CN217457779U - Supply to mould shell device suitable for battery - Google Patents

Abstract

The utility model relates to a plastic shell supplying device suitable for a storage battery, which comprises a plastic shell conveyor and a storage box, wherein the plastic shell conveyor comprises a frame and two conveying belts; the shell preparation station comprises a first base, a first supporting plate and a first air cylinder, and a first bulge is arranged in the middle of the first supporting plate; a pushing cylinder and a transfer plate are respectively arranged on two sides of the frame corresponding to the shell preparation station, and a second bulge is arranged in the middle of the transfer plate; a groove entering station is correspondingly arranged on one side of the transfer plate and comprises a second base, a second supporting plate and a second air cylinder, a third bulge is arranged in the middle of the second supporting plate, a clamping jaw air cylinder is further arranged below the second supporting plate, clamping plates are connected to two sides of the clamping jaw air cylinder, and a lifting baffle is arranged on one side of the second supporting plate; and a cast-weld conveyor is correspondingly arranged on one side of the groove-entering station. The utility model discloses a high-efficient automatic effect of carrying in succession improves and moulds shell supply efficiency, guarantees the supply of follow-up cast joint raw and other materials.

Description

Supply to mould shell device suitable for battery

Technical Field

The utility model relates to a battery production technical field especially relates to a supply plastic shell device suitable for battery.

Background

In the production process of the storage battery, one of the processes is to insert a plurality of pole groups into a storage battery plastic shell through a pole group groove entering machine, the pole group groove entering machine needs to wrap a pole plate and a partition plate to form the pole group of the battery, the pole group groove entering machine is matched with a plastic shell supply device to realize uninterrupted pole group groove entering, and the pole group filled into the plastic shell flows into the next cast-weld process.

Most of the existing plastic shell supply devices are automatically operated, but the operation efficiency is limited, and only one pole group in a plastic shell can be completed to enter a groove at one time, so that the efficiency of a subsequent cast welding machine cannot be kept up with, and the efficiency of the whole production line is low. Therefore, the plastic supplying and housing device suitable for the storage battery is provided.

Disclosure of Invention

The utility model discloses a solve the problem that current plastic shell supply device is inefficient, provide a supply that is applicable to the battery and mould shell device, can once only accomplish two utmost point crowd's of moulding the shell and go into the groove, effectively improve the operating efficiency.

In order to achieve the above object, the utility model adopts the following technical scheme:

a plastic supplying shell device suitable for a storage battery comprises a plastic shell conveyor and a storage box arranged above the plastic shell conveyor, wherein the plastic shell conveyor comprises a rack and two conveying belts arranged on the rack, and the two conveying belts are matched to conveniently and synchronously convey plastic shells;

the storage box, the clamping cylinder, the shell preparation station and the shell blocking plate are sequentially arranged on the rack, the shell preparation station is arranged between the two conveying belts and comprises a first base, a first supporting plate and a first cylinder connected with the first base and the first supporting plate, the first cylinder can facilitate lifting of the first supporting plate, a first bulge is arranged in the middle of the first supporting plate, and the first bulge is convenient for separating a plastic shell on the first supporting plate;

the two sides of the machine frame, which correspond to the shell preparation stations, are respectively provided with a pushing cylinder and a transit plate, the pushing cylinder is provided with the pushing plate, the pushing cylinder is convenient for pushing and moving the plastic shells to different stations, the cross section of the transit plate is U-shaped, so that guidance is provided for moving the plastic shells, the middle part of the transit plate is provided with a second bulge, and the second bulge is convenient for separating the plastic shells on the transit plate;

a groove-entering station is correspondingly arranged on one side of the transfer plate and comprises a second base, a second supporting plate and a second air cylinder for connecting the second base with the second supporting plate, the second air cylinder can facilitate lifting of the second supporting plate, a third bulge is arranged in the middle of the second supporting plate and facilitates separation of a plastic shell on the second supporting plate, a clamping jaw air cylinder is further arranged below the second supporting plate, clamping plates are connected to two sides of the clamping jaw air cylinder and extend upwards out of the second supporting plate, the clamping plates clamp the plastic shell and facilitate fixation of the plastic shell, and a lifting baffle is arranged on one side of the second supporting plate and can position the plastic shell in a moving mode;

and a cast-weld conveyor is correspondingly arranged on one side of the groove-entering station, so that the plastic shell can conveniently flow to the next process.

