CN218578814U - Battery core conveying line - Google Patents

Abstract

The utility model provides an electric core conveying line, which comprises an installation rack, a movable track, an electric core carrier and a driving assembly; the mounting frame is provided with a working surface; the movable rail is arranged on the working surface and comprises two linear rails arranged at intervals and two arc rails connected with the end parts of the two linear rails, and the linear rails and the two arc rails form an annular transportation path together; the battery cell carrier is movably arranged on the movable track and used for clamping a battery cell; the driving assembly drives the battery cell carrier to move along the annular transportation path. The utility model provides an in the electric core transfer chain, the activity track forms annular transportation route, electric core carrier is followed the activity of activity track is in proper order through operations such as feeding, just welding and welding, can get back to initial station again, can circulate the operation, reduces artifical participation link, improves the work efficiency of electric core transfer chain.

Description

Battery core conveying line

Technical Field

The utility model relates to an electricity core processing equipment technical field especially relates to an electricity core transfer chain.

Background

At sealed nail welded in-process, need earlier through transfer device, take off electric core and settle on the conveyer belt, remove to next station through the conveyer belt, get material welding operation.

In prior art, often place the electricity core carrier on the conveyer belt and transmit, carry out corresponding operation after reacing the station that corresponds, however, the transmission line removes at high speed, the electricity core carrier can produce the displacement on the conveyer belt at the in-process of transmission, lead to all needing to fix a position when operating electric core at every turn, on the other hand, accomplish whole operations after, need artifical collection to bear the electric core carrier of electric core, then send to the beginning end of assembly line again after artifical loading, work efficiency is low, can't satisfy full automation, electric core conveying efficiency.

SUMMERY OF THE UTILITY MODEL

The utility model provides an electricity core transfer chain for the not high problem of electric core conveying efficiency of solution realizes the high-efficient transportation of electric core.

The utility model provides an electricity core transfer chain, include:

a mounting frame having a working face;

the movable rail is arranged on the working surface and comprises two linear rails arranged at intervals and two arc rails connected with the end parts of the two linear rails, and the linear rails and the two arc rails form an annular transportation path together;

the battery cell carrier is movably arranged on the movable track and used for clamping a battery cell; and (c) a second step of,

and the driving assembly drives the battery cell carrier to move along the annular transportation path.

According to the utility model provides an electricity core transfer chain, still include the sliding base, the sliding base has the relative slip plane and the installation face that set up, be provided with the sliding tray on the slip plane, the sliding tray slidable mounting is to on the activity track;

the battery cell carrier is fixedly installed on the sliding base, and the driving assembly drives the sliding base to move.

According to the utility model provides an electricity core transfer chain, be formed with two gyro wheels that are the interval setting on the glide plane, two the gyro wheel is all along perpendicular the axis of glide plane direction rotates the setting, two form between the gyro wheel the sliding tray.

According to the utility model provides an electricity core transfer chain, drive assembly includes:

the transmission chain is movably mounted on the working surface along an annular conveying path and is arranged at an interval with the movable track, a driving connection structure is formed between the transmission chain and the sliding base, and the transmission chain drives the sliding base to move; and (c) a second step of,

and the first driving device drives the transmission chain to move.

According to the utility model provides an electricity core transfer chain, drive connection structure includes the connecting plate, the connecting plate including install in sliding bottom's installation end and fixed connection to drive chain's stiff end.

According to the battery cell conveying line provided by the utility model, the transmission chain is provided with a connecting hole along the direction vertical to the working surface, the fixed end extends to the connecting hole, and a through hole is arranged corresponding to the connecting hole;

the driving connection structure further comprises a connecting column, wherein the connecting column penetrates through the through hole and extends into the connecting hole.

According to the battery cell conveying line provided by the utility model, along the annular conveying path, the movable track is provided with a working station;

the battery cell conveying line further comprises a positioning device, the positioning device is installed on the installation rack and corresponds to the working station, and the battery cell carrier is positioned at the working station.

