CN217050618U

CN217050618U - Storage and taking device for battery insulation sheets

Info

Publication number: CN217050618U
Application number: CN202220282155.9U
Authority: CN
Inventors: 宾兴; 曹强; 刘成; 彭强; 唐延弟; 谭震涛; 徐骏
Original assignee: Shenzhen Sinvo Automatic Co Ltd
Current assignee: Shenzhen Sinvo Automatic Co Ltd
Priority date: 2022-02-11
Filing date: 2022-02-11
Publication date: 2022-07-26
Anticipated expiration: 2032-02-11

Abstract

The utility model discloses a battery insulating sheet storage and taking device, which comprises a material box and a material taking platform, wherein the material box is provided with a trough with an open top, at least two insulating sheets are stacked up and down in the trough, the size of the trough is adjustable, the bottom of the trough is provided with a material taking port, and the size of the material taking port is smaller than that of the insulating sheets; the material taking platform is arranged below the material box and moves between the material box and the chip mounting mechanism along the linear direction, the material taking platform is driven to descend after sucking the insulating sheet on the lowest position in the material groove through the material taking hole from the lower direction, the insulating sheet is taken out after being deformed along the material taking hole, and the insulating sheet taken out by the material taking platform is transferred to the chip mounting mechanism to be sucked. The utility model discloses an insulating piece mass storage and the adjustable function of storage space size guarantee feed efficiency and supplied insulating piece type diversification effectively, have realized that the insulating piece is automatic to be got material and pay-off, have promoted insulating piece feed efficiency effectively.

Description

Storage and taking device for battery insulation sheets

Technical Field

The utility model relates to an automated production field indicates a battery insulation piece storage extracting device very much.

Background

With the development of new energy greatly promoted by the state, the demand of various industries on the lithium ion power battery is increasing day by day, and in the back-end manufacturing process of the lithium ion power battery, the battery needs to be coated with a blue film, and the blue film mainly plays a role in protecting the battery and avoiding the external scratch of the battery or the corrosion of electrolyte.

Since the blue film is generally in a band-shaped structure, in an automatic coating production line, the four side surfaces of the battery are coated by the band-shaped blue film along the battery transmission direction, and the other two side surfaces are in a state of not coating the blue film, therefore, in a post-process of blue film coating, an insulating sheet needs to be attached to the non-coated surface to ensure the coating integrity of the battery.

In the insulating sheet attaching process, the following technical problems need to be solved: because the insulation sheets are required to be connected and adhered to the high-speed automatic coating production line, the problem of large-batch storage and supply of the insulation sheets needs to be solved, and the feeding efficiency of the insulation sheets is ensured to be matched with the whole line capacity; meanwhile, the problem of size adjustment of a material storage space needs to be solved in the material storage process so as to adapt to storage of insulation sheets with various sizes; in addition, still need solve the automation of insulating piece and get material and pay-off problem.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is not enough to above-mentioned prior art, provide one kind and realized insulating piece mass storage and storage space size adjustable function, guarantee feed efficiency and the insulating piece type that supplies diversified effectively, realized that the insulating piece is automatic to be got material and pay-off, promoted insulating piece feed efficiency's battery insulating piece storage extracting device effectively.

The utility model discloses the technical scheme who takes as follows: a storage and taking device for battery insulating sheets comprises a material box and a taking platform, wherein the material box is provided with a material groove with an open top, at least two insulating sheets are vertically stacked in the material groove, the size of the material groove is adjustable, a taking port is arranged at the bottom of the material groove, and the size of the taking port is smaller than that of the insulating sheets; the material taking platform is arranged below the material box and moves between the material box and the surface mounting mechanism along the linear direction, the material taking platform sucks the insulating sheet on the lowest part in the material groove from the lower part through the material taking hole, the insulating sheet is driven to descend, the insulating sheet is taken out after deformation of the material taking hole, and the insulating sheet taken out by the material taking platform is transferred to the surface mounting mechanism to be absorbed.

Preferably, the material box comprises a material box support, a fixed support plate and a movable support plate part, wherein a horizontal support part is arranged at the upper part of the material box support, a material taking channel is arranged below the horizontal support part, a material box sliding rail is arranged on the horizontal support part, and a material taking port is formed in the middle of the horizontal support part; the fixed support plate is vertically arranged on one side of the material taking port; the movable support plate component is arranged on the other side of the material taking opening and can freely slide along the material box sliding rail.

