CN211812142U - Conveying device - Google Patents

Abstract

The utility model discloses a conveyer, including bottom plate, first slider, middle coupling assembling, second slider, feed collet subassembly and first drive assembly, first slider is fixed to be set up on the bottom plate, and middle coupling assembling slides along the first direction and sets up on first slider, and the second slider slides along the first direction and sets up on middle coupling assembling, feed collet subassembly and second slider fixed connection. First drive assembly includes first driving piece, first synchronizing wheel, second synchronizing wheel and drive belt, first driving piece is used for the drive intermediate junction subassembly is followed first slider slides, first synchronizing wheel with the second synchronizing wheel rotate respectively set up in on the intermediate junction subassembly, just first synchronizing wheel passes through the drive belt with the second synchronizing wheel is connected. The transmission belt comprises a first part and a second part, the first part is connected to the bottom plate, and the second part is connected to the material clamp assembly.

Description

Conveying device

Technical Field

The utility model relates to a battery production technical field especially relates to a conveyer.

Background

During the production of the cell of the battery, the cell needs to be immersed in an electrolyte. When soaking, electric core generally sends electric core into through the chain and contains the device that soaks in, contains and soaks the completion back, need take off the electric core on the chain and send into the stoving incasement and dry.

Use conveying collet to take off and send into the case of toasting with the electric core on the chain among the prior art basically, because electric core gets into toasting the incasement and need moving distance far away, for the transfer rate who improves electric core, traditional conveying collet all drives by second grade conveyer on the direction of toasting the case towards, but second grade conveyer need use two sets of drives, the structure is more complicated, manufacturing cost is higher, and second grade conveyer's volume and weight are all bigger, produce easily at the in-process that removes and rock, lead to relatively poor with the linking of next process.

SUMMERY OF THE UTILITY MODEL

The utility model discloses the technical problem that will solve is: the conveying device is simple in structure, low in production cost, light in overall size and weight and not prone to shaking in the moving process.

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

a transfer device, comprising:

a base plate;

the first sliding piece is fixed on the bottom plate;

the middle connecting assembly is arranged on the first sliding piece in a sliding mode along a first direction;

the second sliding piece is arranged on the middle connecting assembly in a sliding mode along the first direction;

the material clamping assembly is connected to the second sliding part and used for clamping materials; and

the first driving component comprises a first driving piece, a first synchronous wheel, a second synchronous wheel and a transmission belt, and the first driving piece is connected to the middle connecting component and is used for driving the middle connecting component to slide along the first sliding piece; the first synchronizing wheel and the second synchronizing wheel are respectively and rotatably arranged on the middle connecting component, and the first synchronizing wheel is connected with the second synchronizing wheel through the transmission belt; the transmission belt comprises a first part and a second part which are positioned at two opposite sides of the first synchronous wheel; the first part is connected to the bottom plate, and the second part is connected to the material clamp assembly.

In one embodiment, the middle connection assembly includes a third sliding member and a fourth sliding member, the third sliding member is slidably disposed on the first sliding member, the fourth sliding member is fixedly connected to the third sliding member, and the second sliding member is slidably disposed on the fourth sliding member.

In one embodiment, the first sliding part and the second sliding part are both sliding blocks, the third sliding part and the fourth sliding part are both sliding rails, and the third sliding part and the fourth sliding part are arranged in parallel.

In one embodiment, the material clamp assembly comprises a first clamping jaw, a second clamping jaw and a second driving assembly, wherein the second driving assembly is connected to the first clamping jaw and the second clamping jaw respectively and used for driving the first clamping jaw and the second clamping jaw to approach or move away from each other.

In one embodiment, the second driving assembly comprises a connecting plate, a second driving member, a first rack, a second rack and a gear, the connecting plate is connected to the second sliding member, the second driving member is disposed on the connecting plate, and the second driving member is connected to the first rack and is used for driving the first rack to perform linear reciprocating motion; the gear is rotationally arranged on the connecting plate; the first rack and the second rack are arranged in parallel and are respectively meshed with two opposite sides of the gear; the first clamping jaw and the second clamping jaw are respectively connected to the first rack and the second rack.