Furthermore, a plurality of plastic shells are arranged in the storage box, are stacked up and down in an array and are arranged between the two conveying belts; the clamping cylinders are arranged on two sides of the frame correspondingly, clamping plates are connected to the clamping cylinders, the plastic shells are clamped by the clamping plates to limit transmission, and the clamping cylinders can be used for controlling the plastic shells to be placed one by one.

Furthermore, a first guide rod is arranged between two sides of the first supporting plate and the first base, and penetrates through the first base to slide up and down, so that the lifting stability of the first supporting plate is ensured; the cross section of the first bulge is rectangular, and two spare shell channels are formed on two sides of the first bulge.

Furthermore, the section of the second bulge is rectangular, and two sides of the second bulge and the middle transfer plate surround to form two transfer channels.

Furthermore, a second guide rod is arranged between two sides of the second supporting plate and the second base, and the second guide rod penetrates through the second base to slide up and down, so that the lifting stability of the second supporting plate is ensured; the three cross sections of the protrusions are rectangular, the protrusions and the clamp plate are encircled to form two groove-entering channels, the transfer channels and the shell-preparing channels are sequentially and correspondingly communicated, and the plastic shell can be conveniently transferred between different stations.

Furthermore, the lifting baffle comprises a plate body and a lifting cylinder used for driving the plate body to move up and down, so that the lifting baffle can conveniently ascend or descend, and the plastic shell can be positioned.

Through the technical scheme, the beneficial effects of the utility model are that:

the utility model has the advantages of reasonable design, mould the shell in proper order through moulding shell conveyer, be equipped with shell station, transfer board, go into the groove station and cast joint conveyer flow direction next process, can realize that the automatic supply moulds the shell through the cooperation of each cylinder in above-mentioned flow, the cooperation utmost point crowd goes into the groove machine and accomplishes utmost point crowd and go into the groove operation.

The utility model discloses a be equipped with the quantity of shell passageway, transfer passageway and entering groove passageway and be two, can once only accomplish two utmost point crowd's of moulding the shell and go into the groove, the operating efficiency doubles, has realized the effect of high-efficient automatic continuous transport, guarantees the supply of follow-up cast joint raw and other materials, effectively matches the operating efficiency of cast joint.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the plastic casing device for storage battery of the present invention.

Fig. 2 is a schematic diagram of a shell-preparing channel, a transfer channel and a slot-entering channel of the plastic shell-supplying device for a storage battery.

Fig. 3 is a schematic diagram of the plastic casing moving to the casing preparation station of the plastic casing supplying device for the storage battery.

Fig. 4 is a schematic diagram of the plastic shell moving to the transfer plate of the plastic shell supplying device for the storage battery of the present invention.

Fig. 5 is a schematic diagram of the utility model showing that the plastic casing of the plastic casing supplying device suitable for the storage battery moves to the groove-entering station.

The reference numbers in the drawings are as follows: the device comprises a storage box 1, a plastic shell conveyor 2, a rack 201, a conveying belt 202, a clamping cylinder 3, a retaining plate 4, a first base 5, a first supporting plate 6, a first cylinder 7, a first bulge 8, a pushing cylinder 9, a transfer plate 10, a second bulge 11, a second base 12, a second supporting plate 13, a second cylinder 14, a third bulge 15, a clamping jaw cylinder 16, a clamping plate 17, a lifting baffle 18, a cast-weld conveyor 19, a plastic shell 20, a clamping plate 21, a guide rod 22, a spare shell channel 23, a transfer channel 24, a guide rod two, a groove channel 26 and a pushing plate 27.