Preferably, the movable support plate part comprises a movable support plate and a first limiting nut, wherein the movable support plate is vertically arranged and is connected with the material box slide rail in a sliding manner; the first limiting nut is arranged on the movable support plate and is in threaded connection with the movable support plate, and the first limiting nut is rotated so as to fix the movable support plate on the material box support.

Preferably, the movable support plate part further comprises two groups of magazine limiting parts, and the two groups of magazine limiting parts are respectively arranged on the movable support plate and freely move along the direction perpendicular to the magazine sliding rail.

Preferably, the material box limiting part comprises a material box limiting sliding seat, a second limiting nut and a material box limiting plate, wherein the material box limiting sliding seat is slidably arranged on the upper part of the movable support plate along the direction perpendicular to the material box sliding rail; the second limiting nut is arranged on the material box limiting sliding seat and is in threaded connection with the material box limiting sliding seat so as to fix the material box limiting sliding seat after the position is adjusted; the upper parts of the material box limiting plates are connected to the material box limiting sliding seat and extend downwards along the vertical direction, and a material groove A is formed between the two material box limiting plates and the fixed supporting plate and between the two material box limiting plates and the movable supporting plate.

Preferably, the material taking platform comprises a material taking linear driving part, a material taking lifting driving part and a material taking suction seat, wherein the material taking linear driving part is arranged in the material taking channel, and the power output direction of the material taking linear driving part extends along the direction of the material taking channel; the material taking lifting driving part is arranged on the material taking linear driving part and is driven by the material taking linear driving part to move linearly, and the output end of the material taking lifting driving part is arranged along the vertical direction; the material taking suction seat is horizontally arranged at the output end of the material taking lifting driving part.

Preferably, the material taking linear driving part comprises a material taking slide rail, a material taking cylinder and a material taking slide seat, wherein the material taking slide rail is horizontally arranged; the material taking slide seat is connected to the material taking slide rail in a sliding manner; the material taking cylinder is arranged on one side of the material taking slide rail, and the output end of the material taking cylinder is connected with the material taking slide seat, so that the material taking slide seat is driven to move linearly along the material taking slide rail.

Preferably, the material taking lifting driving part comprises a material taking lifting cylinder, the material taking lifting cylinder is arranged on the material taking sliding seat, and the output end of the material taking lifting cylinder is arranged upwards; get material and inhale the seat level setting and get on the output of material lift cylinder, get material and inhale the seat surface and laid vacuum suction hole to through vacuum negative pressure adsorption fixed insulation piece.

The beneficial effects of the utility model reside in that:

the utility model discloses defect and not enough independent research and development to prior art existence have designed one kind and have realized insulating piece mass storage and memory space size adjustable function, guarantee feed efficiency and the insulating piece type that supplies diversified effectively, have realized that the insulating piece is automatic to be got material and pay-off, have promoted insulating piece feed efficiency's battery insulating piece storage extracting device effectively. The utility model discloses be applied to the insulating piece technology of pasting of battery automation diolame production line back end, its main effect lies in having realized the bulk storage of insulating piece and the storage of polymorphic type or multi-size insulating piece, has reduced insulating piece feed stand-by time; meanwhile, automatic material taking and feeding of the insulating sheet are realized, efficient connection of a material supply end and a use end (a chip mounting mechanism) of the insulating sheet is realized, and the material supply efficiency of the insulating sheet is integrally improved.

