so that the cost is low, the manufacturing and assembly are easy, and the maintenance is convenient.

In this embodiment, two lifting rods 25 are connected below the input end and below the output end of the chain conveyor 22, the rotating shafts 24 of the two lifting rods 25 located below the input end of the chain conveyor 22 are in transmission connection through a first intermediate shaft 26, the rotating shafts 24 of the two lifting rods 25 located below the output end of the chain conveyor 22 are in transmission connection through a second intermediate shaft 26, and the rotating shaft 24 of one lifting rod 25 located below the input end of the chain conveyor 22 is in transmission connection with the rotating shaft 24 of one lifting rod 25 located below the output end of the chain conveyor 22 through a third intermediate shaft 26; and the third intermediate shaft 26 is formed by connecting more than two shaft sections which are sequentially connected through a coupling 27. Four jacking rods 25 are adopted to drive the chain plate conveyor 22 to move up and down totally, so that the cost can be saved and the simple and compact structure can be improved on the premise of ensuring stable and reliable work. The third intermediate shaft 26 is formed by connecting more than two shaft sections which are sequentially connected through a coupler 27, and the number of the shaft sections can be set according to the conveying length of the actual chain scraper conveyor 22, so that the transmission is stable and reliable, and the manufacturing, assembly and maintenance are easy.

In this embodiment, the slat conveyor 22 includes an elevator frame 221, a plurality of slat chain conveyors 222 mounted on the elevator frame 221, and a slat chain rotation driving member 223 mounted on the elevator frame 221 for driving the plurality of slat chain conveyors 222, and the elevator frame 221 is connected to the plurality of lift rods 25. The plate chain conveyor belt 222 is a conventional belt conveyor, and includes a base plate, a plate chain mounted on the base plate by a sprocket, and the sprocket is connected to a plate chain rotation driving member 223 by a sprocket transmission mechanism. The chain plate rotary driving piece 223 adopts an explosion-proof motor so as to meet the safety production requirement of the civil explosion industry.

In this embodiment, the material conveying device 28 includes a conveying rotary driving member and a plurality of rollers 281 rotatably mounted on the fixed frame 1, the plurality of rollers 281 are mounted in the gaps between the plurality of plate chain conveyors 222, and the conveying rotary driving member is connected to the plurality of rollers 281 through a transmission mechanism and drives the rollers 281 to rotate. The scraper chain conveyor 22 moves up and down to make the plate chain conveyor 222 higher or lower than the top surface of the rollers 281, when the plate chain conveyor 222 is raised from a state lower than the top surface of the rollers 281 to a state higher than the top surface of the rollers 281 (raised state), referring to fig. 7, the material carried on the rollers 281 can be lifted up and conveyed, when the plate chain conveyor 222 is lowered from a state higher than the top surface of the rollers 281 to a state lower than the top surface of the rollers 281 (lowered state), referring to fig. 6, the lifted and conveyed material can be placed on the rollers 281 and conveyed by the rollers 281. The jacking conveyor is provided with the material conveying device 28, so that the material can be conveniently transferred and conveyed in multiple directions, the requirement for multi-direction conveying of materials is met, and the jacking conveyor has the advantages of high integration level and simple and compact structure.

In this embodiment, the conveying direction of each material conveying device 28 is perpendicular to the conveying direction of the scraper chain conveyor 22.

In this embodiment, each material conveying device 28 is provided with a roller 281 in the gap between any two adjacent plate link conveyer belts 222, which can ensure the stability of material conveying.

In this embodiment, the lifting frame 221 is installed on the fixed frame 1 in a sliding manner in the vertical direction, so that the stability and accuracy of the lifting motion of the scraper chain conveyor 22 can be improved.

In this embodiment, the conveying line 21 is a roller conveyor; the material positioning platform 20 comprises a blocking positioning part 202 and a plurality of supporting rollers 201, the supporting rollers 201 are rotatably installed on the fixed rack 1, and the blocking positioning part 202 is arranged on one side, far away from the material conveying device 28, of the material positioning platform 20.

In this embodiment, two material positioning platforms 20 are respectively disposed on two sides of the robot 3.

The above description is only the preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above embodiments. For those skilled in the art, the modifications and changes obtained without departing from the technical idea of the present invention shall be considered as the protection scope of the present invention.

