CN107946660A - A kind of double drive dual control cam lamination device - Google Patents

Abstract

The present invention relates to a kind of double drive dual control cam lamination device, including it is installed on the double-track cam of installing plate cam hole position；The presser being arranged above pressing component；The pressing open/close mechanism of double-track cam both sides is arranged at, each pressing open/close mechanism wherein one end has guide plate I and guide plate I is connected by fixed plate I with the Cam Follower of double-track cam inner groovy, and each pressing open/close mechanism other end has oscillating deck；It is symmetrically disposed on the pressing elevating mechanism of double-track cam both sides.The present invention by above and below original control push type broach, the cylinder of side-to-side movement all cancels, pressing open/close mechanism is driven to be run with pressing elevating mechanism to substitute to rotate by double-track cam using one group of double-track cam, pressing component is set to be carried out at the same time opening, rise, close up, compression action, battery core preparation action is completed in alternating movement；Traditional control method is simplified, improves operational efficiency.

Description

A kind of double drive dual control cam lamination device

Technical field

The present invention relates to lithium battery electric core production equipment technology, more particularly to a kind of double drive dual control cam lamination to fill Put.

Background technology

Cam lamination device belongs to the key of lithium battery automated production currently used for realizing that the lamination of battery is processed automatically One of equipment.When the lamination stacking table of lamination device carries out lamination, generally staggeredly it is layered in respectively in Z-shaped, positive plate and negative plate The both sides of membrane, traditional lamination table apparatus are all to control opening and closing and the lifting of push type broach respectively using cylinder to carry out lamination, its Efficiency be generally 1.6 seconds every.But under lithium battery increasingly keen competition, the efficiency requirements of equipment increasingly increase.

The existing general lamination stacking table volume of cam lamination device is big, quality weight, and the space layout of equipment is extremely difficult.Together When, the defects of those skilled in the art are to existing known technology, has carried out analysis, it is necessary to the main contributor innovated is, existing Cylinder control mode is essentially in lithium battery lamination mode, lamination push type broach moves up and down and side-to-side movement is respectively by a cylinder control System, control mode is comparatively laborious, and due to the limitation of cylinder speed, it is desirable to a brand-new knot must be had by haveing breakthrough in speed Structure replaces, therefore the following cam lamination device for just devising a set of novel and high-efficiency.In disclosed in August 6 in 2014 A kind of Z-type laminating machines that can eliminate battery core impression of CN201420104868.1 are exactly typically to be moved using cylinder control push type broach Lamination device.

In conclusion the present invention is exactly on the basis of existing known technology, with reference to the verification of practical application, to same skill Product structure in art field proposes the technical solution further researched and developed, these technical solutions proposed are conducive to same technology The solution of numerous technical problems in field and the expansibility for the scheme that develops skill.

The content of the invention

For disadvantages described above, the present invention provides a kind of double drive dual control cam lamination device, utilizes dual-motor driving mechanism Two groups of cam structures are controlled to make pressing component be carried out at the same time opening, rise, close up, compression action, while solve the prior art Many deficiencies.

To achieve the above object, the present invention uses following technical scheme：

A kind of double drive dual control cam lamination device, device mounting seat top, which has, is symmetrically disposed on cam both sides Pressing component, device mounting seat lower section have the driving mechanism for being used for driving corresponding cam rotation, the double drive dual control Cam lamination device includes：

The double-track cam of the installing plate cam hole position is installed on, each double-track cam inner and outer surfaces are respectively around axis hole One circle groove is set and the inside grooves set Cam Follower；

The presser being arranged above the pressing component, including sliding seat and it is arranged at the sliding seat upper belt There is the pressure needle seat of push type broach；

The pressing open/close mechanism of the double-track cam both sides is symmetrically disposed on, each pressing open/close mechanism wherein one end has Guide plate I and guide plate I is connected by fixed plate I with the Cam Follower of the double-track cam inner groovy, meanwhile, each The pressing open/close mechanism other end has oscillating deck, which is flexibly connected by Cam Follower I with the sliding seat, The oscillating deck lower end is flexibly connected by rotation axis with the pressing component；

The pressing elevating mechanism of the double-track cam both sides is symmetrically disposed on, each pressing elevating mechanism wherein one end has Guide plate II and guide plate II is connected by fixed plate II with the Cam Follower of the double-track cam external groove, meanwhile, Each pressing elevating mechanism other end is connected by Cam Follower II with the pressure needle seat lower removable.