In one embodiment, the second driving assembly further includes a first slide rail and two first sliding blocks, an extending direction of the first slide rail is parallel to a moving direction of the first rack, the two first sliding blocks are both slidably disposed on the first slide rail, and the first clamping jaw and the second clamping jaw are respectively connected to the two first sliding blocks.

In one embodiment, the lifting device further comprises a lifting assembly, wherein the lifting assembly comprises a third driving member, a fixed plate and a lifting plate, the third driving member is arranged on the fixed plate, the third driving member is connected to the lifting plate and is used for driving the lifting plate to move in the vertical direction, and the bottom plate is connected to the lifting plate.

In one embodiment, the bottom plate and the lifting plate are hinged through a rotating shaft, and the axis of the rotating shaft is parallel to the first direction;

the conveying device further comprises a guide part and an abutting part, the guide part is connected to the lifting plate, a first inclined surface is arranged on the guide part, and the first inclined surface is inclined upwards towards the direction close to the abutting part along the vertical direction; one end of the abutting piece is connected to the bottom plate, and when the third driving piece drives the lifting plate to vertically move upwards, the other end of the abutting piece is in contact with the first inclined surface.

In one embodiment, the guide further includes a vertical surface and a second inclined surface, a bottom end and a top end of the vertical surface are connected to the first inclined surface and the second inclined surface, respectively, and an inclination direction of the second inclined surface is opposite to an inclination direction of the first inclined surface.

In one embodiment, the abutting member includes a connecting rod and a rotating member, the top end of the connecting rod is connected to the bottom plate, and the rotating member is rotatably disposed at the bottom end of the connecting rod.

Implement the embodiment of the utility model provides a, will have following beneficial effect:

in the conveying device of the utility model, the middle connecting component is respectively connected with the first sliding component and the second sliding component in a sliding way, when the first driving component drives the middle connecting component to move a distance on the first sliding component along the first direction, the first synchronizing wheel and the second synchronizing wheel can also move the same distance relative to the first sliding component, meanwhile, because the first part of the transmission belt is fixed by the bottom plate, the transmission belt can rotate relative to the first synchronizing wheel and the second synchronizing wheel, so that the material clamp component can move the same distance relative to the middle connecting component in the first direction, finally the material clamp component can move the double distance relative to the bottom plate in the first direction, namely, when the first driving component drives the middle connecting component to move at a certain speed, the material clamp component can move at the double speed, thereby improving the conveying speed of the objects to be conveyed, compared with the prior art, the device only needs to be provided with one drive, is simpler in structure, lower in production cost, smaller in overall size and weight, and not easy to shake in the movement process, and can be better connected with the next procedure.

Drawings

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

Wherein:

fig. 1 is a schematic structural diagram of a conveying device according to an embodiment of the present invention;

fig. 2 is an exploded view of a clip assembly according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a conveying device according to another embodiment of the present invention;

FIG. 4 is a schematic view of another angle of the conveyor shown in FIG. 3;

description of reference numerals:

100. a base plate;

110. a first slider;

120. an intermediate connection assembly; 121. a third slider; 122. a fourth slider;

130. a second slider;

140. a material clamp assembly; 141. a second drive assembly; 1411. a connecting plate; 1412. a second driving member; 1413. a first rack; 1414. a second rack; 1415. a gear; 142. a first jaw; 143. a second jaw; 144. a first slide rail; 145. a first slider;

150. a first drive assembly; 151. a first driving member; 152. a first synchronizing wheel; 153. a second synchronizing wheel; 154. a transmission belt; 1541. a first region; 1542. a second region; 155. a dust cover;

160. a lifting assembly; 161. a third driving member; 162. a fixing plate; 163. a lifting plate; 164. a second slide rail; 165. a second slider;

170. a rotating shaft;

180. a guide member; 181. a first inclined surface; 182. a vertical plane; 183. a second inclined surface;

190. an abutting member; 191. a connecting rod; 192. and a rotating member.

