CN209364028U - Electrode slice hold-down mechanism - Google Patents

Abstract

The utility model relates to a kind of electrode slice hold-down mechanisms, comprising: pedestal, for providing support；Die station is set on pedestal, and is slidably connected to pedestal, and for placing battery compartment to be processed, die station can be slided with respect to pedestal to drive the battery compartment being fixed in die station to slide；Briquetting is suspended above die station；And actuator, it is sequentially connected in briquetting, under the action of actuator, briquetting is close to or far from die station, when die station drives battery compartment to slide into predeterminated position, actuator drives briquetting to close to the movement of the direction of die station, and electrode slice is pressed into expected fixed position in battery compartment.Above-mentioned electrode slice hold-down mechanism, drive briquetting mobile by actuator, briquetting is hung on the top of die station, to which when battery compartment slides into predeterminated position, briquetting can complete the pressing action of electrode slice, alleviate artificial work, simultaneously, entire mechanism structure is simple, it is only necessary to which actuator, a pedestal, a model can be realized, and cost is relatively low.

Description

Electrode slice hold-down mechanism

Technical field

The utility model relates to field of machining, more particularly to a kind of electrode slice hold-down mechanism.

Background technique

Battery compartment be used to placing battery, be then in contact by the elastic slice of battery compartment with the positive and negative anodes of battery reach with it is other The purpose that communicates of electric appliance be convenient for changing battery in this way, battery compartment is usually plasthetics, and electrode slice is metal product, because And need the predeterminated position of the assembly of electrode slice and battery compartment through certain mechanical processing technique, traditional technique or make Processing causes processing efficiency slow or causes production cost to increase using complicated structure by hand, be unable to reproduction cost with It is formed between processing efficiency compatible well.

Utility model content

Based on this, it is necessary to be unable to be formed between reproduction cost and processing efficiency for traditional electrode slice pressing process Compatible problem well, provides a kind of electrode slice hold-down mechanism.

A kind of electrode slice hold-down mechanism, comprising:

Pedestal, for providing support；

Die station is set on the pedestal, and is slidably connected to the pedestal, for placing battery compartment to be processed, institute State die station can pedestal sliding relatively to drive the battery compartment being fixed in the die station to slide；

Briquetting is suspended above the die station；And

Actuator is sequentially connected in the briquetting, and under the action of the driving member, the briquetting is close to or far from described Die station, when the die station drives battery compartment to slide into predeterminated position, the actuator drives the briquetting to close to the mould The direction of platform is mobile, and electrode slice is pressed into expected fixed position in battery compartment.

Sliding part is provided on the pedestal in one of the embodiments, the die station corresponds to the sliding part setting There is matching piece, the matching piece is slidably connected with the sliding part, so that the die station and the pedestal are slidably matched.

The sliding part is sliding rail in one of the embodiments, and the matching piece is sliding block, corresponds to institute on the sliding block It states sliding rail and is provided with sliding slot, so that the sliding block can be slided along the sliding rail.

The die station includes translation plates and fixing piece in one of the embodiments, and the translation plates are slidably connected to institute Pedestal is stated, the fixing piece is set in the translation plates, and the fixing piece is for fixing battery compartment；

The fixing piece includes the first fixing piece and the second fixing piece, and first fixing piece and second fixing piece are equal It is fixedly connected on the translation plates, and first fixing piece and the setting of second fixing piece interval, when battery compartment is fixed on When on the fixing piece, it is hooked on first fixing piece and second fixing piece.

It is provided with holding tank on first fixing piece and second fixing piece in one of the embodiments, it is described Holding tank is for accommodating battery compartment；

The holding tank of first fixing piece or second fixing piece, at least one does not have in the moving direction of the die station Have through first fixing piece or second fixing piece.

It in one of the embodiments, further include supporting element, the supporting element is fixed on the pedestal, the actuator It is fixed on the supporting element.

It in one of the embodiments, further include pinboard, the pinboard transmission connection is in the actuator, the pressure Block is fixedly connected on the pinboard.

The supporting element includes bottom plate and guide plate in one of the embodiments, and the actuator is fixed on the bottom On plate, the guide plate is fixedly connected on the bottom plate, and there are two the guide plate settings, and two guide plates are respectively set A sliding channel is defined between the two sides of the pinboard, two guide plates, it is described under the driving of the actuator Pinboard slides in the sliding channel.