According to the battery cell conveying line provided by the utility model, the side wall surface of the sliding base is concavely provided with a positioning groove;

the positioning device includes:

one end of the positioning rod is movably mounted on the mounting rack, and the other end of the positioning rod is provided with a movable stroke which can move into the positioning groove so as to be mutually clamped and fixed with the positioning groove; and the number of the first and second groups,

and the second driving device drives the positioning rod to move.

According to the battery cell conveying line provided by the utility model, the positioning groove penetrates through the sliding base along the direction vertical to the working surface;

the positioning rod extends along a direction vertical to the working surface, one end of the positioning rod is rotatably installed on the installation rack, and the rotating path of the other end of the positioning rod passes through the positioning groove;

the second driving device drives the positioning rod to rotate.

According to the utility model provides an electric core transfer chain, the electric core carrier is provided with a plurality of, a plurality of electric core carriers are arranged along the annular transportation path at intervals; and/or the presence of a gas in the atmosphere,

the battery cell conveying line further comprises a detection device, and the detection device is mounted on the mounting rack and used for detecting the battery cell carrier.

The utility model provides an among the electric core transfer chain, install movable track on the mounting plate frame, with electric core carrier movable mounting extremely on the movable track to transport electric core carrier, movable track by straight line track and the arc track forms jointly, makes movable track forms annular transportation route, electric core carrier is followed movable track activity is in proper order after operations such as feeding, just welding and welding, can get back to initial station again, and then can carry out the circulation operation, reduces artifical participation link, improves the work efficiency of electric core transfer chain.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the following briefly introduces the drawings required for the embodiments or the prior art descriptions, and obviously, the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic perspective view of an embodiment of a battery cell conveying line provided by the present invention;

FIG. 2 is a schematic perspective view of the movable rail of FIG. 1;

FIG. 3 is a partial enlarged structural view of the arcuate track of FIG. 2;

FIG. 4 is a schematic perspective view of the slide base shown in FIG. 1;

FIG. 5 is an enlarged view of a portion of the driving assembly of FIG. 1;

fig. 6 is a partially enlarged structural view of the positioning device in fig. 1.

Reference numerals are as follows:

100. a battery cell conveying line; 1. installing a frame; 2. a movable track; 21. a linear track; 22. an arc-shaped track; 3. a battery cell carrier; 41. a drive chain; 411. a connecting plate; 412. connecting columns; 42. a first driving device; 5. a sliding base; 51. a roller; 6. a positioning device; 61. positioning a rod; 62. a second driving device.

Detailed Description

To make the objects, technical solutions and advantages of the present invention clearer, the drawings of the present invention are combined to clearly and completely describe the technical solutions of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

Referring to fig. 1 to 2, the present invention provides a battery cell conveying line 100, which includes an installation frame 1, a movable rail 2, a battery cell carrier 3 and a driving assembly; the mounting frame 1 is provided with a working surface; the movable rail 2 is arranged on the working surface and comprises two linear rails 21 arranged at intervals and two arc rails 22 connecting the end parts of the two linear rails 21, and the linear rails 21 and the two arc rails 22 jointly form an annular transportation path; the battery cell carrier 3 is movably mounted on the movable rail 2, and the battery cell carrier 3 is used for clamping a battery cell; the driving assembly drives the battery cell carrier 3 to move along the annular transportation path.

The utility model provides an in electric core transfer chain 100, install movable track 2 on installation frame 1, with 3 movable mounting of electric core carrier extremely on the movable track 2 to transport electric core carrier 3, movable track 2 by straight line track 21 and arc track 22 forms jointly, makes movable track 2 forms annular transportation route, electric core carrier 3 is followed movable track 2 activity is in proper order through the operation back such as feeding, just welding and welding, can get back to initial station again, and then can carry out the circulation operation, reduces artifical participation link, improves electric core transfer chain 100's work efficiency.

