CN218641257U - Battery piece material collecting device - Google Patents

Abstract

The utility model provides a battery piece material collecting device, including conveying mechanism, receiving agencies, isolation paper feed mechanism and transport mechanism, wherein: the conveying mechanism is used for conveying the battery piece, and a material receiving station is at least arranged on a conveying path of the conveying mechanism; the carrying mechanism is used for picking up the battery pieces conveyed to the material receiving station from the conveying mechanism, stacking the picked battery pieces into the material receiving mechanism, picking up the isolation paper stored in the isolation paper feeding mechanism from the isolation paper feeding mechanism, and stacking the isolation paper onto the battery pieces in the material receiving mechanism. The utility model provides a battery piece material collecting device, transport mechanism can stack the barrier paper in the barrier paper feed mechanism to the battery piece when stacking the battery piece that conveying mechanism carried to receiving agencies. Receive the material mode with current battery piece and compare, the utility model provides a battery piece receives material efficiency is promoted to equipment cost has been reduced.

Description

Battery piece material collecting device

Technical Field

The utility model belongs to the technical field of battery production and specifically relates to a battery piece material collecting device.

Background

After the production of the battery pieces, the battery pieces need to be collected into a material box, and for some battery pieces with surfaces which are easy to scratch, such as IBC and HJT battery pieces, when the battery pieces exist, isolation paper needs to be stacked between the adjacent battery pieces.

At present, when the battery piece is received, the isolation paper is generally stacked manually or by additionally arranging an isolation paper feeding mechanism, so that the efficiency of manually stacking the isolation paper is low, and the equipment cost is increased by additionally arranging the isolation paper feeding mechanism.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a battery piece material collecting device, it adopts following technical scheme:

the utility model provides a battery piece material collecting device, includes conveying mechanism, receiving agencies, isolation paper feed mechanism and transport mechanism, wherein:

the conveying mechanism is used for conveying the battery pieces, and a material receiving station is at least arranged on a conveying path of the conveying mechanism;

the carrying mechanism is used for picking up the battery pieces conveyed to the material receiving station from the conveying mechanism, stacking the picked battery pieces into the material receiving mechanism, picking up the isolation paper stored in the isolation paper feeding mechanism from the isolation paper feeding mechanism, and stacking the isolation paper onto the battery pieces in the material receiving mechanism.

The utility model provides a battery piece material collecting device, transport mechanism can stack the barrier paper in the barrier paper feed mechanism to the battery piece when stacking the battery piece that conveying mechanism carried to receiving agencies. Receive the material mode with current battery piece and compare, the utility model provides a battery piece receives material efficiency is promoted to equipment cost has been reduced.

In some embodiments, the handling mechanism comprises a rotating part, a first suction part and a second suction part, wherein: first absorption portion and second absorption portion are connected on the rotation portion, and the rotation portion drives first absorption portion, second absorption portion synchronous revolution to realize that first absorption portion switches in the position of receiving between material station and receiving agencies, second absorption portion between barrier paper feed mechanism and receiving agencies: when the first suction part rotates to the material receiving station, the second suction part rotates to the material receiving mechanism; when the first suction part rotates to the receiving mechanism, the second suction part rotates to the isolation paper feeding mechanism.

Through set transport mechanism to including rotation portion, first absorption portion and second absorption portion, realized: under the rotary driving of the first rotating portion, the first absorbing portion receives the battery piece at the receiving station to the receiving mechanism, and the second absorbing portion synchronously stacks the isolation paper picked up from the isolation paper feeding mechanism onto the battery piece, so that the receiving efficiency is further improved.

In some embodiments, the first suction portion and the second suction portion each comprise a mounting plate and at least one bernoulli chuck mounted on the mounting plate.

The Bernoulli sucker can automatically adsorb the battery piece to the sucker by blowing air into the sucker to generate internal and external pressure difference, so that non-contact suction is realized, and the damage of the traditional downward-pressing sucker to the battery piece is avoided.

