CN214526374U - Double-layer conveying line body and battery production system - Google Patents

Abstract

The utility model discloses a double-layer conveying line body and a battery production system, wherein the double-layer conveying line body comprises a frame, an upper layer conveying slide rail, a lower layer conveying slide rail and a cylinder jacking mechanism; the frame has a first end and a second end along the conveying direction; the upper-layer conveying slide rail is arranged on the rack and is obliquely and downwards arranged from the first end to the second end so as to convey the loading plate from the first end to the second end; the lower conveying slide rail is obliquely and downwards arranged from the second end to the first end so as to convey the loading plate from the second end to the first end; the cylinder jacking mechanism is arranged at the first end of the rack and used for lifting the carrying plate, conveyed to the first end, of the lower-layer conveying slide rail to the upper-layer conveying slide rail to load a product. The utility model discloses technical scheme double-deck conveying line body has realized loading the product to carrying the thing board from the first end of the double-deck conveying line body to carry the function to the second end, and saved manual work and material cost, improved work efficiency.

Description

Double-layer conveying line body and battery production system

Technical Field

The utility model relates to a carry technical field, in particular to double-deck conveying line body and battery production system.

Background

With the development of manufacturing industry, the double-layer conveying line body becomes indispensable equipment in the production and manufacturing process, and a product to be processed or a processed product is conveyed from a previous process to a next process through the double-layer conveying line body, so that the function of replacing manual conveying is realized. In the related art, after the production of battery products, the battery products need to be placed on a tray and transported to a storage area for storage through transportation equipment, but double-layer transportation line bodies in the prior art are single-layer double-layer transportation line bodies, an empty tray needs to be transported to a battery production place manually, after the batteries are loaded, the batteries are transported to the other side through the double-layer transportation line bodies, meanwhile, the existing double-layer transportation line bodies all need to be transported through the arrangement of a special power driving mechanism, such as a motor and a cylinder, and therefore waste of manpower and material cost is caused, and the work efficiency is low.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a double-deck conveying line body aims at reducing manpower and material cost, improves work efficiency.

In order to achieve the purpose, the utility model provides a double-layer conveying line body, which comprises a frame, an upper layer conveying slide rail, a lower layer conveying slide rail and a cylinder jacking mechanism; the frame has a first end and a second end along a conveying direction; the upper-layer conveying slide rail is arranged on the rack and is obliquely and downwards arranged from the first end to the second end so as to convey the loading plate from the first end to the second end; the lower conveying slide rail is obliquely and downwards arranged from the second end to the first end so as to convey the loading plate from the second end to the first end; the cylinder jacking mechanism is arranged at the first end of the rack and used for lifting the carrying plate conveyed to the first end by the lower conveying slide rail to the upper conveying slide rail to load a product.

The utility model discloses an in the embodiment, the double-deck conveying line body is still including locating the transport section of plugging into of the first end of frame, the transport section of plugging into with cylinder climbing mechanism connects, cylinder climbing mechanism can drive the transport section up-and-down motion of plugging into, with upper strata transport slide rail perhaps lower floor's transport slide rail plugs into.

The utility model discloses an in the embodiment, cylinder climbing mechanism is including driving actuating cylinder and scissors formula lifting unit, scissors formula lifting unit with the cylinder drive is connected, the transport section of plugging into is located scissors formula lifting unit's top.

In an embodiment of the present invention, a supporting frame is disposed on the top of the scissor type lifting assembly, and the supporting frame includes a base connected to the scissor type lifting assembly and side frames disposed on two sides of the base;

the connection conveying section comprises a connection fluency strip and a connection roller assembly, and the connection fluency strip is arranged on the base and is used for supporting the bottom of the carrying plate; the connection roller assembly is arranged on the side frame and used for being abutted against the side wall of the carrying plate.