The feeding device comprises a feeding box and a feeding platform which are arranged up and down, wherein the feeding box takes a feeding box support with an inverted U-shaped structure as a bearing carrier, a feeding channel is formed below the feeding box support, two feeding box slide rails are arranged on the feeding box support in parallel at intervals, and a feeding port which is communicated up and down is arranged between the two feeding box slide rails; a fixed support plate and a movable support plate are arranged on two sides of the material taking port, wherein the movable support plate moves linearly along the material box slide rail so as to adjust the size of the material adjusting groove in the width direction, and the movable support plate with the adjusted size is fixedly connected with the material box support through a first limiting nut in threaded connection; meanwhile, two material box limiting sliding seats are slidably embedded in the upper part of the movable support plate, the material box limiting sliding seats drive material box limiting plates which are connected below the material box limiting sliding seats and vertically extend downwards to linearly move along the direction perpendicular to the material box sliding rail, the size of the material groove in the width direction is adjusted through the material box limiting plates, and the material box limiting sliding seats are fixedly connected with the movable support plate through second limiting nuts in threaded connection with the material box limiting plates; thereby form the silo with adjustable width direction and length direction's size to adapt to the insulating piece storage of unidimensional or type, place in the silo after vertical direction coincide along the multi-disc insulating piece, realize insulating piece large capacity storage, and because the material taking opening size of silo bottom is less than the insulating piece size, the material taking opening week is along bearing the insulating piece. After a material taking platform arranged in a material taking channel moves to the position below a material taking port, the material taking platform drives a material taking suction seat to penetrate through the material taking port from the lower side and adsorb and fix an insulating sheet on the lowest layer in a material groove, and then the insulating sheet is pulled downwards to be taken out downwards after being deformed along the inner wall of the material taking port, and the upper insulating sheet and the lower insulating sheet can be separated from each other by deformation force generated by the deformation material taking mode, so that the condition that a plurality of insulating sheets are taken out in the material taking process is effectively avoided; the insulating piece after taking out removes to paster mechanism below along with getting the material platform and absorbs through paster mechanism is automatic to realized the insulating piece from the storage, got material, the feed is automatic, promoted insulating piece feed efficiency effectively.

Drawings

Fig. 1 is a schematic view of a three-dimensional structure of the present invention.

Fig. 2 is a second schematic perspective view of the present invention.

Fig. 3 is a third schematic view of the three-dimensional structure of the present invention.

Fig. 4 is a fourth schematic view of the three-dimensional structure of the present invention.

Fig. 5 is a fifth schematic view of the three-dimensional structure of the present invention.

Detailed Description

The invention will be further described with reference to the accompanying drawings:

as shown in fig. 1 to 5, the technical solution adopted by the present invention is as follows: a storage and taking device for battery insulating sheets comprises a material box and a taking platform, wherein the material box is provided with a material groove with an open top, at least two insulating sheets are stacked in the material groove up and down, the size of the material groove can be adjusted, a material taking opening is formed in the bottom of the material groove, and the size of the material taking opening is smaller than that of the insulating sheets; the material taking platform is arranged below the material box and moves between the material box and the surface mounting mechanism along the linear direction, the material taking platform sucks the insulating sheet on the lowest part in the material groove from the lower part through the material taking hole, the insulating sheet is driven to descend, the insulating sheet is taken out after deformation of the material taking hole, and the insulating sheet taken out by the material taking platform is transferred to the surface mounting mechanism to be absorbed.

The material box 91 comprises a material box support 911, a fixed support 914 and a movable support part, wherein the upper part of the material box support 911 is provided with a horizontal support part, a material taking channel is arranged below the horizontal support part, the horizontal support part is provided with a material box slide rail, and the middle part of the horizontal support part is provided with a material taking port; the fixed support plate 914 is vertically arranged on one side of the material taking port; the movable support plate component is arranged on the other side of the material taking opening and can freely slide along the material box sliding rail.

The movable support plate component comprises a movable support plate 912 and a first limiting nut 913, wherein the movable support plate 912 is vertically arranged and is connected with the magazine sliding rail in a sliding manner; the first limiting nut 913 is arranged on the movable support plate 912 and is in threaded connection with the movable support plate 912, and the first limiting nut 913 is rotated so as to fix the movable support plate 912 on the cartridge seat 911.

The movable support plate part also comprises two groups of material box limiting parts which are respectively arranged on the movable support plate 912 and freely move along the direction vertical to the material box slide rail.

The material box limiting part comprises a material box limiting sliding seat 915, a second limiting nut 916 and a material box limiting plate 917, wherein the material box limiting sliding seat 915 is slidably arranged on the upper part of the movable support plate 912 along a direction perpendicular to the material box sliding rail; the second limiting nut 916 is disposed on the magazine limiting slide 915 and is in threaded connection with the magazine limiting slide 915, so as to fix the magazine limiting slide 915 after the position is adjusted; the upper parts of the magazine limiting plates 917 are connected to the magazine limiting slide 915 and extend downward in the vertical direction, and a trough a is formed between the two magazine limiting plates 917 and the fixed support 914 and the movable support 912.