Further, referring to fig. 3, in this embodiment, the battery cell conveying line 100 further includes a sliding base 5, where the sliding base 5 has a sliding surface and an installation surface that are oppositely arranged, the sliding surface is provided with a sliding groove, and the sliding groove is slidably installed on the movable rail 2; the battery cell carrier 3 is fixedly mounted on the sliding base 5, and the driving assembly drives the sliding base 5 to move. In order to facilitate the installation of electric core carrier 3, avoid right electric core carrier 3 carries out too much transformation, in this embodiment, electric core transfer chain 100 still includes sliding bottom 5, electric core carrier 3 passes through sliding bottom 5 install extremely on the movable rail 2, correspond movable rail 2 be provided with the sliding tray on the sliding bottom 5, be convenient for sliding bottom 5's installation is slided.

It should be noted that there are various mounting manners for fixedly mounting the battery cell carrier 3 to the sliding base 5, for example, by bolting or fastening, in this embodiment, a threaded hole is formed on the sliding base 5, a connection hole penetrates through the battery cell carrier 3 corresponding to the threaded hole, and the battery cell carrier 3 further includes a fixing bolt, the fixing bolt is inserted into the connection hole, and is screwed into the threaded hole to fix the battery cell carrier 3.

Further, referring to fig. 4, two rollers 51 are formed on the sliding surface at intervals, the two rollers 51 are both rotatably disposed along an axis perpendicular to the direction of the sliding surface, and the sliding groove is formed between the two rollers 51. In this embodiment, in order to further facilitate the sliding of the sliding base 5 on the movable rail 2, the sliding base 5 includes two rollers 51 disposed at an interval, and the two rollers 51 clamp the movable rail 2 to move, so as to reduce the friction force during the movement.

It should be noted that two of the rollers 51 together form a clamping set, and the clamping set is provided with a plurality of clamping sets, and the plurality of clamping sets together form the sliding groove. So as to facilitate the sliding of the slide base 5.

On the other hand, there are various ways to drive the sliding base 5 to move on the movable rail 2, for example, by driving a roller, which is mounted on the sliding base 5 to drive the sliding base 5 to move.

In the present embodiment, referring to fig. 5, the driving assembly includes a transmission chain 41 and a first driving device 42; the transmission chain 41 is movably mounted on the working surface along an annular conveying path and is arranged at an interval with the movable track 2, a driving connection structure is formed between the transmission chain 41 and the sliding base 5, and the transmission chain 41 drives the sliding base 5 to move; the first driving device 42 drives the transmission chain 41 to move. In this embodiment, through drive chain 41 drive sliding base 5 activity, transmission is stable, simultaneously, need not to be in sliding base 5 is last to set up drive arrangement, can pass through the transmission is a plurality of sliding base of 41 simultaneous drive of day, and the cost of setting is lower, in addition, through drive chain 41 carries out the transmission, and the power that can bear is bigger.

It should be noted that the transmission chain 41 is also arranged in an annular shape, and in order to facilitate installation of the transmission chain 41, the driving assembly includes two rotating discs arranged at intervals, and the transmission chain 41 is wound around the two rotating discs and arranged to extend along the annular transportation path; the first driving device 42 drives the turntable to rotate.

In this embodiment, the first driving device 42 is a driving motor, and drives the turntable to rotate. The setting is simple, and the rotation mode is reliable.

There are various embodiments of the driving connection structure, for example, there are latch teeth on the side wall surface of the sliding base 5 facing the transmission chain 41, and the latch teeth extend into the transmission chain 41 for transmission.

In this embodiment, the driving connection structure includes a connection plate 411, and the connection plate 411 includes a mounting end mounted on the sliding base 5 and a fixed end fixedly connected to the transmission chain 41. In this embodiment, the rotation of the transmission chain 41 is transmitted to the sliding base 5 through the connecting plate 411, so that the transmission of power is stable, and the problems of sliding teeth and the like which are easy to occur when a toothed chain is matched are avoided.

