CN201440439U

CN201440439U - Double-position battery winding machine

Info

Publication number: CN201440439U
Application number: CN2009201303824U
Authority: CN
Inventors: 刘胜明; 孙振东; 邓雄光
Original assignee: Shenzhen Geesun Automation Technology Co Ltd
Current assignee: Shenzhen Geesun Automation Technology Co Ltd
Priority date: 2009-04-07
Filing date: 2009-04-07
Publication date: 2010-04-21
Anticipated expiration: 2019-04-07

Abstract

The utility model provides a double-position battery winding machine, which comprises an upper position winding needle mechanism, a lower position winding needle mechanism, a supporting frame and a main shaft mechanism pivoted on the supporting frame. The upper position winding needle mechanism and the lower position winding needle mechanism are arranged on the main shaft mechanism. The centerline of the upper position winding needle mechanism and the centerline of the lower position winding needle mechanism are axisymmetrically distributed. The distance between the centerline of the upper position winding needle mechanism and the centerline of the lower position winding needle mechanism is unchanged. The upper position winding needle mechanism and the lower position winding needle mechanism can rotate relative to the main shaft mechanism toward the axial direction of the main shaft mechanism. The upper position winding needle mechanism and the lower position winding needle mechanism are installed on the same main shaft mechanism, the difficulty in machining two installation positions on the same main shaft mechanism is low and the control is easy. In the double-position battery winding machine, the degree of symmetry between the upper position winding needle mechanism and the lower position winding needle mechanism is effectively guaranteed.

Description

The double battery winder

[technical field]

The utility model relates to the battery manufacturing technology, especially a kind of double battery winder that can guarantee the symmetry of two stations effectively.

[background technology]

Double full-automatic battery up-coiler needs two station trade-ofves, in the course of the work to realize continuous production.This just requires double to have very high symmetry.In the prior art, two stations of double full-automatic battery up-coiler are independently, are rotated respectively to realize trade-off.In this case, two stations must guarantee enough installation accuracies so that the symmetry of two stations meets the demands when independently being installed on the up-coiler, and the error accumulation effect is bigger, and installation, debug process are also comparatively complicated; Correspondingly, operation stability of equipment is relatively poor.

[utility model content]

Technical problem to be solved in the utility model provides a kind of double battery winder that can guarantee the symmetry of two stations effectively.

For solving the problems of the technologies described above, the utility model provides a kind of double battery winder, comprises station rolling needle mechanism, down station rolling needle mechanism, bracing frame and be articulated in mainshaft mechanism on the bracing frame; Last station rolling needle mechanism and following station rolling needle mechanism are located on the mainshaft mechanism; The central axis that pivots on bracing frame with mainshaft mechanism is a symmetry axis, and the two center line of last station rolling needle mechanism and following station rolling needle mechanism becomes axial symmetry to distribute; Distance between last station rolling needle mechanism and following the two center line of station rolling needle mechanism is constant; Last station rolling needle mechanism and following station rolling needle mechanism the two can be along the axial direction and the mainshaft mechanism relative motion of mainshaft mechanism.In the utility model double battery winder, the two center line of last station rolling needle mechanism and following station rolling needle mechanism is meant the center line of the coiling circular motion when station rolling needle mechanism and following station rolling needle mechanism are reeled electric core separately.

Mentality of designing of the present utility model is: mainshaft mechanism is set, in the installation position that can process station rolling needle mechanism and following station rolling needle mechanism on the mainshaft mechanism, the station rolling needle mechanism is located on the mainshaft mechanism in the mode of " center line separately becomes axial symmetry to distribute " with following station rolling needle mechanism.Installation process with respect to two independent stations in the prior art double battery winder, the utility model double battery winder can process the installation position in mainshaft mechanism, to guarantee station rolling needle mechanism and following station rolling needle mechanism " center line separately becomes axial symmetry to distribute ", the symmetry of two stations is more prone to control, reliability is improved, and installs, debug process is simple.