The material taking platform 92 comprises a material taking linear driving part, a material taking lifting driving part and a material taking suction seat 925, wherein the material taking linear driving part is arranged in the material taking channel, and the power output direction of the material taking linear driving part extends along the direction of the material taking channel; the material taking lifting driving part is arranged on the material taking linear driving part and is driven by the material taking linear driving part to move linearly, and the output end of the material taking lifting driving part is arranged along the vertical direction; the material taking suction seat 925 is horizontally arranged at the output end of the material taking lifting driving part.

The material taking linear driving component comprises a material taking slide rail 921, a material taking cylinder 922 and a material taking slide seat 923, wherein the material taking slide rail 921 is horizontally arranged; the material taking slide base 923 is slidably connected to the material taking slide rail 921; the material taking cylinder 922 is arranged on one side of the material taking slide rail 921, and the output end of the material taking cylinder is connected with the material taking slide seat 923, so that the material taking slide seat 923 is driven to move linearly along the material taking slide rail 921.

The material taking lifting driving component comprises a material taking lifting cylinder 924, the material taking lifting cylinder 924 is arranged on the material taking sliding seat 923, and the output end of the material taking lifting cylinder is arranged upwards; get material suction base 925 level and set up on getting the output of material lift cylinder 924, get material suction base 925 surface and laid the vacuum and inhale the hole to fix the insulating piece through vacuum negative pressure absorption.

Further, the utility model discloses a realized insulating piece mass storage and storage space size adjustable function, guaranteed effectively that feedefficiency and supplied insulating piece type are diversified, realized that the insulating piece is automatic to be got material and pay-off, promoted insulating piece feedefficiency's battery insulating piece storage extracting device effectively. The utility model discloses be applied to the insulating piece technology of pasting of battery automation diolame production line back end, its main effect lies in having realized the bulk storage of insulating piece and the storage of polymorphic type or multi-size insulating piece, has reduced insulating piece feed stand-by time; meanwhile, automatic material taking and feeding of the insulating sheet are realized, efficient connection of a material supply end and a use end (a chip mounting mechanism) of the insulating sheet is realized, and the material supply efficiency of the insulating sheet is integrally improved.

Specifically, the utility model comprises a material box and a material taking platform which are arranged up and down, wherein the material box takes a material box support with an inverted U-shaped structure as a bearing carrier, a material taking channel is formed below the material box support, two material box slide rails are arranged on the material box support at intervals in parallel, and a material taking port which is communicated up and down is arranged between the two material box slide rails; a fixed support plate and a movable support plate are arranged on two sides of the material taking port, wherein the movable support plate moves linearly along the material box slide rail so as to adjust the size of the material adjusting groove in the width direction, and the size-adjusted movable support plate is fixedly connected with the material box support through a first limiting nut in threaded connection with the size-adjusted movable support plate; meanwhile, two material box limiting sliding seats are slidably embedded in the upper part of the movable support plate, the material box limiting sliding seats drive a material box limiting plate which is connected below the material box limiting sliding seats and vertically extends downwards to linearly move along the direction vertical to a material box sliding rail, the size of the material groove in the width direction is adjusted through the material box limiting plate, and the material box limiting sliding seats are fixedly connected with the movable support plate through second limiting nuts in threaded connection with the material box limiting sliding seats; thereby form the silo with adjustable width direction and length direction's size to adapt to the insulating piece storage of unidimensional or type, place in the silo after the vertical direction coincide along the multi-disc insulating piece, realize insulating piece large capacity storage, and because the material taking opening size of silo bottom is less than the insulating piece size, material taking opening week is along bearing the insulating piece. After a material taking platform arranged in a material taking channel moves to the position below a material taking port, the material taking platform drives a material taking suction seat to penetrate through the material taking port from the lower side and adsorb and fix an insulating sheet on the lowest layer in a material groove, and then the insulating sheet is pulled downwards to be taken out downwards after being deformed along the inner wall of the material taking port, and the upper insulating sheet and the lower insulating sheet can be separated from each other by deformation force generated by the deformation material taking mode, so that the condition that a plurality of insulating sheets are taken out in the material taking process is effectively avoided; the insulating piece after taking out removes to paster mechanism below along with getting the material platform and absorbs through paster mechanism is automatic to realized the insulating piece from the storage, got material, the feed is automatic, promoted insulating piece feed efficiency effectively.