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 all the directional indicators (such as upper, lower, left, right, front and rear … …) in the embodiments of the present invention 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 indicator is changed accordingly.

In addition, the descriptions related to "first", "second", etc. in the present invention are for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicit ly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one of the 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 conveyer, this conveyer can be applied to various fields that need carry out the material conveying, can take away the material from the former station and carry to next station, and this embodiment mainly explains with conveying electric core as the example.

Referring to fig. 1, the conveying device includes a bottom plate 100, a first sliding member 110, an intermediate connecting assembly 120, a second sliding member 130, a material clamping assembly 140, and a first driving assembly 150, where the first sliding member 110 is fixedly disposed on the bottom plate 100, the intermediate connecting assembly 120 is slidably disposed on the first sliding member 110 along a first direction, the second sliding member 130 is slidably disposed on the intermediate connecting assembly 120 along the first direction, the material clamping assembly 140 can perform opening and closing motions, so as to clamp and release a battery cell, and the material clamping assembly 140 is fixedly connected to the second sliding member 130. The first driving assembly 150 includes a first driving member 151, a first synchronizing wheel 152, a second synchronizing wheel 153 and a transmission belt 154, the first driving member 151 may be, but not limited to, a telescopic cylinder, the first driving member 151 is connected to the intermediate connecting assembly 120 and is used for driving the intermediate connecting assembly 120 to slide along the first sliding member 110. The first synchronizing wheel 152 and the second synchronizing wheel 153 are rotatably disposed on the middle connection assembly 120, respectively, and the first synchronizing wheel 152 is connected to the second synchronizing wheel 153 through the transmission belt 154. The belt 154 includes a first portion 1541 and a second portion 1542 on opposite sides of the first timing wheel 152, the first portion 1541 is connected to the base plate 100, and the second portion 1542 is connected to the clip assembly 140.

In the transferring apparatus of the present invention, the middle connecting member 120 is slidably connected to the first sliding member 110 and the second sliding member 130, respectively, when the first driving member 151 drives the middle connecting member 120 to move a distance on the first sliding member 145 along the first direction, the first synchronizing wheel 152 and the second synchronizing wheel 153 will also move the same distance relative to the first sliding member 110, and at the same time, since the first portion 1541 of the driving belt 154 is fixed by the bottom plate 100, the driving belt 154 can rotate relative to the first synchronizing wheel 152 and the second synchronizing wheel 153, so that the clamping member 140 moves the same distance relative to the middle connecting member 120 along the first direction, and finally the clamping member 140 moves a double distance relative to the bottom plate 100 along the first direction, that is, when the first driving member 151 drives the middle connecting member 120 to move at a certain speed, the clamping member 140 can move at a double speed, the conveying speed of waiting to transport article is improved, and compare with prior art, this device only need set up a drive, and the structure is simpler, and manufacturing cost is lower, and whole volume and weight are less, and the difficult emergence of moving is rocked, can link up with next process better.

Further, the first driving assembly 150 further includes a first fixing member and a second fixing member, the first fixing member is respectively connected to the bottom plate 100 and the first portion 1541, and the second fixing member is respectively connected to the material clamp assembly 140 and the second portion 1542.

In one embodiment, the middle connecting member 120 has a first rotating shaft and a second rotating shaft respectively disposed at opposite ends thereof, the first synchronizing wheel 152 is rotatably disposed on the first rotating shaft, and the second synchronizing wheel 153 is rotatably disposed on the second rotating shaft. As shown in fig. 4, the middle connection assembly 120 further includes a dust cover 155, the dust cover 155 covers the transmission belt 154, and both ends of the dust cover 155 are connected to the first rotating shaft and the second rotating shaft, respectively. The dust cover 155 prevents dust from entering the first synchronizing wheel 152 and the second synchronizing wheel 153, and thus, the malfunction of the conveyor can be reduced.