Detailed Description

The following detailed description of the embodiments of the present invention is made with reference to the accompanying drawings:

as shown in fig. 1 to 5, a plastic casing supplying device suitable for a storage battery includes a plastic casing conveyor 2 and a storage tank 1 disposed above the plastic casing conveyor 2 and used for storing a plastic casing 20, the plastic casing conveyor 2 includes a frame 201 and two conveying belts 202 disposed on the frame 201, the two conveying belts 202 are disposed at intervals and operate synchronously, so as to convey the plastic casing 20.

All opening about storage tank 1, be provided with a plurality of moulds 20 in the storage tank 1, it is a plurality of mould 20 is the array, piles up from top to bottom and lay, and storage has a large amount of moulds 20 in storage tank 1, is provided with the cylinder on the storage tank 1 lateral wall, through cylinder control storage tank 1 in mould 20 transfer, mould 20 drop to conveyor belt 202 on, this is prior art, and here is no longer repeated.

The plastic shell 20 is arranged between the two conveying belts 202, that is, the width of the plastic shell 20 is the distance between the two conveying belts 202, the two conveying belts 202 move synchronously, so that the plastic shell 20 is driven to move forwards, and in the moving process, the rack 201 limits the plastic shell 20 and prevents the plastic shell 20 from deflecting.

In this embodiment, the rack 201 is sequentially provided with the storage tank 1, the clamping cylinder 3, the shell preparation station and the shell blocking plate 4. The storage tank 1 supplies the molded cases 20 onto the molded case conveyor 2, the molded cases 20 move along the molded case conveyor 2,

in order to sequentially convey the plastic cases 20 forwards, the number of the clamping cylinders 3 is two, the clamping cylinders 3 are respectively and correspondingly arranged on two sides of the rack 201, the clamping cylinders 3 are connected with clamping plates 21, the two clamping plates 21 clamp the plastic cases 20 to limit transmission, and the plastic cases 20 can be transmitted to the next station one by one.

The shell preparation station is arranged between the two conveying belts 202 and comprises a first base 5, a first supporting plate 6 and a first cylinder 7 for connecting the first base 5 with the first supporting plate 6, and a first protrusion 8 is arranged in the middle of the first supporting plate 6.

Specifically, the first supporting plate 6 can be driven to lift up and down through the first air cylinder 7, and the first supporting plate 6 can exceed the upper plane of the rack 201 or be lower than the upper plane of the rack 201. In order to ensure the lifting stability of the supporting plate I6, a guide rod I22 is further arranged between two sides of the supporting plate I6 and the base I5, and the guide rod I22 penetrates through the base I5 to slide up and down.

The cross section of the first protrusion 8 is rectangular, and two standby shell channels 23 are formed on two sides of the first protrusion 8, so that two plastic shells 20 can be carried.

Two sides of the frame 201 corresponding to the shell preparation station are respectively provided with a pushing cylinder 9 and a middle rotating plate 10, and the pushing cylinder 9 is provided with a pushing plate 27. The section of the transit plate 10 is U-shaped, the middle part of the transit plate 10 is provided with a second bulge 11, the section of the second bulge 11 is rectangular, and two sides of the second bulge 11 and the transit plate 10 surround to form two transit channels 24.

The spare shell channel 23 is correspondingly communicated with the transfer channel 24, and the plastic shell 20 in the spare shell channel 23 can be pushed into the transfer channel 24 through the pushing cylinder 9.

And a groove entering station is correspondingly arranged on one side of the transfer plate 10 and is matched with the pole group groove entering machine to complete the pole group groove entering operation. The groove entering station comprises a second base 12, a second supporting plate 13 and a second cylinder 14 for connecting the second base 12 with the second supporting plate 13, and a third bulge 15 is arranged in the middle of the second supporting plate 13.

The second supporting plate 13 can be driven to lift up and down through the second air cylinder 14, in order to ensure the stability of the lifting of the second supporting plate 13, a second guide rod 25 is further arranged between the two sides of the second supporting plate 13 and the second base 12, and the second guide rod 25 penetrates through the second base 12 to slide up and down.