In an embodiment of the present invention, the upper conveying slide rail includes a first fluent strip for supporting the bottom of the carrying plate and a first roller assembly in guiding fit with the side wall of the carrying plate; the lower-layer conveying slide rail comprises a second fluent strip for supporting the bottom of the carrying plate and a second roller assembly in guiding fit with the side wall of the carrying plate;

the connection fluency strip is used for connecting the first fluency strip or the second fluency strip; the connecting roller assembly is used for connecting the first roller assembly or the second roller assembly.

The utility model discloses an embodiment, the frame is equipped with first gear stopping mechanism, first gear stopping mechanism is located lower floor's transport slide rail for gear stopping is carried to the year thing board of first end.

In an embodiment of the present invention, the frame is provided with a second stop mechanism at the second end, the second stop mechanism is used for stopping the upper conveying slide rail is conveyed to the carrying plate at the second end.

The utility model discloses an in the embodiment, the frame is equipped with at middle part position and separates the fender subassembly, it is used for stretching into to separate the fender subassembly the middle part position of upper strata transport slide rail is in order to block and carry the thing board.

The utility model discloses an embodiment, the frame still is equipped with the structure of plugging into at the second end to be used for plugging into transfer dolly or load board dolly.

In order to achieve the above object, the present invention further provides a battery production system, which comprises the above double-layer transportation line body; the double-layer conveying line body comprises a rack, an upper-layer conveying slide rail, a lower-layer conveying slide rail and a cylinder jacking mechanism; the frame has a first end and a second end along a conveying direction; the upper-layer conveying slide rail is arranged on the rack and is obliquely and downwards arranged from the first end to the second end so as to convey the loading plate from the first end to the second end; the lower conveying slide rail is obliquely and downwards arranged from the second end to the first end so as to convey the loading plate from the second end to the first end; the cylinder jacking mechanism is arranged at the first end of the rack and used for lifting the carrying plate conveyed to the first end by the lower conveying slide rail to the upper conveying slide rail to load a product.

The utility model discloses in the double-deck conveying line body of technical scheme, the frame has first end and the second end along direction of delivery, through set up upper strata transport slide rail in the frame, lower floor's transport slide rail and cylinder climbing mechanism, upper strata transport slide rail sets up downwards from first end orientation second end slope, lower floor's transport slide rail sets up downwards from second end orientation first end slope, make lower floor's transport slide rail can carry the thing board to first end department from the second end, carry the thing board that will carry to first end through cylinder climbing mechanism and promote to upper transport slide rail from lower floor's transport slide rail department, then load the product to carrying the thing board, carry the thing board to carry to second end from first end through upper strata transport slide rail, thereby realized loading the product to carrying the thing board and carrying to the function of second end from first end. In this embodiment, carry the thing board and carry to first end from the second end, then after loading the product, carry back the second end, saved the manual work and carried the process of thing board transport to product production department, the staff only need just can realize the material loading action in the storage area that carries the thing board place, has saved the manual work. Meanwhile, the upper conveying slide rail and the lower conveying slide rail are arranged obliquely through the upper conveying slide rail and the lower conveying slide rail to realize the conveying function, a driving mechanism does not need to be additionally arranged, and the effect of saving the material cost is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be 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 the structures shown in the drawings without creative efforts.

Fig. 1 is a schematic structural view of an embodiment of the double-deck conveyor line of the present invention;

FIG. 2 is a front view of an embodiment of the double-deck conveyor line of the present invention;

FIG. 3 is a partial schematic view of the bi-layer conveyor line body of FIG. 2 at a first end;

fig. 4 is another schematic structural view of the embodiment of the double-deck conveyor line body of the present invention;

fig. 5 is the embodiment of the present invention provides a schematic structural diagram of the cylinder jacking mechanism and the connection conveying section.