In some embodiments, the receiving mechanism comprises a first feeding mechanism, a first receiving box, wherein: the first material receiving box is arranged on a movable part of the first feeding mechanism, and the first feeding mechanism is used for driving the first material receiving box to move back and forth between a material receiving position and a first material discharging position along a first horizontal direction; when the first material receiving box is located at the material receiving position, the first material receiving box receives the battery pieces picked up by the carrying mechanism; after the first material receiving box is full of batteries, the first feeding mechanism drives the first material receiving box to a first discharging position, and the batteries in the first material receiving box are taken out at the first discharging position.

Through the drive of first feeding mechanism, make empty first material collecting box can be automatically the material loading receive battery piece to material receiving station department to and will receive the first material collecting box of full battery piece automatically unloading to first ejection of compact position department, in order to take out the first material collecting box collect good pile battery piece.

In some embodiments, the battery piece receiving device further includes a second feeding mechanism, a pushing mechanism and a second receiving box, wherein: the feeding mechanism and the first feeding mechanism are arranged side by side, the pushing mechanism is connected to a movable part of the second feeding mechanism, and the second material collecting box is installed on the movable part of the pushing mechanism; the second feeding mechanism is used for driving the second material receiving box to move between the transfer position and the second material discharging position along the first horizontal direction; the pushing mechanism is used for driving the second material receiving box to move between the transferring position and the material receiving position along a second horizontal direction; when the second material receiving box is located at the transfer position and the first material receiving box is not located at the material receiving position, the pushing mechanism pushes the second material receiving box to the material receiving position so as to receive the battery pieces picked by the carrying mechanism; after the second material receiving box is fully used for receiving the battery pieces, the pushing mechanism pushes the second material receiving box to the transfer position, the second feeding mechanism drives the second material receiving box to the second discharging position, and the battery pieces in the second material receiving box are taken out from the second discharging position.

Through setting up second feed mechanism, push mechanism and second material receiving box, realized that second material receiving box and first material box can get into material receiving position department alternately and implement the material receiving, thereby promote the utility model discloses a material receiving efficiency.

In some embodiments, the separator paper feeding mechanism comprises a magazine and a jacking assembly, wherein: the storage box is used for storing the isolation paper, and a bearing bottom plate of the storage box is configured to be capable of lifting; the jacking assembly is arranged below the storage box and used for jacking the bearing bottom plate upwards.

The bearing bottom plate is upwards jacked through the jacking assembly, so that the isolation paper in the storage box is jacked out of the storage box, and the carrying mechanism can pick up the isolation paper conveniently.

In some embodiments, the release paper feeding mechanism further comprises a sensing component, and the sensing component generates a sensing signal when the bearing bottom plate is jacked to a preset height.

Through setting up response subassembly, when bearing bottom plate by the jacking to predetermined height, the jacking subassembly stops the jacking promptly, prevents that the jacking of bearing bottom plate is excessive.

In some embodiments, the sensing assembly includes a light emitter and a light receiver disposed in pairs at a predetermined height and on either side of the magazine.

Through setting up the light transmitter and the light receiver of correlation, when bearing the bottom plate by the jacking up to predetermined height department, the light of light transmitter is cut off, shows that the jacking of storage box targets in place.

In some embodiments, a detection station positioned in the front of the material receiving station is further arranged on the conveying path of the conveying mechanism; the battery piece receiving device also comprises a detection mechanism and an NG material box, wherein the detection mechanism is used for detecting whether the battery pieces conveyed to the receiving station are qualified battery pieces; the carrying mechanism stacks the qualified battery pieces picked up from the material receiving station into the material receiving mechanism, and places the unqualified battery pieces picked up from the material receiving station into the NG material box.

Through setting up detection mechanism and NG magazine, realized receiving the detection of material preceding to the battery piece, and realized: only the battery pieces qualified in detection are received into the material receiving box, and the battery pieces unqualified in detection are recovered into the NG material box.