It should be noted that, there are various ways for fixedly connecting the connecting plate 411 and the transmission chain 41, for example, directly fastening through two fasteners that are engaged with each other. In this embodiment, a connecting hole is formed through the transmission chain 41 in a direction perpendicular to the working surface, the fixed end extends to the connecting hole, and a through hole is formed through the fixed end corresponding to the connecting hole; the driving connection structure further comprises a connection column 412, and the connection column 412 is arranged in the through hole in a penetrating mode and extends into the connection hole. In the sliding process of the sliding base 5, it needs to be ensured that the sliding base 5 cannot produce any slipping and sliding teeth, otherwise, the position of the sliding base 5 will change, resulting in repositioning, in this embodiment, the sliding base 5 is provided with the connecting plate 411, through the connecting column 412 penetrating the connecting plate 411 and the transmission chain 41, a physical buckle is generated for fixation, so as to avoid the situation that the sliding teeth are explained in the matching process of the sliding base 5 and the transmission chain 41, ensure that the position of the sliding base 5 is controllable, and once the initial position of the sliding base relative to the transmission chain 41 is set, the change cannot be generated.

On the other hand, referring to fig. 6, along the circular transportation path, a working station is formed on the movable rail 2; the battery cell conveying line 100 further comprises a positioning device 6, wherein the positioning device 6 is mounted on the mounting rack 1 and corresponds to the working station, and is used for positioning the battery cell carrier 3 at the working station. Electric core carrier 3 reachs behind the workstation, need right electric core carrier 3 carries out multiple operation, and inevitable can lead to electric core carrier 3 produces and rocks the circumstances such as, this moment, in order to guarantee electric core carrier 3's position deviation can not appear, in this embodiment, is corresponding workstation department is provided with positioner 6, makes electric core carrier 3 reachs can be fixed position behind the workstation, can not produce unnecessary displacement, simultaneously, also can reach the station in the operation after proving whether be in exact position department.

The positioning device 6 is provided with a plurality of modes, for example, a clamping groove is arranged on the movable rail 2, and a clamping block is arranged on the sliding base 5 corresponding to the clamping groove. When the sliding base 5 reaches the corresponding position, the clamping block can be clamped in the clamping groove.

In this embodiment, a positioning groove is concavely formed on a side wall surface of the sliding base 5; the positioning device comprises a positioning rod 61 and a second driving device 62; one end of the positioning rod 61 is movably mounted on the mounting rack 1, and the other end of the positioning rod 61 has a movable stroke moving into the positioning groove so as to be clamped and fixed with the positioning groove; the second driving device 62 drives the positioning rod 61 to move. In this embodiment, a positioning groove is formed in a side wall surface of the sliding base 5, and the positioning rod 61 is movable to extend into the positioning groove, so that the sliding base 5 is clamped.

It should be noted that there are various ways for the positioning rod 61 to clamp the sliding base 5, for example, the positioning rod moves linearly, and one end of the positioning rod directly extends into the positioning groove and is clamped with the positioning groove; or the positioning groove penetrates through the sliding base 5 along the direction vertical to the working surface, and the positioning rod is inserted into the positioning groove in a straight line.

Specifically, in this embodiment, the positioning groove is disposed to penetrate through the sliding base 5 along a direction perpendicular to the working surface; the positioning rod 61 extends along a direction vertical to the working surface, one end of the positioning rod is rotatably installed on the installation rack 1, and the rotating path of the other end passes through the positioning groove; the second driving device 62 drives the positioning rod to rotate. In this embodiment, make through rotating the other end of locating lever rotates extremely in the constant head tank, when avoiding direct linear motion to lead to the butt at the wrong position, will sliding base 5 ejecting slide rail, fix a position through the mode of rotating the block sliding base 5, the structure is reliable, and the location is accurate.

Specifically, in this embodiment, a plurality of work stations are formed, and a plurality of positioning devices 6 are provided corresponding to the plurality of work stations. So that the battery core carrier 3 can work and position on the movable track 2, and all operations can be completed at one time.

In addition, the battery cell carrier 3 is provided with a plurality of, a plurality of the battery cell carrier 3 is along the annular transportation route interval sets up. In this embodiment, by providing a plurality of the cell carriers 3, the cell conveying line 100 can perform operations of multidirectional work at the same time, thereby improving the work efficiency.