The reference numbers illustrate:

reference numerals	Name (R)	Reference numerals	Name (R)
				100	Rack	423	Connecting piece
101	First end	430	Supporting frame
				102	Second end	431	Base seat
110	Connection structure	432	Side frame
				200	Upper layer conveying sliding rail	500	Connecting conveying section
210	First class of fluent strip	510	Connecting fluent strip
				220	First roller assembly	520	Connection roller assembly
300	Lower-layer conveying sliding rail	600	First stop mechanism
				310	Second roller assembly	610	Stop piece
400	Cylinder jacking mechanism	620	First driving member
				410	Driving cylinder	700	Second stop mechanism
420	Scissor type lifting assembly	800	Baffle assembly
				421	First transmission piece	900	Loading board
422	Second transmission member

The objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that, if directional indications (such as upper, lower, left, right, front and rear … …) are involved in the embodiment of the present invention, the directional indications are only used to explain the relative position relationship between the components, the motion situation, etc. in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indications are changed accordingly.

In addition, if there is a description relating to "first", "second", etc. in the embodiments of the present invention, the description of "first", "second", etc. is for descriptive purposes only and is not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, the technical solutions in the embodiments may be combined with each other, but it must be based on the realization of those skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should not be considered to exist, and is not within the protection scope of the present invention.

The utility model provides a double-deck conveying line body aims at reducing manual work and material cost, improves work efficiency.

In the embodiment of the present invention, as shown in fig. 1 to 5, the double-layer conveying line body includes a frame 100, an upper conveying slide rail 200, a lower conveying slide rail 300, and a cylinder jacking mechanism 400.

The upper conveying sliding rail 200 is arranged on the rack 100, and the upper conveying sliding rail 200 is arranged obliquely downwards from the first end 101 to the second end 102 so as to convey the carrier plate 900 from the first end 101 to the second end 102;

the lower conveying slide rail 300 is arranged below the upper conveying slide rail 200, and the lower conveying slide rail 300 is arranged from the second end 102 to the first end 101 in an inclined and downward manner so as to convey the loading plate 900 from the second end 102 to the first end 101;

the cylinder jacking mechanism 400 is disposed at the first end 101 of the frame 100, and is configured to lift the loading plate 900, which is conveyed to the first end 101 by the lower conveying slide 300, to the upper conveying slide 200 to load a product.

The rack 100 plays a role in supporting and fixing, the upper layer conveying slide rail 200 and the lower layer conveying slide rail 300 are arranged on the rack 100, the conveying directions of the upper layer conveying slide rail 200 and the lower layer conveying slide rail 300 are opposite, so that the lower layer conveying slide rail 300 can convey the object carrying plate 900 to the first end 101 from the second end 102 of the rack 100, then the object carrying plate 900 located at the first end 101 is lifted to the upper layer conveying slide rail 200 through the air cylinder jacking mechanism 400, then products are loaded into the object carrying plate 900, and the products are conveyed to the second end 102 through the upper layer conveying slide rail 200, so that the function of conveying the products to the second end 102 is realized.

In this embodiment, the upper conveying sliding rail 200 is arranged obliquely downward from the first end 101 toward the second end 102, so that when the object carrying plate 900 is on the upper conveying sliding rail 200, the object carrying plate 900 can move spontaneously from the first end 101 to the second end 102 under the self-gravity and the driving action of the oblique upper conveying sliding rail 200; similarly, the lower conveying sliding rail 300 is inclined downward from the second end 102 toward the first end 101, so that when the object carrying plate 900 is on the lower conveying sliding rail 300, the object carrying plate 900 can move to the first end 101 from the second end 102 spontaneously under the driving action of the self gravity and the inclined lower conveying sliding rail 300. It can be understood that the upper conveying slide rail 200 and the lower conveying slide rail 300 are both obliquely arranged, so that the conveying function of the object carrying plate 900 is realized, and in this embodiment, a driving mechanism for driving the upper conveying slide rail 200 and the lower conveying slide rail 300 to move does not need to be additionally arranged, so that the material cost is saved.