And a clamping jaw air cylinder 16 is further arranged below the second supporting plate 13, clamping plates 17 are connected to two sides of the clamping jaw air cylinder 16, the clamping plates 17 upwards extend out of the second supporting plate 13, and the clamping plates 17 are used for clamping the plastic shell 20 to realize fixation. The section of the third bulge 15 is rectangular, the third bulge 15 and the clamping plate 17 are encircled to form two groove-entering channels 26, and the groove-entering channels 26, the transfer channel 24 and the spare shell channel 23 are sequentially and correspondingly communicated.

The plastic case 20 in the transit passage 24 can be pushed into the groove-entering passage 26 by the pushing cylinder 9. In order to limit the plastic shell 20 and ensure that the plastic shell is just positioned in the groove-entering channel 26, a lifting baffle 18 is arranged on one side of the second supporting plate 13, and the lifting baffle 18 comprises a plate body and a lifting cylinder for driving the plate body to move up and down.

And a cast-weld conveyor 19 is correspondingly arranged on one side of the groove-entering station, and the plastic shell 20 in the groove-entering channel 26 can be pushed onto the cast-weld conveyor 19 through a pushing cylinder and is conveyed to the next cast-weld process.

The utility model discloses the working procedure is as follows generally: the method comprises the following steps: the storage tank 1 supplies the molded case 20 onto the molded case conveyor 2. Step two: the mold shell conveyor 2 supplies the mold shells 20 to the shell preparation lane 23 of the shell preparation station. Step three: the pushing cylinder 9 pushes the plastic shell 20 in the shell preparing channel 23, and the plastic shell 20 passes through the transfer channel 24 to the groove entering channel 26 of the groove entering station. Step four: the pole group slot-in machine inserts the pole group into the plastic housing 20. Step five: the push cylinder 9 pushes the plastic housing 20, which is inserted into the slot passage 26, to the cast-on conveyor 19.

In the second step, the plastic shells 20 are arranged on the plastic shell conveyor 2 in order, and under the action of the clamping cylinder 3, the plastic shells 20 are sequentially lowered and flow to the shell preparation stations. In an initial state, the first bulge 8 is lower than the conveying belt 202, the clamping cylinder 3 controls one plastic shell 20 to descend, the plastic shell 20 moves to the position of the shell blocking plate 4 and does not move any more, and at the moment, the plastic shell 20 is located in the shell preparing channel 23; the first air cylinder 7 acts to enable the first bulge 8 to rise above the upper plane of the conveying belt 202, the clamping air cylinder 3 controls the plastic shell 20 to be lowered, the plastic shell 20 moves to the first bulge 8 and does not move any more, the plastic shells 20 are arranged in the two plastic shell 20 channels at the moment, and the plastic shells 20 are vertically supported by the conveying belt 202 and transversely limited to move by the first bulge 8 and the shell blocking plate 4 respectively. The first air cylinder 7 is operated again to lift the first bracing plate 6 above the upper plane of the frame 201, and the plastic shell 20 is supported by the first bracing plate 6.

In the third step, the pushing cylinder 9 is started, and the two plastic cases 20 in the case preparation channel 23 pass through the transfer channel 24 of the transfer plate 10 through the pushing plate 27 until being pushed into the groove entering channel 26 and abut against the lifting baffle 18. Meanwhile, the cylinder I7 descends to drive the protrusion I8 to return to the initial state.

In the fourth step, the clamping jaw air cylinder 16 is started to drive the two clamping plates 17 to clamp the two plastic cases 20 to realize fixation, the lifting baffle 18 descends to not limit the plastic cases 20, the second cylinder 14 is started to drive the second supporting plate 13 to ascend, the polar group is inserted into the two plastic cases 20 by the polar group groove entering machine, and the second supporting plate 13 descends.