On this basis, further:

As a kind of concrete form, mainshaft mechanism comprises main shaft, first transition block and second transition block, and the guide rail that first transition block and second transition block are extended by the axial direction along main shaft separately forms to be slidingly connected with main shaft respectively and cooperates; Along the central axis of main shaft, first transition block becomes axial symmetry to distribute with second transition block; The mode that mainshaft mechanism is articulated on the bracing frame is: main shaft is articulated on the bracing frame; The mode that last station rolling needle mechanism and following station rolling needle mechanism are located on the mainshaft mechanism is: go up the station rolling needle mechanism and be located on first transition block, following station rolling needle mechanism is located on second transition block.

Last station rolling needle mechanism in the utility model double battery winder and following station rolling needle mechanism can adopt rolling needle mechanism of the prior art.

As preferably, main shaft is selected flat axle for use.So more helping station rolling needle mechanism and following station rolling needle mechanism is installed on the flat axle symmetrically.

The beneficial effects of the utility model are: go up station rolling needle mechanism and following station rolling needle mechanism and be installed on the same mainshaft mechanism, so just will guarantee in the prior art that two high symmetry problems of independently rolling up between the pin station are converted into the symmetry problem of two installation sites on the same mainshaft mechanism, comparatively speaking, the difficulty of two installation sites of processing is lower on same mainshaft mechanism, easily control.In the utility model double battery winder, can effectively guarantee the symmetry between station rolling needle mechanism and the following station rolling needle mechanism.

[description of drawings]

Below by embodiment also in conjunction with the accompanying drawings, the utility model is described in further detail:

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

Fig. 2 is the bracing frame 1 of double battery winder shown in Figure 1 and the schematic perspective view that is installed in the part parts on the bracing frame 1;

Fig. 3 is the schematic perspective view at another visual angle of Fig. 2;

Fig. 4 is that the master of the flat axle 12 of double battery winder shown in Figure 1 looks schematic diagram;

Fig. 5 is that schematic diagram is looked on the left side of flat axle 12 shown in Figure 4;

Fig. 6 is that the master of first transition block 17 of double battery winder shown in Figure 1 looks schematic diagram;

Fig. 7 is the schematic side view of first transition block 17 shown in Figure 6;

Fig. 8 is the schematic perspective view of the flat axle 12 of double battery winder shown in Figure 1 in conjunction with last station rolling needle mechanism and following station rolling needle mechanism;

Fig. 9 is the schematic perspective view at another visual angle of Fig. 8;

Figure 10 is a schematic perspective view of going up the winding assembly of station rolling needle mechanism.

[embodiment]

Fig. 1-Figure 10 shows a kind of embodiment of the present utility model.Part band synchronously is not shown in the accompanying drawings.

As Fig. 1, Fig. 2 and shown in Figure 3, this double battery winder comprises mainshaft mechanism, last station rolling needle mechanism and following station rolling needle mechanism, and bracing frame 1, be installed in the crossed roller bearing 2 on the bracing frame 1, be installed on the bracing frame 1 and the follower disk 3 concentric with crossed roller bearing 2, drive the transposition motor 4 of the inner ring rotation of crossed roller bearing 2, be fixed with mounting disc 5 on the inner ring of crossed roller bearing 2, left motor 6 and right motor 7 also are installed on the bracing frame 1, left side motor 6 is by being with and synchronous pulley 8 interlocks synchronously, right motor 7 is by being with and synchronous pulley 9 interlocks synchronously, synchronous pulley 8 is coaxial with synchronous pulley 10, and synchronous pulley 9 is coaxial with synchronous pulley 11; As Fig. 4-shown in Figure 7, mainshaft mechanism comprise flat axle 12, parallel be symmetrically set in the

slide rail

13 and 14 on the two sides of flat axle 12, respectively with

slide rail

13 and 14 supporting

slide blocks

15 and 16, be separately fixed at first transition block 17 and second transition block 18 on