Referring to fig. 1 again, the middle connection assembly 120 includes a third sliding member 121 and a fourth sliding member 122, the third sliding member 121 is slidably disposed on the first sliding member 110, the fourth sliding member 122 is fixedly connected to the third sliding member 121, and the second sliding member 130 is slidably disposed on the fourth sliding member 122. One of the first slider 110 and the third slider 121 is a slider, and the other of the first slider 110 and the third slider 121 is a slide rail. Similarly, one of the second slider 130 and the fourth slider 122 is a slider, and the other of the second slider 130 and the fourth slider 122 is a slide rail. In the present embodiment, the first slider 110 and the second slider 130 are both sliders, the third slider 121 and the fourth slider 122 are both slide rails, the third slider 121 and the fourth slider 122 are parallel, and the fourth slider 122 is stacked on the upper side of the third slider 121. The first slider 110 is disposed at the lower side of the third slider 121, and the second slider 130 is disposed at the upper side of the fourth slider 122.

The third slider 121 and the fourth slider 122 may be fixed by a screw connection, a welding connection, or the like.

The material clamping assembly 140 includes a second driving assembly 141, a first clamping jaw 142 and a second clamping jaw 143, and the second driving assembly 141 is connected to the first clamping jaw 142 and the second clamping jaw 143, respectively, and is used for driving the first clamping jaw 142 and the second clamping jaw 143 to approach or move away from each other. The direction in which the first jaw 142 and the second jaw 143 approach each other may be a first direction or another direction, and in the present embodiment, the direction in which the first jaw 142 and the second jaw 143 approach each other is a second direction perpendicular to the first direction.

As shown in fig. 2, the second driving assembly 141 includes a connecting plate 1411, a second driving member 1412, a first rack 1413, a second rack 1414 and a gear 1415, the connecting plate 1411 is connected to the second slider 130, the second driving member 1412 is disposed on the connecting plate 1411, the second driving member 1412 is connected to the first rack 1413 and is used for driving the first rack 1413 to reciprocate linearly; the gear 1415 is rotatably arranged on the connecting plate 1411; the extending directions of the first rack 1413 and the second rack 1414 are both parallel to the second direction, and the first rack 1413 and the second rack 1414 are respectively meshed with two opposite sides of the gear 1415; the first jaw 142 and the second jaw 143 are connected to the first rack 1413 and the second rack 1414, respectively.

For convenience of description, in the present embodiment, the first direction is defined as the X axis shown in fig. 1 and 2, and the direction indicated by the arrow is the positive direction, the second direction is defined as the Y axis shown in fig. 1 and 2, and the direction indicated by the arrow is the positive direction. When the second driving element 1412 drives the first rack 1413 to move in the positive Y-axis direction, the gear 1415 rotates under the driving of the first rack 1413, and the second rack 1414 moves in the negative Y-axis direction under the driving of the gear 1415, so that the first clamping jaw 142 and the second clamping jaw 143 approach each other, and at this time, the material clamp assembly 140 is in a closed state and can be used to clamp a cell. When the second driving element 1412 drives the first rack 1413 to move in the Y-axis negative direction, the first clamping jaw 142 and the second clamping jaw 143 move away from each other, and at this time, the material clamp assembly 140 is in an open state, and the battery cell can be disengaged from the first clamping jaw 142 and the second clamping jaw 143.

The second driving assembly 141 further includes a first guiding assembly, the first guiding assembly includes a first sliding rail 144 and two first sliding blocks 145, the extending direction of the first sliding rail 144 is parallel to the Y axis, the two first sliding blocks 145 are arranged at intervals, the two sliding blocks are all slidably arranged on the first sliding rail 144, and the first clamping jaw 142 and the second clamping jaw 143 are respectively connected to the two first sliding blocks 145. The arrangement of the first slide rail 144 and the two first slide blocks 145 can ensure the smoothness of the movement of the first clamping jaw 142 and the second clamping jaw 143 in the Y-axis direction.