For the additional structure of above technical scheme, following any one is further included：

The pressing open/close mechanism includes fixed plate I, oscillating deck, control panel I, the oscillating deck lower part and control panel I its Middle one end is flexibly connected, and the control panel I other ends are fixedly connected with guide plate I, and the guide plate I and fixed plate I, which is fixed, to be connected Connect, fixed plate I lower ends connect the Cam Follower of double-track cam inner groovy；The cam following that the double-track cam passes through inner groovy Device drives fixed plate I to move up and down, and guide plate I moves up and down therewith so that control panel I moves up and down, drive oscillating deck with Rotated centered on rotation axis, the Cam Follower I of oscillating deck upper end drives sliding seat side-to-side movement, so that pressure needle seat or so is transported It is dynamic.

Correspondingly, the Cam Follower II is arranged inside the sliding groove of control panel II, and double-track cam passes through external groove Cam Follower drive fixed plate II, guide plate II to move up and down, control panel II drives Cam Follower II movements, finally makes Pressure needle seat moves up and down.

Correspondingly, the pressure needle seat is connected with the sliding block of line slideway auxiliary III, the cunning of sliding seat and line slideway auxiliary III Rail is connected.

For above technical scheme and with any one of additional structure technical solution, further include following：

Each double-track cam includes the face of gear of inside and outside both sides and non-face of gear, and each face is opened up with Cam Follower Groove；The double-track cam is inside and outside to set a cam chair and the cam chair by central rotating shaft to double-track cam respectively Form support.

Correspondingly, the drive end of the driving mechanism has external gear, and the tooth of the external gear and the tooth of double-track cam are mutual Engagement, so as to drive double-track cam to be rotated.

The double-track cam rotation drives pressing open/close mechanism to be run with pressing elevating mechanism, is carried out at the same time pressing component Open, rise, closing up, compression action.

The present invention has the beneficial effect that：

(1) by by above and below original control push type broach, the cylinder of side-to-side movement all cancel, replaced using one group of double-track cam Generation, the wherein one side control push type broach of each double-track cam move up and down, and another side control push type broach side-to-side movement, is driven by motor Gear band moving cam is rotated to control left and right push type broach to be synchronized with the movement, so that front and rear pressing component alternating movement is completed battery core and prepared Action；

(2) when double-track cam rotates, by the collective effect of pressing open/close mechanism and pressing elevating mechanism, pressing component is made Opening is carried out at the same time, rises, close up, compression action；

(3) cost is reduced, simplifies traditional control method, operational efficiency is 1.5 times of traditional cylinder control mode.

Brief description of the drawings

The present invention is described in further detail below according to attached drawing.

Fig. 1 is double drive dual control cam lamination device structure diagram described in the embodiment of the present invention；

Fig. 2 is the pressing open/close mechanism schematic diagram of double drive dual control cam lamination device described in the embodiment of the present invention；

Fig. 3 is the pressing elevating mechanism schematic diagram of double drive dual control cam lamination device described in the embodiment of the present invention；

Fig. 4 is the driving mechanism schematic diagram of double drive dual control cam lamination device described in the embodiment of the present invention；

Fig. 5 is the non-face of gear schematic diagram of double-track cam structure described in the embodiment of the present invention；

Fig. 6 is the face of gear schematic diagram of double-track cam structure described in the embodiment of the present invention.