Claims (9)

1. The utility model provides an automatic unstacking and stacking cargo handling car system, includes fixed frame (1) and transport vechicle (100), install in carriage (101) of transport vechicle (100) and remove stack platform (102) that stretch out and draw into carriage (101), install goods on fixed frame (1) and carry buffer memory device (2), be used for unstacking and pile up neatly goods robot (3) and be used for ordering about removal drive arrangement (200) that stack platform (102) removed, its characterized in that: still install goods loading device on fixed frame (1), goods loading device is including adopting portable mode installation fixed frame (1) on order can stretch into and withdraw from loading conveyer (4) and the drive in carriage (101) the removal drive assembly that loading conveyer (4) removed.

2. The auto-palletizing truck system as in claim 1, wherein: the loading conveyor (4) is a belt conveyor which is arranged on the fixed rack (1) in a sliding mode, and the moving driving assembly comprises a first moving trolley which runs along a linear guide rail arranged on the fixed rack (1) and a first driving mechanism which drives the first moving trolley to move.

3. The auto-palletizing truck system as in claim 1, wherein: the mobile driving device (200) comprises a second mobile trolley and a second driving mechanism, wherein the second mobile trolley travels along a linear guide rail arranged on the fixed rack (1), the second driving mechanism drives the second mobile trolley to move, and a detachable connecting mechanism is arranged between the second mobile trolley and the stacking platform (102).

4. An automatic unstacking and loading truck system as claimed in claim 1 or 2 or 3 wherein: the goods conveying caching device (2) comprises two material positioning platforms (20) and two conveying lines (21), the output ends of the two conveying lines (21) are connected with the two material positioning platforms (20) through a jacking conveyor, the jacking conveyor comprises a chain plate conveyor (22) and two material conveying devices (28), the chain plate conveyor (22) is installed on a fixed rack (1), the two material conveying devices (28) are arranged at intervals in the conveying direction of the chain plate conveyor (22), the chain plate conveyor (22) is installed on the fixed rack (1) in a height-adjustable mode through a lifting device, the conveying surfaces of the chain plate conveyor (22) can be changed between two states that the conveying surfaces of the two material conveying devices (28) are higher than the conveying surfaces of the two material conveying devices (28) and the conveying surfaces of the two material conveying devices (28) are lower than the conveying surfaces of the two material conveying devices (28) through adjusting the height of the chain plate conveyor (22), and one ends of the two material conveying devices (28) are, the other ends of the two material conveying devices (28) are respectively and correspondingly connected with the two material positioning platforms (20).

5. The auto-palletizing truck system according to claim 4, wherein: the lifting device comprises a lifting rotary driving piece (23) and a plurality of lifting rods (25) which are installed on a fixed rack (1) and driven to move up and down by a rotating shaft (24), the chain plate conveyor (22) is connected with the plurality of lifting rods (25), the rotating shafts (24) of the lifting rods (25) are connected with each other and rotate synchronously, and the driving end of the lifting rotary driving piece (23) is connected with the rotating shaft (24) of one of the lifting rods (25).

6. The auto-palletizing truck system as in claim 5, wherein: the chain plate conveyor (22) comprises a lifting frame (221), a plurality of plate chain conveying belts (222) arranged on the lifting frame (221) and a chain plate rotary driving piece (223) arranged on the lifting frame (221) and used for driving the plate chain conveying belts (222), wherein the lifting frame (221) is connected with the jacking rods (25).

7. The auto-palletizing truck system as in claim 6, wherein: the material conveying device (28) comprises a conveying rotary driving part and a plurality of rollers (281) rotatably installed on the fixed rack (1), the rollers (281) are installed in gaps among the plate chain conveying belts (222), and the conveying rotary driving part is connected with the rollers (281) through a transmission mechanism and drives the rollers (281) to rotate.

8. The auto-palletizing truck system as in claim 7, wherein: the conveying line (21) is a roller conveyor; the material positioning platform (20) comprises a blocking positioning piece (202) and a plurality of supporting rollers (201), the supporting rollers (201) are rotatably installed on the fixed rack (1), and the blocking positioning piece (202) is arranged on one side, away from the material conveying device (28), of the material positioning platform (20).

9. The auto-palletizing truck system according to claim 4, wherein: the two material positioning platforms (20) are respectively arranged at two sides of the robot (3).

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