CN201601193U - Winding device of battery core - Google Patents

Abstract

The utility model discloses a winding device of a battery core, comprising a winding module and a work-position converting module, wherein the winding module comprises a first driving mechanism, a winding needle and a winding needle position-limiting mechanism; the work-position converting module comprises a second driving mechanism; the first driving mechanism is coupled to one end of the winding needle so as to drive the winding needle to rotate; the other end of the winding needle is limited by the winding needle position-limiting mechanism in the radial direction when in winding; and the second driving mechanism is coupled to the first driving mechanism so as to drive the first driving mechanism to carry the winding needle to move in the axial direction. The winding device has simple structure, high winding efficiency and is beneficial to manufacturing a square lithium batter with a lug forming part that has larger dimension.

Description

Winding device of battery electric core

Technical field

The utility model relates to a kind of lithium battery making apparatus, especially a kind of winding device of battery electric core.

Background technology

Along with the continuous popularization of lithium battery applications, the manufacture craft of lithium battery requires also more and more higher.Existing winding apparatus is that length direction, the end that forms lug are the common square lithium battery cell of Width at making with the mandrel direction only usually, and promptly the longitudinal length of battery mandrel is greater than the lateral length of lug formation portion.As common double working position winding equipment,, be not easy to make the bigger quadrate lithium battery of the relative mandrel length dimension of lug formation portion size because the complexity of its station transformational structure is brought restriction and obstacle on the space.

The utility model content

Technical problem to be solved in the utility model is to propose a kind of novel coiler device, and it is simple in structure, the winding efficiency height, and help making the relatively large quadrate lithium battery of lug formation portion size.

For achieving the above object, the utility model is by the following technical solutions:

A kind of winding device of battery electric core, comprise coiling module and station modular converter, it is characterized in that, described coiling module comprises first driving mechanism, volume pin and volume pin position-limit mechanism, described station modular converter comprises second driving mechanism, the end that described first driving mechanism is coupled to described volume pin rotates to drive described volume pin, the other end of described volume pin is radially spacing by described volume pin position-limit mechanism when reeling, and described second driving mechanism is coupled to described first driving mechanism to be taken described volume pin and move vertically to drive described first driving mechanism.

Preferably, described first driving mechanism comprises motor, shaft coupling, clutch shaft bearing, clutch shaft bearing seat, spool and device for detecting rotational position, the driving shaft of described motor is fixedlyed connected with an end of described spool by described shaft coupling, the other end of described spool is fixedlyed connected with an end of described volume pin, described device for detecting rotational position is coupled to described volume pin, described spool is fixed on the described clutch shaft bearing seat by described clutch shaft bearing, described motor fixedly mounts on the described clutch shaft bearing seat, and described clutch shaft bearing seat is fixedlyed connected with described second driving mechanism.

Preferably, described clutch shaft bearing seat is the U-shaped bearing, and described clutch shaft bearing and described motor are installed in respectively on the opposite end of described U-shaped bearing.

Preferably, described device for detecting rotational position comprises optical code disk and transducer, and described optical code disk is fixedly mounted on the described spool, and described optical code disk is provided with a breach, and described transducer is arranged at described optical code disk below, is used to respond to described breach.

Preferably, described volume pin position-limit mechanism comprises pin mouth, second bearing, second bearing pedestal and the end cap of a shape, described pin mouth is installed on second bearing pedestal by described second bearing fixing, described second bearing pedestal is fixedly mounted on the described end cap, and the other end of the end of described pin mouth and described volume pin forms tight fit when reeling.

Preferably, described second driving mechanism comprises support, guide rail, guide rail slide block, cylinder, cylinder joint and contiguous block, described guide rail is fixedly mounted on the described support, described guide rail slide block is arranged on the described guide rail, described clutch shaft bearing seat is fixed on the described guide rail slide block by described contiguous block, described cylinder is fixed on the described support, and described cylinder joint is fixedlyed connected with described guide rail slide block by described contiguous block, and the piston end of described cylinder and described cylinder joint join.

The utility model beneficial technical effects is:

According to the utility model is the quadrate lithium battery winding apparatus of single station, first driving mechanism is coupled to an end of volume pin, the other end of volume pin is radially spacing by volume pin position-limit mechanism when reeling, thereby the volume pin is suitably rotated with coiling pole piece and barrier film, second driving mechanism is coupled to first driving mechanism and drives first driving mechanism takes the volume pin along its axial motion, thereby realize threading a needle and drawn needle, the utility model is by simple structural design, realized electric core winding and the same station of blanking, the winding-structure of this single station not only makes battery battery core winding efficiency height, and, because the surplus on the space that structural simplification brings, eliminated the defective of traditional double station winding-structure square shaped battery battery core Aspect Ratio restriction, thereby can produce the bigger rectangular cell electricity core of the lug formation portion relative mandrel length dimension of size easily, satisfy demand the lithium ion battery that possesses unique lug feature.

Description of drawings

Fig. 1 is the front view of a kind of embodiment of the utility model;

Fig. 2 is the vertical view of a kind of embodiment of the utility model.

Embodiment

In conjunction with the accompanying drawings the utility model is further described in detail by the following examples.

See also Fig. 1 and Fig. 2, coiler device of the present utility model is single station half-automatic winder, and among a kind of embodiment, coiler device comprises coiling module, station modular converter and mounting panel 001.The coiling module comprises first driving mechanism, volume pin 012 and volume pin position-limit mechanism, the station modular converter comprises second driving mechanism, wherein, the end that first driving mechanism is coupled to volume pin 012 rotates to drive volume pin 012, the other end of volume pin 012 is radially spacing by volume pin position-limit mechanism when reeling, and second driving mechanism is coupled to first driving mechanism to be taken volume pin 012 and move vertically to drive first driving mechanism.