In figure：

1st, mounting seat；2nd, pressing open/close mechanism；3rd, pressing lifting structure；4th, power-driven mechanism；

10th, sliding seat；11st, pressure needle seat；12nd, pressing component；13rd, line slideway auxiliary III；14th, push type broach；

21st, fixed plate I；22nd, oscillating deck；23rd, control panel I；24th, rotation axis；25th, Cam Follower I；26th, line slideway Secondary I；27th, guide plate I；

35th, fixed plate II；36th, control panel II；37th, Cam Follower II；38th, guide plate II；39th, line slideway auxiliary II；

41st, motor is driven；42nd, external gear；

9th, double-track cam；91st, groove；92nd, cam chair.

Embodiment

As shown in Figs. 1-3, the double drive dual control cam lamination device described in the embodiment of the present invention, implements technological means Purpose is to solve to control lamination push type broach different motion direction respectively during traditional lithium battery lamination using multiple cylinders and make Into control mode and control assembly it is cumbersome, thus, the present invention proposes a kind of technical solution, is realized at the same time using one group of cam Device, the lifting action of pressing, and each double-track cam controls one group of pressing movement, so as to be realized using double driving mechanism In process alternating lamination action, the technical solution implemented include be arranged at mounting seat 1 double-track cam 9 and Pressing open/close mechanism 2, the pressing lifting structure 3 formed by each double-track cam 9,1 surface of mounting seat implemented has Four pressing components 12.

Further analyzed for 9 structure of double-track cam of above-mentioned setting：

As seen in figs. 5-6, the double-track cam 9 that the present embodiment is implemented include position be in inside and outside face of gear with it is non- Face of gear, each corresponding face opens up groove 91 and the installation Cam Follower in corresponding groove 91, so as to form septal fossula Cam Follower, the Cam Follower of outer channel (external groove) of groove (inner groovy).

Further analyzed for the pressing open/close mechanism 2 of above-mentioned setting：

The pressing open/close mechanism 2 implemented includes the left and right two parts for being symmetrically disposed on same double-track cam 9, each portion Set up separately and be placed on corresponding pressing component 12 and pressing open/close mechanism and 9 inner groovy of double-track cam are located at the same side；

Correspondingly, the pressing open/close mechanism 2 implemented includes being symmetrically disposed on the left and right two of same double-track cam 9 Point, each section pressing open/close mechanism includes fixed plate I21, oscillating deck 22, control panel I23, rotation axis 24, Cam Follower I25, line slideway auxiliary I26 and guide plate I27, the oscillating deck 22 implemented are movably connected in corresponding pressure by rotation axis 24 On needle assemblies 12, meanwhile, which is flexibly connected with control panel I23, the Cam Follower I25 of 22 upper end of oscillating deck It is flexibly connected with sliding seat 10；

Correspondingly, the control panel I23 other ends implemented are fixedly connected with guide plate I27, meanwhile, the guide plate implemented I27 is arranged at the top of cam chair 92 of corresponding double-track cam 9 and guide plate I27 is fixedly connected with fixed plate I21, is implemented Fixed plate I21 lower ends link position is in the Cam Follower of 9 inner groovy of double-track cam, is set respectively inside and outside each double-track cam 9 Put a cam chair 92 and the cam chair 92 forms double-track cam 9 by centre rotational axis and supports.

The pressing open/close mechanism 2 implemented for more than, when double-track cam 9 rotates, passes through the Cam Follower of inner groovy Fixed plate I21 is driven to move up and down, guide plate I27 also moves up and down, so that control panel I23 also moves up and down, drives oscillating deck 22 are rotated centered on rotation axis 24, and the Cam Follower I25 of 22 upper end of oscillating deck drives 10 side-to-side movement of sliding seat, so that The also side-to-side movement of pressure needle seat 11, it is symmetrical accordingly for the symmetrical pressing open/close mechanism 2 of another part, corresponding pressure needle seat 11 Action is same as above, and the outer end of each pressure needle seat 11 has a push type broach 14.