In some embodiments, the detection mechanism includes a detection camera and a fill-in light source, wherein the detection camera is located above the detection station, and the fill-in light source is located below the detection station.

The detection camera is through shooing the battery piece in order to implement the detection to the battery piece, and the light filling light source has then realized the light filling of shooing to the camera to further promote detection effect.

Drawings

Fig. 1 is a schematic structural view of a battery piece collecting device provided by the present invention at a viewing angle;

fig. 2 is a schematic structural view of the battery piece collecting device provided by the present invention at another viewing angle;

fig. 3 is a schematic structural view of a carrying mechanism in an embodiment of the present invention;

fig. 4 is a schematic structural view of a material receiving mechanism in an embodiment of the present invention;

FIG. 5 is a schematic structural view of a separator feeding mechanism according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a conveying mechanism in an embodiment of the present invention;

fig. 1 to 6 include:

the conveying mechanism 1:

the device comprises a driving device 11, a supporting mechanism 12, a conveying belt 13 and a light supplementing light source 14;

the receiving agencies 2:

a first feeding mechanism 21, a first material receiving box 22, a second feeding mechanism 23, a pushing mechanism 24 and a second material receiving box 25;

isolation paper feeding mechanism 3:

the storage box 31, the jacking assembly 32 and the sensing assembly 33;

the conveying mechanism 4:

a rotating part 41, a first suction part 42, and a second suction part 43;

a detection mechanism 5;

NG material box 6.

Detailed Description

In order to make the above objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description. It should be noted that in order to facilitate the observation of the various technical features described in the present application, the attached drawings hide part of the connecting structure.

After the production of the battery pieces is finished, the battery pieces need to be collected into the material box, and for some battery pieces with surfaces which are easy to scratch, such as IBC and HJT battery pieces, when the battery pieces exist, isolation paper needs to be stacked between the adjacent battery pieces. At present, when the battery piece is received, the isolation paper is generally stacked manually or by additionally arranging an isolation paper feeding mechanism, so that the efficiency of manually stacking the isolation paper is low, and the equipment cost is increased by additionally arranging the isolation paper feeding mechanism.

In order to solve the above-mentioned problem that current battery piece receipts material mode exists, the utility model provides a novel battery piece material collecting device.

As shown in fig. 1 to fig. 2, the utility model provides a battery piece receiving device includes conveying mechanism 1, receiving agencies 2, barrier paper feeding mechanism 3 and transport mechanism 4, wherein:

the conveying mechanism 1 is used for conveying the battery pieces, and a material receiving station is at least arranged on a conveying path of the conveying mechanism 1.

The conveying mechanism 4 is used for picking up the battery pieces conveyed to the material receiving station from the conveying mechanism 1 and stacking the picked battery pieces into the material receiving mechanism 2. The carrying mechanism 4 is also used for picking up the separation paper from the separation paper feeding mechanism 3 and stacking the separation paper on the battery sheet in the material receiving mechanism 2.

It is visible, through setting up transport mechanism 4, the utility model discloses not only can stack the battery piece that conveying mechanism 1 carried to receiving agencies 2 in, and can stack the barrier paper in barrier paper feed mechanism 3 to the battery piece in receiving agencies 2 on to promote battery piece material collecting efficiency, reduce equipment cost.

As shown in fig. 3, the carrying mechanism 4 may alternatively include a rotating part 41, a first suction part 42, and a second suction part 43, wherein: first absorption portion 42 and second absorption portion 43 are connected on rotation portion 41, and rotation portion 41 is used for driving first absorption portion 42, second absorption portion 43 synchronous revolution to realize that first absorption portion 42 switches in the position between receipts material station and receiving agencies 2, second absorption portion 43 between isolation paper feed mechanism 3 and receiving agencies 2, and is specific:

when the first suction portion 42 rotates to the material receiving station, the second suction portion 43 rotates to the material receiving mechanism 2. At this time, the first suction portion 42 sucks the battery piece from the receiving station, and the second suction portion 43 stacks the sucked separator on the battery piece previously placed on the receiving mechanism 2.