In practical applications, the specific structural forms of the upper layer conveying slide rail 200 and the lower layer conveying slide rail 300 can be determined according to practical situations, such as a fluent strip slide rail structure.

After the loading plate 900 is transported to the first end 101, the loading plate 900 on the lower layer is transported to the upper layer transportation slide rail 200 by the lifting action of the cylinder jacking mechanism 400, so as to load and transport the product. After the carrier plate 900 is moved to the upper-layer conveying slide 200, the first end 101 may be loaded with the product, or the product may be loaded at a position between the first end 101 and the second end 102.

Alternatively, the cylinder jacking mechanism 400 may be a cylinder vertically disposed to directly drive the scissor lift assembly to move up and down, or a cylinder horizontally disposed to drive the scissor lift assembly to move up and down.

In the double-deck conveyor line of the technical proposal of the utility model, a frame 100 is provided with a first end 101 and a second end 102 along the conveying direction, by arranging the upper-layer conveying slide rail 200, the lower-layer conveying slide rail 300 and the air cylinder jacking mechanism 400 on the rack 100, the upper-layer conveying slide rail 200 is obliquely and downwards arranged from the first end 101 to the second end 102, the lower-layer conveying slide rail 300 is obliquely and downwards arranged from the second end 102 to the first end 101, so that the lower conveyor slide 300 can transport the carrier plate 900 from the second end 102 to the first end 101, the loading plate 900 conveyed to the first end 101 is lifted from the lower conveying slide 300 to the upper conveying slide 200 by the cylinder jacking mechanism 400, then the product is loaded to the carrier plate 900, the carrier plate 900 is transported from the first end 101 to the second end 102 by the upper layer transporting slide 200, thereby performing the function of loading the product from the first end 101 to the carrier plate 900 and transporting it to the second end 102. In this embodiment, carry thing board 900 and carry to first end 101 from second end 102, then after loading the product, carry back second end 102, saved the manual work and carried the process of carrying thing board 900 to product production department, the staff only need just can realize the material loading action in the storage area that carries thing board 900 place, has saved the manual work. Meanwhile, the upper conveying slide rail 200 and the lower conveying slide rail 300 are arranged obliquely to realize the conveying function, and no additional driving mechanism is needed, so that the material cost is saved.

In order to guarantee that the year thing board 900 of lower floor's transport slide rail 300 can move smoothly to upper strata transport slide rail 200 on, refer to fig. 1 to fig. 5 the utility model relates to an embodiment, the double-deck conveying line body is still including locating the transport section 500 of plugging into of the first end 101 of frame 100, plug into transport section 500 with cylinder climbing mechanism 400 connects, cylinder climbing mechanism 400 can drive plug into transport section 500 up-and-down motion, with upper strata transport slide rail 200 perhaps lower floor's transport slide rail 300 plugs into.

In this embodiment, the connection conveying section 500 is arranged at the first end 101 of the rack 100, and the connection conveying section 500 can move up and down under the driving action of the cylinder jacking mechanism 400, so that the connection conveying section 500 can move up to connect with the upper conveying slide rail 200, or move down to connect with the lower conveying slide rail 300, thereby realizing the function of conveying the loading plate 900 to move up.

It is understood that the specific structural shape of the docking conveyor section 500 may be determined according to actual situations, such as a smooth support structure, a fluent strip structure, a roller structure, etc.

In an embodiment of the present invention, referring to fig. 3 and 5, the cylinder jacking mechanism 400 includes a driving cylinder 410 and a scissor type lifting assembly 420, the scissor type lifting assembly 420 is connected to the driving cylinder 410, the connecting conveying section 500 is disposed at the top of the scissor type lifting assembly 420.