Further analyzed for the pressing elevating mechanism 3 of above-mentioned setting：

The pressing elevating mechanism 3 implemented includes the left and right two parts for being symmetrically disposed on same double-track cam 9, each portion Set up separately and be placed on corresponding pressing component 12 and pressing open/close mechanism and 9 external groove of double-track cam are located at the same side；

Correspondingly, the pressing elevating mechanism 3 implemented includes being symmetrically disposed on the left and right two of same double-track cam 9 Point, each section pressing elevating mechanism 3 include fixed plate II35, control panel II36, Cam Follower II37, guide plate II38, And line slideway auxiliary II39, the pressure needle seat 11 implemented are connected with the sliding block of line slideway auxiliary III13, sliding seat 10 and straight line The slide of guideway III13 is connected, and 11 lower part of pressure needle seat is fixedly connected with the cam following inside control panel II36 guide grooves Device II37；

Correspondingly, the control panel II36 other ends implemented are fixedly connected with guide plate II38, meanwhile, guide plate II38 It is fixedly connected with fixed plate II35, fixed plate II35 lower ends link position is in the Cam Follower of 9 external groove of double-track cam.

The pressing elevating mechanism 3 implemented for more than, when double-track cam 9 rotates, passes through the Cam Follower of external groove Fixed plate II35 is driven to move up and down, guide plate II38 also moves up and down, so that control panel II36 also moves up and down, band moving cam Follower II37 moves up and down, so that pressure needle seat 11 also moves up and down, accordingly for the symmetrical pressing elevator of another part Structure 3, symmetrically action is same as above corresponding pressure needle seat 11.

As shown in figure 4, the double drive dual control cam lamination device described in the embodiment of the present invention, the double drive dual control implemented Cam lamination device further includes the power-driven mechanism 4 with driving motor 41, and the drive end of the driving motor 41 has external tooth Wheel 42, the tooth of the external gear 42 are intermeshed with the tooth of double-track cam 9, so that driving double-track cam 9 is rotated.

Double drive dual control cam lamination device described in the embodiment of the present invention, when double-track cam 9 rotates, due to pressing Mechanism 2 and the collective effect of pressing elevating mechanism 3 are closed, pressing component 12 is carried out at the same time opening, risen, close up, compression action, Since same 1 both sides of mounting seat have 9 structure of a double-track cam respectively, meanwhile, each 9 both sides of double-track cam are both provided with phase Mutually symmetrical pressing open/close mechanism 2 and symmetrical pressing elevating mechanism 3 so that two groups of pressing components 12 alternately into Row movement, final associated movement complete lamination action, and the operational efficiency of the embodiment is equivalent to traditional cylinder control mode 1.5 times, prospect is expanded with wide.

In the description of this specification, mean to combine the reality if there is the description such as term " the present embodiment ", " specific implementation " Apply example or example description particular features, structures, materials, or characteristics be contained in the present invention or invention at least one embodiment or In example.In the present specification, schematic expression of the above terms may not refer to the same embodiment or example；And And described particular features, structures, materials, or characteristics can be in any one or more embodiments or example with appropriate Mode combines.

In the description of this specification, term " connection ", " installation ", " fixation ", " setting ", " having " etc. do broad sense reason Solution, for example, " connection " can be fixedly connected or pass through intermediate module on the basis of parts relationship and technique effect is not influenced Indirectly carry out or integrally connected or part connect, such as herewith example situation for those of ordinary skills, Concrete meaning of the above-mentioned term in the present invention or invention can be understood as the case may be.

The above-mentioned description to embodiment is it will be appreciated that and using this for the ease of those skilled in the art Case technology, person skilled in the art obviously easily can make these examples various modifications, and described herein one As principle be applied in other embodiments without by performing creative labour.Therefore, this case is not limited to above example, for The modification of several situations below, all should be in the protection domain of this case：1. based on technical solution of the present invention and combine existing There is the new technical solution that common knowledge is implemented, technique effect is not departing from the present invention caused by the new technical solution Outside technique effect, for example, pressing component is combined the lamination device applied to different model with cam member；2. using public affairs Know equivalence replacement of the technology to the Partial Feature of technical solution of the present invention, caused technique effect and the technology of the present invention effect phase Together, for example, being converted to the shape and size of gear, synchronizing wheel；3. carry out expanding based on technical solution of the present invention, Outside the substantive content of technical solution after expansion is without departing from technical solution of the present invention；4. utilize description of the invention and attached drawing The equivalent transformation that content is made, is directly or indirectly used in other related technical areas.