Further, the number of first direction subassembly is two sets of, and two sets of first direction subassemblies set up along X axle direction interval, and two sets of first direction subassemblies can support the both ends of first clamping jaw 142 and the both ends of second clamping jaw 143, keep the equilibrium of first clamping jaw 142 and second clamping jaw 143.

In some embodiments, the height at which the cells are grasped and the height at which the cells are placed are different, and therefore, the conveyor is further provided with a lift assembly 160 to drive the gripper assembly 140 up and down. As shown in fig. 3 and 4, the lifting assembly 160 includes a third driving member 161, a fixing plate 162 and a lifting plate 163, the third driving member 161 is disposed on the fixing plate 162, the third driving member 161 is connected to the lifting plate 163 and is configured to drive the lifting plate 163 to move in a vertical direction, and the bottom plate 100 is connected to the lifting plate 163. The third driving member 161 may be, but is not limited to, a lifting cylinder. When the third driving member 161 drives the lifting plate 163 to ascend, the bottom plate 100 also ascends, and the material clamp assembly 140 on the bottom plate 100 also ascends.

In order to ensure the stability of the lifting plate 163 during lifting, the lifting assembly 160 further includes a second slide rail 164 and a second slide block 165, which are slidably engaged with each other, one of the second slide rail 164 and the second slide block 165 is disposed on the fixed plate 162, and the other of the second slide rail 164 and the second slide block 165 is connected to the lifting plate 163. Preferably, the number of the second slide rails 164 and the second slide blocks 165 is two, the two second slide rails 164 are respectively in sliding fit with the two second slide blocks 165, the two second slide blocks 165 are both connected to the fixed plate 162, and the two second slide rails 164 are both connected to the lifting plate 163.

In one embodiment, the bottom plate 100 and the lifting plate 163 are hinged by a rotating shaft 170, the axis of the rotating shaft 170 is parallel to the X axis, and the bottom plate 100 can swing in a vertical plane around the rotating shaft 170 relative to the lifting plate 163. The conveying device further comprises a guide 180 and an abutting piece 190, the guide 180 is connected to the lifting plate 163, a first inclined surface 181 is arranged on the guide 180, and the first inclined surface 181 is inclined upwards along the vertical direction towards the direction close to the abutting piece 190; one end of the abutting piece 190 is connected to the bottom plate 100, when the third driving element 161 drives the lifting plate 163 to move vertically upward, the other end of the abutting piece 190 contacts the first inclined surface 181, and the guiding action of the first inclined surface 181 increases the distance between the other end of the abutting piece 190 and the lifting plate 163, so that the bottom plate 100 and the clamp assembly 140 on the bottom plate 100 swing relative to the lifting plate 163. In this embodiment, in the process that the material clamp assembly 140 rises, the material clamp assembly 140 can swing by a certain angle in a vertical plane, so that the material clamp assembly 140 can be conveniently opened, and the material clamp assembly 140 is prevented from directly colliding with the battery cell in the rising process.

Further, the guide member 180 further includes a vertical surface 182 and a second inclined surface 183, a bottom end and a top end of the vertical surface 182 are connected to the first inclined surface 181 and the second inclined surface 183, respectively, and an inclined direction of the second inclined surface 183 is opposite to an inclined direction of the first inclined surface 181.

Preferably, a return spring (not shown) is connected between the abutting member 190 and the lifting plate 163, and the return spring can provide a force to the abutting member 190 to approach the lifting plate 163, so that the abutting member 190 can be in close contact with the guide member 180 on the lifting plate 163 during the lifting of the lifting plate 163.

In one embodiment, the abutting member 190 includes a connecting rod 191 and a rotating member 192, a top end of the connecting rod 191 is connected to the bottom plate 100, and the rotating member 192 is rotatably disposed at a bottom end of the connecting rod 191. When the third driver 161 drives the lifting plate 163 to ascend, the rotating member 192 is in rolling contact with the guide 180, so that friction between the abutment 190 and the guide 180 can be reduced, and abrasion of the abutment 190 and the guide 180 can be reduced.