Similarly, the battery cell conveying line 100 further includes a detection device, and the detection device is installed on the installation rack 1 to detect the battery cell carrier 3. In this embodiment, the detection device is configured to detect whether a battery cell already exists in the battery cell carrier 3, and detect whether the battery cell carrier 3 completes a corresponding operation on a station, so as to determine whether to enter a next station.

It should be noted that the setting of the battery cell carrier 3 and the setting of the detection device may be alternatively or simultaneously present, and the setting is performed according to actual requirements, which is not limited specifically herein.

In addition, the detection device has various embodiments, for example, a laser detection device, which detects whether the battery cell exists; or the image detection device detects whether there is a welding spot or whether the position is correct, and the like, and is not specifically limited herein, and is set according to the specific requirements of the battery cell conveying line 100.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit the same; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A cell conveying line, comprising:

a mounting frame having a working face;

the movable rail is arranged on the working surface and comprises two linear rails arranged at intervals and two arc rails connected with the end parts of the two linear rails, and the linear rails and the two arc rails form an annular transportation path together;

the battery cell carrier is movably arranged on the movable track and used for clamping a battery cell; and the number of the first and second groups,

and the driving assembly drives the battery cell carrier to move along the annular transportation path.

2. The battery cell conveying line according to claim 1, further comprising a sliding base, wherein the sliding base is provided with a sliding surface and a mounting surface which are oppositely arranged, a sliding groove is formed in the sliding surface, and the sliding groove is slidably mounted on the movable rail;

the battery cell carrier is fixedly installed on the sliding base, and the driving assembly drives the sliding base to move.

3. The battery cell conveying line according to claim 2, wherein two rollers are formed on the sliding surface at intervals, the two rollers are rotatably disposed along an axis perpendicular to the direction of the sliding surface, and the sliding groove is formed between the two rollers.

4. The cell delivery line of claim 2, wherein the drive assembly comprises:

the transmission chain is movably mounted on the working surface along an annular conveying path and is arranged at an interval with the movable track, a driving connection structure is formed between the transmission chain and the sliding base, and the transmission chain drives the sliding base to move; and (c) a second step of,

the first driving device drives the transmission chain to move.

5. The cell conveying line according to claim 4, wherein the driving connection structure includes a connection plate, and the connection plate includes a mounting end mounted to the slide base and a fixed end fixedly connected to the transmission chain.

6. The battery cell conveying line according to claim 5, wherein a connecting hole penetrates through the transmission chain in a direction perpendicular to the working surface, the fixed end extends to the connecting hole, and a through hole penetrates through the fixed end and corresponds to the connecting hole;

the driving connection structure further comprises a connecting column, wherein the connecting column penetrates through the through hole and extends into the connecting hole.

7. The cell conveying line according to claim 2, wherein a work station is formed on the movable rail along the endless conveying path;

the battery cell conveying line further comprises a positioning device, the positioning device is installed on the installation rack and corresponds to the working station, and the battery cell carrier is positioned at the working station.

8. The battery cell conveying line according to claim 7, wherein a positioning groove is concavely formed in a side wall surface of the sliding base;

the positioning device includes:

one end of the positioning rod is movably mounted on the mounting rack, and the other end of the positioning rod is provided with a movable stroke which can move into the positioning groove so as to be mutually clamped and fixed with the positioning groove; and the number of the first and second groups,

and the second driving device drives the positioning rod to move.

9. The cell conveying line according to claim 8, wherein the positioning groove is disposed through the sliding base in a direction perpendicular to the working surface;

the positioning rod extends along the direction vertical to the working surface, one end of the positioning rod is rotatably installed on the installation rack, and the rotating path of the other end of the positioning rod passes through the positioning groove;

the second driving device drives the positioning rod to rotate.

10. The cell conveying line according to claim 1, wherein the cell carriers are provided in plurality, and the plurality of cell carriers are arranged at intervals along the annular conveying path; and/or the presence of a gas in the atmosphere,

the battery cell conveying line further comprises a detection device, and the detection device is mounted on the mounting rack and used for detecting the battery cell carrier.

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