Claims (10)

1. a kind of double drive dual control cam lamination device, device mounting seat top has the pressure for being symmetrically disposed on cam both sides Needle assemblies, device mounting seat lower section have the driving mechanism for being used for driving corresponding cam rotation, it is characterised in that described double Driving dual control cam lamination device includes：

The double-track cam of the installing plate cam hole position is installed on, each double-track cam inner and outer surfaces are set around axis hole respectively One circle groove and inside grooves setting Cam Follower；

The presser being arranged above the pressing component, including sliding seat and be arranged above the sliding seat with pressure The pressure needle seat of knife；

The pressing open/close mechanism of the double-track cam both sides is symmetrically disposed on, each pressing open/close mechanism wherein one end, which has, to be oriented to Plate I and guide plate I is connected by fixed plate I with the Cam Follower of the double-track cam inner groovy, meanwhile, each pressing The open/close mechanism other end has oscillating deck, which is flexibly connected by Cam Follower I with the sliding seat, the pendulum Movable plate lower end is flexibly connected by rotation axis with the pressing component；

The pressing elevating mechanism of the double-track cam both sides is symmetrically disposed on, each pressing elevating mechanism wherein one end, which has, to be oriented to Plate II and guide plate II is connected by fixed plate II with the Cam Follower of the double-track cam external groove, meanwhile, each The pressing elevating mechanism other end is connected by Cam Follower II with the pressure needle seat lower removable.

2. double drive dual control cam lamination device according to claim 1, it is characterised in that：The pressing open/close mechanism bag Fixed plate I, oscillating deck, control panel I are included, the oscillating deck lower part is flexibly connected with control panel I wherein one end, the control panel I The other end is fixedly connected with guide plate I, and the guide plate I is fixedly connected with fixed plate I, fixed plate I lower ends connection double-track cam The Cam Follower of inner groovy.

3. double drive dual control cam lamination device according to claim 2, it is characterised in that：The double-track cam passes through interior The Cam Follower of groove drives fixed plate I to move up and down, and guide plate I moves up and down therewith, so that control panel I is transported up and down It is dynamic, drive oscillating deck to be rotated centered on rotation axis, the Cam Follower I of oscillating deck upper end drives sliding seat side-to-side movement, from And make pressure needle seat side-to-side movement.

4. double drive dual control cam lamination device according to claim 3, it is characterised in that：The Cam Follower II is set It is placed in inside the sliding groove of control panel II.

5. double drive dual control cam lamination device according to claim 4, it is characterised in that：The double-track cam passes through outer The Cam Follower of groove drives fixed plate II, guide plate II to move up and down, and control panel II drives Cam Follower II movements, most Pressure needle seat is set to move up and down eventually.

6. double drive dual control cam lamination device according to claim 5, it is characterised in that：The pressure needle seat is led with straight line The sliding block of rail secondary III is connected, and sliding seat is connected with the slide of line slideway auxiliary III.

7. according to claim 1-6 any one of them double drive dual control cam lamination devices, it is characterised in that：Each double-side convex Wheel includes the face of gear of inside and outside both sides and non-face of gear, and each face opens up the groove with Cam Follower.

8. double drive dual control cam lamination device according to claim 7, it is characterised in that：The double-track cam is inside and outside A cam chair is set respectively and the cam chair forms double-track cam by central rotating shaft and supports.

9. double drive dual control cam lamination device according to claim 1, it is characterised in that：The driving of the driving mechanism End has external gear, and the tooth of the external gear and the tooth of double-track cam are intermeshed, so as to drive double-track cam to be rotated.

10. double drive dual control cam lamination device according to claim 7, it is characterised in that：The double-track cam rotation Drive pressing open/close mechanism to be run with pressing elevating mechanism, pressing component is carried out at the same time opening, risen, close up, compression action.