As can be understood, the scissor lift assembly 420 includes a first transmission member 421 and a second transmission member 422, which are hinged to each other, and the scissor-like mutual movement of the first transmission member 421 and the second transmission member 422 is used to realize the lifting movement of the docking conveyor section 500. In practical applications, the scissor lift assembly 420 may include a plurality of scissor-like first transmission members 421 and second transmission members 422 to increase the lift stroke of the scissor lift assembly 420. The mutual motion of first driving medium 421 and second driving medium 422 is driven through driving actuating cylinder 410, can set up the connecting piece 423 of being connected with the piston rod that drives actuating cylinder 410 in scissors formula lift subassembly 420's bottom, drives connecting piece 423 through the piston rod and moves, and then drives first driving medium 421 and second driving medium 422 mutual motion, realizes the function that drives the transport section 500 of plugging into and goes up and down.

Further, referring to fig. 3 and 5, a supporting frame 430 is disposed on the top of the scissor type lifting assembly 420, and the supporting frame 430 includes a base 431 connected to the scissor type lifting assembly 420 and side frames 432 disposed on both sides of the base 431;

the connection conveying section 500 comprises a connection fluency strip 510 and a connection roller assembly 520, wherein the connection fluency strip 510 is arranged on the base 431 and is used for supporting the bottom of the carrier plate 900; the connection roller assembly 520 is disposed on the side frame 432 for abutting against the side wall of the loading plate 900.

In this embodiment, the supporting frame 430 plays a role in supporting and mounting the connection conveying section 500, the supporting frame 430 includes a base 431 and a side frame 432, the connection fluency strip 510 is mounted on the base 431, and the connection roller assembly 520 is mounted on the side frame 432, so as to realize a guiding and matching function for the bottom wall and the side wall of the carrier plate 900, so that the carrier plate 900 can smoothly slide from the lower-layer conveying slide rail 300 to the connection fluency strip 510, and can also smoothly slide from the connection fluency strip 510 to the upper-layer conveying slide rail 200.

Specifically, referring to fig. 1 to 5, the upper conveying slide 200 includes a first fluent strip 210 for supporting the bottom of the carrier plate 900 and a first roller assembly 220 in guiding cooperation with the side wall of the carrier plate 900; the lower conveying sliding rail 300 comprises a second fluent strip for supporting the bottom of the carrier plate 900 and a second roller assembly 310 in guiding fit with the side wall of the carrier plate 900;

the connecting fluency strip 510 is used for connecting the first fluency strip 210 or the second fluency strip; the connection roller assembly 520 is used for connecting the first roller assembly 220 or the second roller assembly 310.

It can be understood that the carrier plate 900 is placed on the second flow strip, and is transported from the second end 102 to the first end 101 on the second flow strip which is obliquely arranged, and the second roller assemblies 310 are arranged on two sides of the second flow strip, so that the side wall of the carrier plate 900 is guided and matched, the transportation reliability of the carrier plate 900 is ensured, the transportation path is prevented from deviating, and meanwhile, the motion resistance of the carrier plate 900 is reduced and the abrasion to the carrier plate 900 is reduced through the guiding effect of the rollers.

After the carrier plate 900 is transported to the first end 101, the connecting fluency strip 510 is connected with the second fluency strip, and the connecting roller assembly 520 is connected with the second roller assembly 310, so that the carrier plate 900 can smoothly slide onto the connecting conveying section 500. Then, the scissors type lifting assembly 420 drives the connection conveying section 500 to move upwards, so that the connection fluent strip 510 is connected with the first fluent strip 210, the connection roller assembly 520 is connected with the first roller assembly 220, the carrying plate 900 can smoothly slide to the upper conveying sliding rail 200, the carrying plate 900 is conveyed to the second end 102 from the first end 101 on the obliquely arranged first fluent strip 210, the first roller assemblies 220 are arranged on two sides of the first fluent strip 210, and the side walls of the carrying plate 900 are in guiding fit, so that the conveying reliability of the carrying plate 900 is guaranteed, the conveying path is prevented from deviating, meanwhile, the movement resistance of the carrying plate 900 is reduced through the guiding effect of the rollers, and the abrasion to the carrying plate 900 is reduced.