When the first suction portion 42 rotates to the receiving mechanism, the second suction portion 43 rotates to the separator feeding mechanism. At this time, the first suction portion 42 places the sucked battery pieces into the material receiving mechanism 2, and the second suction portion 43 sucks the separator from the separator feeding mechanism 3.

As can be seen, by providing the carrying mechanism 4 to include the rotating portion 41, the first suction portion 42, and the second suction portion 43, it is achieved that: under the rotary driving of the first rotating part 41, the first absorbing part 41 receives the battery piece at the receiving station to the receiving mechanism 2, and the second absorbing part 42 stacks the isolation paper picked up from the isolation paper feeding mechanism 3 onto the battery piece, so that the receiving efficiency is further improved.

Optionally, the first suction part 41 and the second suction part 42 each comprise a mounting plate and at least one bernoulli chuck mounted on the mounting plate. The Bernoulli sucker generates internal and external pressure difference by blowing air into the sucker, so that the battery piece is automatically adsorbed to the sucker, non-contact suction is realized, and the damage of the traditional downward-pressing sucker to the battery piece is avoided.

As shown in fig. 4, the receiving mechanism 2 may alternatively include a first feeding mechanism 21, a first receiving magazine 22, wherein: the first material receiving box 22 is mounted on a movable part of the first feeding mechanism 21, and the first feeding mechanism 21 is used for driving the first material receiving box 22 to move back and forth between the material receiving position and the first material discharging position along a first horizontal direction (such as the X-axis direction in the figure). Wherein:

when the first material receiving box 22 moves to the material receiving position, the battery pieces picked up by the carrying mechanism 2 are received.

When the first material receiving box 22 is full of batteries, the first feeding mechanism 21 drives the first material receiving box 22 to the first discharging position, and the batteries in the first material receiving box 22 are taken out at the first discharging position.

With continued reference to fig. 4, optionally, the battery piece collecting device 2 further includes a second feeding mechanism 23, a pushing mechanism 24 and a second collecting box 25, wherein: the feeding mechanism 23 is arranged side by side with the first feeding mechanism 24, the pushing mechanism 24 is connected to a movable part of the second feeding mechanism 23, and the second material receiving box 25 is mounted on the movable part of the pushing mechanism 24. Wherein, the second feeding mechanism 23 is used for driving the second material receiving box 25 to move between the transferring position and the second discharging position along a first horizontal direction (such as the X-axis direction in the figure), and the pushing mechanism 24 is used for driving the second material receiving box 25 to move between the transferring position and the material receiving position along a second horizontal direction (such as the Y-axis direction in the figure).

When the second material receiving box 25 moves to the transferring position and the first material receiving box 22 is not located at the material receiving position, that is, the material receiving position is empty, at this time, the pushing mechanism 24 pushes the second material receiving box 25 to the material receiving position to receive the battery pieces picked up by the carrying mechanism 4.

After the second material receiving box is full of battery pieces, the pushing mechanism 24 firstly pushes the second material receiving box 25 to the transfer position, the second feeding mechanism 23 then drives the second material receiving box 25 to the second discharging position, and the battery pieces in the second material receiving box are taken out at the second discharging position.

Through setting up second feed mechanism 23, push mechanism 24 and second material receiving box 25, when first material receiving box 22 received the battery piece fully and left the receipts material position, second material receiving box 25 can in time get into and receive material position department and implement the receipts material to guarantee the continuity of receiving the material, prevent to receive the material and wait. Namely, the second material receiving box 25 and the first material receiving box 22 alternately enter the material receiving position to receive the material, thereby improving the material receiving efficiency of the utility model.