In the fifth step, after the second supporting plate 13 descends, the clamping plate 17 no longer clamps the plastic shell 20, the pushing cylinder 9 is started to push the two plastic shells 20 together to the cast-weld conveyor 19, and the next cast-weld process is performed. Namely, the operation of two pole groups for entering the slots is completed simultaneously, the steps from two to five are repeated, the plastic shell 20 can be continuously supplied, and the operation of entering the slots of the pole groups is completed in a matching and uninterrupted manner.

The above-mentioned embodiments are merely preferred embodiments of the present invention, and not intended to limit the scope of the present invention, so that equivalent changes or modifications made by the structure, features and principles of the present invention should be included in the claims of the present invention.

Claims (6)

1. The plastic shell supplying device suitable for the storage battery comprises a plastic shell conveyor (2) and a storage box (1) arranged above the plastic shell conveyor (2), and is characterized in that the plastic shell conveyor (2) comprises a rack (201) and two conveying belts (202) arranged on the rack (201);

the storage box (1), the clamping cylinder (3), the shell preparation station and the shell blocking plate (4) are sequentially arranged on the rack (201), the shell preparation station is arranged between the two conveying belts (202), the shell preparation station comprises a base I (5), a supporting plate I (6) and a cylinder I (7) for connecting the base I (5) and the supporting plate I (6), and a protrusion I (8) is arranged in the middle of the supporting plate I (6);

a pushing cylinder (9) and a transferring plate (10) are respectively arranged on two sides of the frame (201) corresponding to the shell preparation station, a pushing plate (27) is arranged on the pushing cylinder (9), the section of the transferring plate (10) is U-shaped, and a second protrusion (11) is arranged in the middle of the transferring plate (10);

a groove entering station is correspondingly arranged on one side of the transfer plate (10), the groove entering station comprises a second base (12), a second supporting plate (13) and a second air cylinder (14) for connecting the second base (12) with the second supporting plate (13), a third bulge (15) is arranged in the middle of the second supporting plate (13), a clamping jaw air cylinder (16) is further arranged below the supporting plate, clamping plates (17) are connected to two sides of the clamping jaw air cylinder (16), the clamping plates (17) extend upwards out of the second supporting plate (13), and a lifting baffle (18) is arranged on one side of the second supporting plate (13);

and a cast-weld conveyor (19) is correspondingly arranged on one side of the groove entering station.

2. The plastic supplying housing device for the storage battery as claimed in claim 1, wherein a plurality of plastic housings (20) are disposed in the storage tank (1), the plurality of plastic housings (20) are arranged in an array and stacked up and down, and the plastic housings (20) are arranged between two conveying belts (202);

the clamping cylinders (3) are arranged in two numbers, the clamping cylinders (3) are correspondingly arranged on two sides of the rack (201) respectively, clamping plates (21) are connected to the clamping cylinders (3), and the plastic shell (20) is clamped by the clamping plates (21) to limit transmission.

3. The plastic case supplying device for the storage battery according to claim 1, wherein a first guide rod (22) is further disposed between both sides of the first supporting plate (6) and the first base (5), and the first guide rod (22) slides up and down through the first base (5);

the cross section of the first bulge (8) is rectangular, and two spare shell channels (23) are formed on two sides of the first bulge (8).

4. The plastic supplying housing assembly for the storage battery according to claim 3, wherein the second protrusion (11) has a rectangular cross section, and two sides of the second protrusion (11) and the middle rotating plate (10) surround to form two middle rotating channels (24).

5. The plastic supplying housing device for the storage battery as claimed in claim 4, wherein a second guide rod (25) is further disposed between two sides of the second supporting plate (13) and the second base (12), and the second guide rod (25) passes through the second base (12) to slide up and down;

the cross section of the three protrusions (15) is rectangular, the three protrusions (15) and the clamping plate (17) surround to form two groove-entering channels (26), and the groove-entering channels (26), the transfer channel (24) and the shell-preparing channel (23) are sequentially communicated with one another correspondingly.

6. The plastic case supplying device for the battery according to claim 1, wherein the elevating baffle (18) comprises a plate body and an elevating cylinder for driving the plate body up and down.

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