In order to prevent the loading plate 900 on the lower conveying sliding rail 300 from falling from the first end 101, referring to fig. 1 to 4, in an embodiment of the present invention, the frame 100 is provided with a first stop mechanism 600, and the first stop mechanism 600 is located on the lower conveying sliding rail 300 and is used for stopping the conveying of the loading plate 900 to the first end 101.

It can be understood that, when the connecting conveying section 500 is not connected to the lower conveying slide rail 300, after the lower conveying slide rail 300 conveys the loading plate 900 to the first end 101, the loading plate 900 may directly fall off from the first end 101 under the action of inertia, and based on this, the first stop mechanism 600 is provided in this embodiment to stop the loading plate 900 moving to the first end 101 to continue moving, so as to achieve the purpose of preventing the loading plate from falling off.

In the practical application process, the first stop mechanism 600 may be arranged in linkage with the transfer section 500, and when the transfer section 500 moves to be transferred to the lower-layer transfer slide 300, the first stop mechanism 600 does not block the carrier plate 900; when the transfer conveyor segment 500 is not transferred to the lower conveyor track 300, the first stop mechanism 600 blocks the carrier plate 900.

Specifically, the first stopping mechanism 600 includes a stopping member 610 and a first driving member 620 disposed at the bottom of the lower conveying slide rail 300, and the first driving member 620 can drive the stopping member 610 to move upward to stop the loading plate 900. The first driving member 620 functions to drive the stopping member 610 to move, the first driving member 620 may be matched with the connecting conveying section 500, and when the connecting conveying section 500 moves to be not connected with the lower conveying slide rail 300, the first driving member 620 drives the stopping member 610 to move upwards so as to extend onto the lower conveying slide rail 300 or lift part of the lower conveying slide rail 300 at the first end 101 upwards, so as to generate a certain blocking effect on the object carrying plate 900, and prevent the object carrying plate 900 from moving further. When the connection conveying section 500 moves to connect with the lower conveying slide rail 300, the connection conveying section 500 generates a certain pressure on the first driving member 620, and then drives the stopper 610 to move downwards, so as to release the blocking effect on the loading plate 900, and thus the loading plate 900 is smoothly conveyed to the connection conveying section 500.

In order to prevent the loading plate 900 loaded with products from falling off from the upper conveying sliding rail 200, referring to fig. 1 to 4, in an embodiment of the present invention, the frame 100 is provided with a second stop mechanism 700 at the second end 102, and the second stop mechanism 700 is used for stopping the loading plate 900 conveyed from the upper conveying sliding rail 200 to the second end 102.

It will be appreciated that when the carrier plate 900 is transported from the first end 101 to the second end 102, and the worker has no time to unload or load the carrier plate 900 with products, the carrier plate 900 may fall from the second end 102. to prevent the fall, a second stop mechanism 700 may be provided at the second end 102 of the frame 100 for stopping the transport of the carrier plate 900 to the second end 102.

Alternatively, the second stop mechanism 700 may be a movable baffle structure, which is driven to move to the upper conveying slide 200 for stopping when stopping is needed, and to move away from the upper conveying slide 200 when stopping is not needed.

It should be noted that the specific manner of blanking the carrier plate 900 from the second end 102 is not limited, and the blanking may be manual carrying blanking or automatic transfer trolley blanking. Optionally, the rack 100 is further provided with a docking structure 110 at the second end 102 for docking a transfer cart, and the carrier board 900 loaded with the product may be directly moved from the upper layer conveying slide rail 200 to a transport cart for subsequent processes.

In order to ensure the loading rate of the product, in an embodiment of the present invention, referring to fig. 1 to 4, a blocking assembly 800 is disposed at a middle position of the frame 100, and the blocking assembly 800 is used for extending into a middle position of the upper layer conveying sliding rail 200 to block the loading plate 900.