As shown in fig. 5, optionally, the separator paper feeding mechanism 3 includes a storage box 31 and a jacking assembly 32, wherein: the magazine 31 is used to store the separator, and the load floor of the magazine 31 is configured to be liftable. The jacking component 32 is arranged below the storage box 31, and the jacking component 32 is used for jacking the bearing bottom plate upwards so as to drive the isolation paper borne on the bearing bottom plate to ascend, so that the carrying mechanism 4 can pick up the isolation paper conveniently.

Optionally, the separator paper feeding mechanism 3 further comprises a sensing component 33, and the sensing component 33 generates a sensing signal when the carrying base plate is lifted to a predetermined height. The jacking assembly 32 stops jacking after receiving the sensing signal, so as to prevent the bearing bottom plate from excessively rising.

Optionally, the sensing assembly 33 includes a light emitter and a light receiver, which are disposed at a predetermined height and located at two sides of the storage case 31 in pairs, when the carrying bottom plate is lower than the predetermined height, the light emitted from the light emitter irradiates the light receiver, and the light receiver generates a first signal (e.g. a high level). When the bearing bottom plate is lifted upwards to a preset height, the light of the light emitter is cut off, and the light receiver generates a second signal (such as a low level), wherein the second signal is a sensing signal.

As shown in fig. 1 and 2, optionally, a detection station located in front of the material receiving station is further disposed on the conveying path of the conveying mechanism 1. Correspondingly, the utility model discloses a battery piece material collecting device still includes detection mechanism and NG magazine 6, and detection mechanism is used for detecting and carries whether to be qualified battery piece to the battery piece of receiving material station department.

After the battery piece is detected by the detection mechanism at the detection station, the battery piece is continuously conveyed to the material receiving station. The transport mechanism 4 picks up the battery piece that accomplishes the detection from receiving material station department to: and stacking the qualified battery pieces into the material receiving mechanism, and placing the unqualified battery pieces into the NG material box. That is, only the battery pieces qualified in detection are received into the receiving mechanism 2, and the battery pieces unqualified in detection are received into the NG material box 6.

Optionally, the detection mechanism includes a detection camera and a light supplement light source, wherein the detection camera is located above the detection station, and the light supplement light source is located below the detection station. The detection camera is used for detecting the battery piece by photographing the battery piece, and the light supplementing light source is used for supplementing light for photographing the camera.

As shown in fig. 6, optionally, the conveying mechanism 1 includes a driving device 11, a supporting mechanism 12, a conveying belt 13 disposed in a pair, and a light source 14, where the conveying belt 13 is tensioned on the supporting mechanism 12 and is in transmission connection with the driving device 11, and the driving device 11 is configured to drive the conveying belt 13 to perform conveying of the battery piece. The light source 14 is arranged on the supporting mechanism 12 and located below the conveying belt 13, and the light source 14 is used for irradiating the battery piece upwards, so that the detection camera can obtain clearer battery piece images, and the detection effect is further improved. Optionally, the conveying belt 13 is provided with an adsorption hole for adsorbing the battery piece.

The invention has been described above with a certain degree of particularity and detail. It will be understood by those of ordinary skill in the art that the description of the embodiments is merely exemplary and that all changes that may be made without departing from the true spirit and scope of the present invention are intended to be within the scope of the present invention. The scope of the invention is defined by the appended claims rather than by the foregoing description of the embodiments.

Claims (10)

1. The utility model provides a battery piece material collecting device, its characterized in that, battery piece material collecting device includes conveying mechanism, receiving agencies, barrier paper feed mechanism and transport mechanism, wherein:

the conveying mechanism is used for conveying the battery pieces, and a material receiving station is at least arranged on a conveying path of the conveying mechanism;

the carrying mechanism is used for picking up the battery pieces conveyed to the material receiving station from the conveying mechanism, stacking the picked battery pieces into the material receiving mechanism, picking up the isolation paper stored in the isolation paper feeding mechanism from the isolation paper feeding mechanism, and stacking the isolation paper onto the battery pieces in the material receiving mechanism.