The embodiments of the present invention are only for describing the specific implementation thereof, and are not limited to the scope of protection thereof. The present invention is not limited to the above embodiments, but can be modified in various ways without departing from the scope of the present invention.

Claims

1. The utility model provides a battery insulation piece storage extracting device which characterized in that: the material taking device comprises a material box and a material taking platform, wherein the material box is provided with a material groove with an open top, at least two insulating sheets are stacked in the material groove from top to bottom, the size of the material groove is adjustable, a material taking opening is formed in the bottom of the material groove, and the size of the material taking opening is smaller than that of the insulating sheets; the material taking platform is arranged below the material box and moves between the material box and the surface mounting mechanism along the linear direction.

2. The battery insulation sheet storage reclaiming device of claim 1, which is characterized in that: the material box (91) comprises a material box support (911), a fixed support plate (914) and a movable support plate component, wherein a horizontal support part is arranged at the upper part of the material box support (911), a material taking channel is arranged below the horizontal support part, a material box sliding rail is arranged on the horizontal support part, and a material taking port is formed in the middle of the horizontal support part; the fixed support plate (914) is vertically arranged on one side of the material taking port; the movable support plate part is arranged on the other side of the material taking opening and can freely slide along the material box slide rail.

3. The battery insulating sheet storage reclaiming device of claim 2, which is characterized in that: the movable support plate component comprises a movable support plate (912) and a first limiting nut (913), wherein the movable support plate (912) is vertically arranged and is connected with the material box sliding rail in a sliding manner; the first limiting nut (913) is arranged on the movable support plate (912) and is in threaded connection with the movable support plate (912), and the first limiting nut (913) is rotated so as to fix the movable support plate (912) on the magazine support (911).

4. The battery insulation sheet storage and extracting device of claim 3, which is characterized in that: the movable support plate component also comprises two groups of material box limiting components, and the two groups of material box limiting components are respectively arranged on the movable support plate (912) and freely move along the direction vertical to the material box slide rail.

5. The battery insulation sheet storage and extracting device of claim 4, which is characterized in that: the material box limiting part comprises a material box limiting sliding seat (915), a second limiting nut (916) and a material box limiting plate (917);

the magazine limiting sliding seat (915) is slidably arranged on the upper part of the movable support plate (912) along the direction vertical to the magazine sliding rail; the second limiting nut (916) is arranged on the material box limiting sliding seat (915) and is in threaded connection with the material box limiting sliding seat (915) so as to fix the material box limiting sliding seat (915) after the position is adjusted;

the upper parts of the magazine limiting plates (917) are connected to the magazine limiting sliding seat (915) and extend downwards along the vertical direction, and a trough (A) is formed between the two magazine limiting plates (917) and the fixed support plate (914) and the movable support plate (912).

6. The battery insulation sheet storage reclaiming device of claim 2, which is characterized in that: the material taking platform (92) comprises a material taking linear driving part, a material taking lifting driving part and a material taking suction seat (925);

the material taking linear driving component is arranged in the material taking channel, and the power output direction of the material taking linear driving component extends along the direction of the material taking channel; the material taking lifting driving part is arranged on the material taking linear driving part and is driven by the material taking linear driving part to move linearly, and the output end of the material taking lifting driving part is arranged along the vertical direction; the material taking suction seat (925) is horizontally arranged at the output end of the material taking lifting driving part.

7. The battery insulation sheet storage and extracting device of claim 6, which is characterized in that: the material taking linear driving component comprises a material taking slide rail (921), a material taking cylinder (922) and a material taking slide seat (923);

wherein, the material taking slide rail (921) is horizontally arranged; the material taking sliding seat (923) is connected to the material taking sliding rail (921) in a sliding manner; the material taking cylinder (922) is arranged on one side of the material taking slide rail (921), and the output end of the material taking cylinder is connected with the material taking slide seat (923), so that the material taking slide seat (923) is driven to move linearly along the material taking slide rail (921).

8. The battery insulation sheet storage and extracting device of claim 7, which is characterized in that: the material taking lifting driving component comprises a material taking lifting cylinder (924), the material taking lifting cylinder (924) is arranged on the material taking sliding seat (923), and the output end of the material taking lifting cylinder is arranged upwards; get material suction seat (925) level setting get on the output of material lift cylinder (924), get material suction seat (925) surface and laid vacuum suction hole to fix the insulating piece through vacuum negative pressure absorption.