slide block

15 and 16, slide rail 13 and slide block 15 are formed a cover slide rail pair, and slide rail 14 and slide block 16 are formed another set of slide rail pair; Flat axle 12 is the symmetrical structure about self central axis; First transition block 17 is identical with second transition block, 18 structures, and as shown in Figure 6 and Figure 7, first transition block 17 is provided with first installing hole 19 and second installing hole 20; The two ends of flat axle 12 are separately fixed in follower disk 3 and the mounting disc 5, the central axis of flat axle 12 and the central lines of crossed roller bearing 2; As Fig. 8 and shown in Figure 9, last station rolling needle mechanism is installed on first transition block 17, comprise the volume needle assemblies that is fixedly mounted in first installing hole 19, be movably arranged on splined shaft 21 in second installing hole 20, be fixedly mounted on the contact pin cylinder 22 on the flat axle 12, central axis, the splined shaft 21 of flat axle 12 are parallel with slide rail 13, the two can fix synchronous pulley 23 and splined shaft 21 so that synchronous pulley 23 can rotate with splined shaft 21 along circumferencial direction synchronous pulley 23 and splined shaft 21 the two relative position of splined shaft 21 along the axial direction relative motion of splined shaft 21; As shown in figure 10, the volume needle assemblies of last station rolling needle mechanism comprises the coiling

synchronous pulley

25,24 knittings of control two and half pins of two and half pins 24, the rotation of control two and half pins 24/and the knitting cylinder 26 of pin, and coiling synchronous pulley 25 is by band and synchronous pulley 23 interlocks synchronously; The piston rod of contact pin cylinder 22 is connected with first transition block 17, and first transition block, 17 drive winding assemblies and synchronous pulley 23 slided along splined shaft 21 and slide rail 13 when the piston rod of contact pin cylinder 22 was flexible; Also be provided with synchronous pulley 28 on the splined shaft 21 by synchronous band and synchronous pulley 10, synchronous pulley 27 interlocks, when left side motor 6 rotates, synchronous pulley 8, synchronous pulley 10, synchronous pulley 27, synchronous pulley 28, coiling synchronous pulley 25 rotate synchronously, carry out electric core winding.Following station rolling needle mechanism is identical with the structure of last station rolling needle mechanism, following station rolling needle mechanism and last station rolling needle mechanism become axial symmetry to distribute about the central shaft of flat axle 12, following station rolling needle mechanism is installed on second transition block 18, following station rolling needle mechanism comprises the volume needle assemblies that is fixedly mounted in first installing hole 19, be movably arranged on the splined shaft 31 in second installing hole 20, be fixedly mounted on the contact pin cylinder 32 on the flat axle 12, synchronous pulley 33, the central axis of flat axle 12, splined shaft 31 is parallel with slide rail 14, but, fix so that synchronous pulley 33 can rotate with splined shaft 31 along circumferencial direction synchronous pulley 33 and splined shaft 31 the two relative position of splined shaft 31 along axial direction synchronous pulley 33 and splined shaft 31 the two relative motion of splined shaft 31; Identical with the volume needle assemblies structure of upward station rolling needle mechanism shown in Figure 10, the volume needle assemblies of following station rolling needle mechanism comprises the coiling synchronous pulley 35 of two and half pins 34, the rotation of control two and half pins 34, the knitting of control two and half pins 34/and the knitting cylinder 36 of pin action, and coiling synchronous pulley 35 is by band and synchronous pulley 33 interlocks synchronously; The piston rod of contact pin cylinder 32 is connected with second transition block 18, and second transition block, 18 drive winding assemblies and synchronous pulley 33 slided along splined shaft 31 and slide rail 14 when the piston rod of contact pin cylinder 32 was flexible; Also be provided with synchronous pulley 38 on the splined shaft 31 by synchronous band and synchronous pulley 11, synchronous pulley 37 interlocks, when right motor 7 rotates, synchronous pulley 9, synchronous pulley 11, synchronous pulley 37, synchronous pulley 28, coiling synchronous pulley 35 rotate synchronously, carry out electric core winding.

Coiling synchronous pulley 25 and coiling synchronous pulley 35 central axis separately are respectively the center line of station rolling needle mechanism and following station rolling needle mechanism, and the distance between coiling synchronous pulley 25 and coiling synchronous pulley 35 the two central axis is constant.