2. The battery piece collecting device as claimed in claim 1, wherein the carrying mechanism includes a rotating portion, a first suction portion and a second suction portion, wherein:

the first suction part and the second suction part are connected to the rotating part, and the rotating part drives the first suction part and the second suction part to synchronously rotate so as to realize the position switching of the first suction part between the receiving station and the receiving mechanism and the position switching of the second suction part between the isolation paper feeding mechanism and the receiving mechanism:

when the first suction part rotates to the material receiving station, the second suction part rotates to the material receiving mechanism; when the first suction part rotates to the receiving mechanism, the second suction part rotates to the isolation paper feeding mechanism.

3. The battery piece receiving device of claim 2, wherein the first suction portion and the second suction portion each comprise a mounting plate and at least one Bernoulli chuck mounted on the mounting plate.

4. The battery piece collecting device of claim 1, wherein the collecting mechanism comprises a first feeding mechanism and a first collecting box, wherein:

the first material receiving box is arranged on a movable part of the first feeding mechanism, and the first feeding mechanism is used for driving the first material receiving box to move back and forth between a material receiving position and a first material discharging position along a first horizontal direction;

when the first material receiving box is located at the material receiving position, the first material receiving box receives the battery pieces picked up by the carrying mechanism;

after the first material receiving box is full of batteries, the first material receiving box is driven to the first discharging position by the first feeding mechanism, and the batteries in the first material receiving box are taken out at the first discharging position.

5. The battery piece receiving device of claim 4, further comprising a second feeding mechanism, a pushing mechanism and a second receiving box, wherein:

the second feeding mechanism and the first feeding mechanism are arranged side by side, the pushing mechanism is connected to a movable part of the second feeding mechanism, and the second material collecting box is installed on the movable part of the pushing mechanism;

the second feeding mechanism is used for driving the second material receiving box to move between a transfer position and a second material discharging position along the first horizontal direction; the pushing mechanism is used for driving the second material receiving box to move between the transfer position and the material receiving position along a second horizontal direction;

when the second material receiving box is located at the transfer position and the first material receiving box is not located at the material receiving position, the pushing mechanism pushes the second material receiving box to the material receiving position so as to receive the battery pieces picked up by the carrying mechanism;

after the second material receiving box is fully used for receiving the battery pieces, the pushing mechanism pushes the second material receiving box to the transferring position, the second feeding mechanism drives the second material receiving box to the second discharging position, and the battery pieces in the second material receiving box are taken out from the second discharging position.

6. The battery piece collecting device of claim 1, wherein the isolation paper feeding mechanism comprises a storage box and a jacking assembly, wherein:

the storage box is used for storing the isolation paper, and a bearing bottom plate of the storage box is configured to be capable of lifting;

the jacking assembly is arranged below the storage box and used for jacking the bearing bottom plate upwards.

7. The battery piece collecting device as claimed in claim 6, wherein the isolating paper feeding mechanism further comprises a sensing assembly, and the sensing assembly generates a sensing signal when the carrying base plate is lifted to a predetermined height.

8. The battery piece receiving device of claim 7, wherein the sensing assembly comprises a light emitter and a light receiver disposed at the predetermined height in pairs and located at two sides of the storage box.

9. The battery piece collecting device of claim 1, wherein:

a detection station positioned in the front of the material receiving station is also arranged on the conveying path of the conveying mechanism;

the battery piece receiving device also comprises a detection mechanism and an NG material box, wherein the detection mechanism is used for detecting whether the battery pieces conveyed to the receiving station are qualified battery pieces;

the carrying mechanism stacks the qualified battery pieces picked up from the material receiving station into the material receiving mechanism, and places the unqualified battery pieces picked up from the material receiving station into the NG material box.

10. The battery piece collecting device of claim 9, wherein the detection mechanism comprises a detection camera and a light supplement source, wherein the detection camera is located above the detection station, and the light supplement source is located below the detection station.

Images