See also Fig. 1 and Fig. 2, first driving mechanism comprises motor 007, shaft coupling 008, optical code disk 009, transducer 017, clutch shaft bearing (not indicating), clutch shaft bearing seat 010 and spool 011, and volume pin position-limit mechanism comprises pin mouth 013, second bearing (not indicating), second bearing pedestal 014 and the end cap 015 of a shape.Wherein, motor 007 is fixedlyed connected with spool 011 by shaft coupling 008, and rotates by the driving drive spool 011 of motor 007; Optical code disk 009 is fixedly mounted on the spool 011, and optical code disk 009 is provided with a breach, and whether the indentation, there of the transducer 017 induction light code-disc 009 by being arranged at optical code disk 009 below belongs to initial point during with 011 rotation of control spool; Spool 011 is fixed on the clutch shaft bearing seat 010 by clutch shaft bearing, and clutch shaft bearing seat 010 is installed on the mounting panel 001; Motor 007 is fixed on clutch shaft bearing seat 010 other end, and the clutch shaft bearing seat is preferably the U-shaped bearing, and the bearing of spool 011 and motor 007 are installed in the opposite end of this U-shaped bearing respectively; One end of volume pin 012 is fixedly mounted on the spool 011, does being synchronized with the movement by the motion drive volume pin 012 of spool 011; Pin mouth 013 passes through second Bearing Installation on second bearing pedestal 014, and passes through the radial motion of the fixedly control pin mouth 013 of end cap 015; The other end of volume pin 012 and pin mouth 013 are shaped and are of coupled connections, and pin mouth 013 is done synchronously by the drive of volume pin 012 and rotatablely moved.

See also Fig. 1 and Fig. 2, second driving mechanism comprises support 002, guide rail 003, guide rail slide block 004, cylinder 005, cylinder joint 006, contiguous block 016.Wherein, guide rail 003 is fixedly mounted on the support 002, and guide rail slide block 004 is arranged on the guide rail 003, and clutch shaft bearing seat 010 is fixed on the guide rail slide block 004 by contiguous block 016; Cylinder 005 is fixed on the support 002 by the cylinder support, cylinder joint 006 is fixedlyed connected with guide rail slide block 004 by contiguous block 016, the piston end of cylinder is fixedlyed connected with cylinder joint 006, by the motion of cylinder 005 driving guide rail slide block 004, realize the drawn needle of whole coiler device and the motion of threading a needle.

Above content be in conjunction with concrete preferred implementation to further describing that the utility model is done, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, under the prerequisite that does not break away from the utility model design, can also make some simple deduction or replace, all should be considered as belonging to protection range of the present utility model.

Claims (6)

1. winding device of battery electric core, comprise coiling module and station modular converter, it is characterized in that, described coiling module comprises first driving mechanism, volume pin and volume pin position-limit mechanism, described station modular converter comprises second driving mechanism, the end that described first driving mechanism is coupled to described volume pin rotates to drive described volume pin, the other end of described volume pin is radially spacing by described volume pin position-limit mechanism when reeling, and described second driving mechanism is coupled to described first driving mechanism to be taken described volume pin and move vertically to drive described first driving mechanism.

2. coiler device as claimed in claim 1, it is characterized in that, described first driving mechanism comprises motor, shaft coupling, clutch shaft bearing, the clutch shaft bearing seat, spool and device for detecting rotational position, the driving shaft of described motor is fixedlyed connected with an end of described spool by described shaft coupling, the other end of described spool is fixedlyed connected with an end of described volume pin, described device for detecting rotational position is coupled to described volume pin, described spool is fixed on the described clutch shaft bearing seat by described clutch shaft bearing, described motor fixedly mounts on the described clutch shaft bearing seat, and described clutch shaft bearing seat is fixedlyed connected with described second driving mechanism.

3. coiler device as claimed in claim 2 is characterized in that, described clutch shaft bearing seat is the U-shaped bearing, and described clutch shaft bearing and described motor are installed in respectively on the opposite end of described U-shaped bearing.

4. coiler device as claimed in claim 2, it is characterized in that, described device for detecting rotational position comprises optical code disk and transducer, described optical code disk is fixedly mounted on the described spool, and described optical code disk is provided with a breach, described transducer is arranged at described optical code disk below, is used to respond to described breach.

5. as each described coiler device in the claim 1 to 4, it is characterized in that, described volume pin position-limit mechanism comprises pin mouth, second bearing, second bearing pedestal and the end cap of a shape, described pin mouth is installed on second bearing pedestal by described second bearing fixing, described second bearing pedestal is fixedly mounted on the described end cap, and the other end of the end of described pin mouth and described volume pin forms tight fit when reeling.

6. as each described coiler device in the claim 1 to 4, it is characterized in that, described second driving mechanism comprises support, guide rail, guide rail slide block, cylinder, cylinder joint and contiguous block, described guide rail is fixedly mounted on the described support, described guide rail slide block is arranged on the described guide rail, described clutch shaft bearing seat is fixed on the described guide rail slide block by described contiguous block, described cylinder is fixed on the described support, described cylinder joint is fixedlyed connected with described guide rail slide block by described contiguous block, and the piston end of described cylinder and described cylinder joint join.

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