The above mentioned is only the embodiment of the present invention, and not the limitation of the patent scope of the present invention, all the equivalent transformations made by the contents of the specification and the drawings, or the direct or indirect application in the related technical field, are included in the patent protection scope of the present invention.

Claims (10)

1. A conveyor, comprising:

a base plate;

the first sliding piece is fixed on the bottom plate;

the middle connecting assembly is arranged on the first sliding piece in a sliding mode along a first direction;

the second sliding piece is arranged on the middle connecting assembly in a sliding mode along the first direction;

the material clamping assembly is connected to the second sliding part and used for clamping materials; and

the first driving component comprises a first driving piece, a first synchronous wheel, a second synchronous wheel and a transmission belt, and the first driving piece is connected to the middle connecting component and is used for driving the middle connecting component to slide along the first sliding piece; the first synchronizing wheel and the second synchronizing wheel are respectively and rotatably arranged on the middle connecting component, and the first synchronizing wheel is connected with the second synchronizing wheel through the transmission belt; the transmission belt comprises a first part and a second part which are positioned at two opposite sides of the first synchronous wheel; the first part is connected to the bottom plate, and the second part is connected to the material clamp assembly.

2. The transfer device of claim 1, wherein the intermediate connection assembly includes a third slide slidably disposed on the first slide and a fourth slide fixedly connected to the third slide, the second slide slidably disposed on the fourth slide.

3. The transfer device of claim 2, wherein the first and second slides are both slides, the third and fourth slides are both slide rails, and the third and fourth slides are arranged in parallel.

4. The transfer device of claim 1, wherein the gripper assembly includes a first jaw, a second jaw, and a second drive assembly connected to the first jaw and the second jaw, respectively, for driving the first jaw and the second jaw toward or away from each other.

5. The transfer device as in claim 4, wherein the second driving assembly comprises a connecting plate, a second driving member, a first rack, a second rack and a gear, the connecting plate is connected to the second sliding member, the second driving member is disposed on the connecting plate, the second driving member is connected to the first rack and is used for driving the first rack to reciprocate linearly; the gear is rotationally arranged on the connecting plate; the first rack and the second rack are arranged in parallel and are respectively meshed with two opposite sides of the gear; the first clamping jaw and the second clamping jaw are respectively connected to the first rack and the second rack.

6. The transfer device as in claim 5, wherein the second driving assembly further comprises a first slide rail extending in a direction parallel to the direction of movement of the first rack, and two first slide blocks slidably disposed on the first slide rail, and the first clamping jaw and the second clamping jaw are respectively connected to the two first slide blocks.

7. The transfer device of claim 1, further comprising a lifting assembly, wherein the lifting assembly comprises a third driving member, a fixed plate and a lifting plate, the third driving member is disposed on the fixed plate, the third driving member is connected to the lifting plate and is used for driving the lifting plate to move in a vertical direction, and the bottom plate is connected to the lifting plate.

8. The transfer device of claim 7, wherein the base plate and the lift plate are hinged by a rotation shaft having an axis parallel to the first direction;

the conveying device further comprises a guide part and an abutting part, the guide part is connected to the lifting plate, a first inclined surface is arranged on the guide part, and the first inclined surface is inclined upwards towards the direction close to the abutting part along the vertical direction; one end of the abutting piece is connected to the bottom plate, and when the third driving piece drives the lifting plate to vertically move upwards, the other end of the abutting piece is in contact with the first inclined surface.

9. The transfer apparatus as claimed in claim 8, wherein the guide member further comprises a vertical surface and a second inclined surface, a bottom end and a top end of the vertical surface are connected to the first inclined surface and the second inclined surface, respectively, and an inclination direction of the second inclined surface is opposite to an inclination direction of the first inclined surface.

10. The transfer device of claim 8, wherein the abutment member includes a connecting rod having a top end connected to the base plate and a rotating member rotatably disposed at a bottom end of the connecting rod.

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