In this double battery winder, first transition block 17 and second transition block 18 are about the central axis symmetry of flat axle 12, the central axis of coiling synchronous pulley 25 and coiling synchronous pulley 35 is about the parallel symmetry of central axis of flat axle 12, the central axis of splined shaft 21 and splined shaft 31 is about the parallel symmetry of central axis of flat axle 12, following station rolling needle mechanism and last station rolling needle mechanism are about the central axis symmetry of flat axle 12, following station rolling needle mechanism and last station rolling needle mechanism symmetry are installed on the same flat axle 12, by controlling flat axle 12, the processing of first transition block 17 and second transition block 18 can be controlled first transition block 17 and second transition block 18 and first installing hole 19 separately and the symmetry of second installing hole 20, can more easily guarantee down the symmetry of station rolling needle mechanism and last station rolling needle mechanism, Installation and Debugging are convenient.The stability of this double battery winder better.

The action of this double battery winder course of work is as follows:

Last station rolling needle mechanism and following station rolling needle mechanism transposition: transposition motor 4 rotates, the inner ring of crossed roller bearing 2 drives mounting disc 5 and rotates 180 °, correspondingly, follower disk 3 and flat axle 12 rotate 180 ° around the central axis of flat axle 12, and following station rolling needle mechanism and last station rolling needle mechanism are finished transposition.

Last station rolling needle mechanism is reeled: left motor 6 rotates, and synchronous pulley 8, synchronous pulley 10, synchronous pulley 27, synchronous pulley 28, coiling synchronous pulley 25 rotate synchronously, the electric core winding of last station.

Following station rolling needle mechanism is reeled: right motor 7 rotates, and synchronous pulley 9, synchronous pulley 11, synchronous pulley 37, synchronous pulley 28, coiling synchronous pulley 35 rotate synchronously, the electric core winding of following station.

Last station knitting/and pin: knitting/and pin is carried out in 26 work of knitting cylinder, two and half pins 24 of last station.

Following station knitting/and pin: knitting/and pin is carried out in 36 work of knitting cylinder, two and half pins 34 of last station.

Last station contact pin/pull out pin: 22 work of contact pin cylinder, first transition block 17 drive goes up station winding assembly and two half pin 24 and carries out contact pin/pull out pin.

Following station contact pin/pull out pin: 32 work of contact pin cylinder, second transition block 18 drive down station winding assemblies and two half pin 34 and carry out contact pin/pull out pin.

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

1. double battery winder is characterized in that: comprise station rolling needle mechanism, station rolling needle mechanism, bracing frame and be articulated in mainshaft mechanism on the support frame as described above down; The described station rolling needle mechanism of going up is located on the described mainshaft mechanism with following station rolling needle mechanism; The central axis that pivots on support frame as described above with described mainshaft mechanism is a symmetry axis, and described the two the center line of station rolling needle mechanism and following station rolling needle mechanism of going up becomes the axial symmetry distribution; The described distance that goes up between station rolling needle mechanism and following the two center line of station rolling needle mechanism is constant; Describedly go up station rolling needle mechanism and following station rolling needle mechanism the two can be along the axial direction and the described mainshaft mechanism relative motion of described mainshaft mechanism.

2. double battery winder according to claim 1, it is characterized in that: described mainshaft mechanism comprises main shaft, first transition block and second transition block, and the guide rail that described first transition block and second transition block are extended by the axial direction along described main shaft separately forms to be slidingly connected with described main shaft respectively and cooperates; Along the central axis of described main shaft, described first transition block becomes axial symmetry to distribute with second transition block; The mode that described mainshaft mechanism is articulated on the support frame as described above is: described main shaft is articulated on the support frame as described above; The mode that described upward station rolling needle mechanism and following station rolling needle mechanism are located on the described mainshaft mechanism is: the described station rolling needle mechanism of going up is located on described first transition block, and described station rolling needle mechanism down is located on described second transition block.

3. double battery winder according to claim 2 is characterized in that: described main shaft is flat axle.