It can be understood that the carrier plate 900 is conveyed towards the second end 102 by the upper layer conveying slide 200, and the baffle assembly 800 is disposed at the middle position of the rack 100, so as to extend into the upper layer conveying slide 200 to block the carrier plate 900 for product loading. Alternatively, the baffle assembly 800 may be a baffle structure or a barrier strip structure, etc.

The utility model discloses still provide a battery production system, this battery production system include the double-deck transportation line body, and the concrete structure of this double-deck transportation line body refers to above-mentioned embodiment, because this battery production system has adopted the whole technical scheme of above-mentioned all embodiments, consequently has all beneficial effects that the technical scheme of above-mentioned embodiment brought at least, and the repeated description is no longer given here.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A double-layer conveyor line body, comprising:

a frame having a first end and a second end along a conveying direction;

the upper-layer conveying sliding rail is arranged on the rack and is obliquely and downwards arranged from the first end to the second end so as to convey the loading plate from the first end to the second end;

the lower-layer conveying slide rail is obliquely and downwards arranged from the second end to the first end so as to convey the loading plate from the second end to the first end; and

the cylinder jacking mechanism is arranged at the first end of the rack and used for lifting the carrying plate, conveyed to the first end, of the lower conveying slide rail to the upper conveying slide rail so as to load a product.

2. The dual-layer conveyor line body of claim 1, further comprising a docking conveyor section disposed at a first end of the frame, wherein the docking conveyor section is connected to the cylinder jacking mechanism, and the cylinder jacking mechanism is capable of driving the docking conveyor section to move up and down to dock with the upper conveyor slide or the lower conveyor slide.

3. The double-layer conveyor line body of claim 2, wherein the cylinder jacking mechanism comprises a driving cylinder and a scissor-type lifting assembly, the scissor-type lifting assembly is in driving connection with the cylinder, and the docking conveyor section is arranged at the top of the scissor-type lifting assembly.

4. The double-layer conveyor line body of claim 3, wherein a support frame is arranged at the top of the scissor type lifting assembly, and comprises a base connected with the scissor type lifting assembly and side frames arranged at two sides of the base;

the connection conveying section comprises a connection fluency strip and a connection roller assembly, and the connection fluency strip is arranged on the base and is used for supporting the bottom of the carrying plate; the connection roller assembly is arranged on the side frame and used for being abutted against the side wall of the carrying plate.

5. The bi-layer conveyor line body of claim 4, wherein the upper conveyor slide comprises a first fluent strip for supporting a bottom of the load plate and a first roller assembly in guiding engagement with a side wall of the load plate; the lower-layer conveying slide rail comprises a second fluent strip for supporting the bottom of the carrying plate and a second roller assembly in guiding fit with the side wall of the carrying plate;

the connection fluency strip is used for connecting the first fluency strip or the second fluency strip; the connecting roller assembly is used for connecting the first roller assembly or the second roller assembly.

6. The double-deck conveyor line body of any one of claims 1 to 5, wherein said machine frame is provided with a first stop mechanism, said first stop mechanism being located on said lower conveyor slide for stopping the conveyance to the carrier plate at the first end.

7. The double-layered conveyor line body according to any one of claims 1 to 5, wherein the frame is provided with a second stopping mechanism at the second end, the second stopping mechanism being used for stopping the upper conveying slide from being conveyed to the carrying plate at the second end.

8. The double-deck conveyor line body according to any one of claims 1 to 5, wherein said frame is provided with a blocking member at a middle position, said blocking member being adapted to extend into a middle position of said upper conveying slide to block a carrier plate.

9. The double layer haul line body of any one of claims 1 to 5, wherein said frame is further provided with a docking structure at a second end for docking a transfer cart or a load plate cart.

10. A battery production system comprising the double-layered conveyor line body according to any one of claims 1 to 9.

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