It in one of the embodiments, further include that touching bar and touch sensing part, the touching bar correspond to the die station and set It sets, when battery compartment is moved to predeterminated position with the die station, battery compartment or die station occur touching with the touching bar and make The touching bar displacement, the touch sensing part corresponds to the touching bar setting, when the touching bar and battery compartment or the mould Platform is touched and is moved, and the touching bar is in contact in moving process with the touch sensing part；The touch sensing part Signal is connected to the actuator, when the touching bar and the touch sensing part contact described in, touch sensing part is to described Actuator, which sends signal, makes the actuator work, and drives the briquetting to close to the movement of the direction of the die station.

The touch sensing part is equipped with an elastic slice in one of the embodiments, and the elastic slice corresponds to the touching bar and sets It sets, when the touching bar moves under the promotion of battery compartment or die station, is contacted with the elastic slice, and bend the elastic slice, institute When stating elastic slice and bending to predeterminable level, the touch sensing part sends signal to the actuator.

Above-mentioned electrode slice hold-down mechanism drives briquetting mobile by actuator, and briquetting is hung on the top of die station, thus When battery compartment slides into predeterminated position, briquetting can complete the pressing action of electrode slice, and in the process, artificial only needs will be electric Pole piece is fixed on the predeterminated position of battery compartment, shift electrode slice will not easily, and subsequent pressing movement is completed by briquetting, Artificial work is alleviated, meanwhile, entire mechanism structure is simple, it is only necessary to which actuator, a pedestal, a model can be real Existing, cost is relatively low.

Detailed description of the invention

Fig. 1 is the schematic perspective view of the electrode slice hold-down mechanism of an embodiment of the present invention；

Fig. 2 is the schematic diagram of internal structure of the electrode slice hold-down mechanism of an embodiment of the present invention；

Fig. 3 is the configuration schematic diagram of the electrode slice hold-down mechanism of an embodiment of the present invention.

Specific embodiment

To facilitate the understanding of the present invention, a more comprehensive description of the invention is given in the following sections with reference to the relevant attached drawings.In attached drawing Give better embodiment of the invention.But the invention can be realized in many different forms, however it is not limited to herein Described embodiment.On the contrary, the purpose of providing these embodiments is that making to understand more the disclosure Add thorough and comprehensive.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement for illustrative purposes only, are not meant to be the only embodiment.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more Any and all combinations of relevant listed item.

Fig. 1 and Fig. 2 are please referred to, the structural schematic diagram of the electrode slice hold-down mechanism 10 of one embodiment of the invention, institute are shown The electrode slice that electrode slice hold-down mechanism 10 is stated applied to battery compartment compresses, and electrode slice is assembled in battery compartment, to make electricity It realizes and conducts when pond is contacted with electrode slice, can be realized electrode slice is automatically aligned to assembly.

As depicted in figs. 1 and 2, electrode slice hold-down mechanism 10 may include pedestal 110, die station 120, briquetting 130 and driving Part 140, pedestal 110 rely on the setting of pedestal 110 for providing support, actuator 140 and die station 120；Die station 120 is set to On pedestal 110, and it is slidably connected to pedestal 110, for placing battery compartment to be processed, die station 120 can be sliding with respect to pedestal 110 The dynamic battery compartment sliding being fixed in die station 120 with drive；Briquetting 130 is suspended at 120 top of die station, and the transmission of actuator 140 connects It is connected to briquetting 130, under the action of actuator 140, briquetting 130 is close to or far from die station 120, when die station 120 drives battery compartment When sliding into predeterminated position, the direction that actuator 140 drives briquetting 130 to close die station 120 is mobile, at this point, if electrode slice is put Electrode slice can be pressed into expected fixed position in battery compartment by the predeterminated position being placed in battery compartment.

Referring to Fig. 1, pedestal 110 can be a rectangular box, thus when electrode slice hold-down mechanism 10 is placed in workbench When upper, it can make electrode slice hold-down mechanism 10 that there is preferable smoothness.Certainly, pedestal 110 can also be other shapes, It is put as long as can be realized.In actual application, pedestal 110 can be an electric box.For example, pedestal 110 can be One inside has the hollow structure of cavity, and the electronics member that various auxiliary electrode piece hold-down mechanisms 10 work can be set in cavity Device.

Pedestal 110 can have the first end face 110a and second end face 110b being oppositely arranged, when pedestal 110 is placed in When on workbench, first end face 110a is the end face far from workbench, and second end face 110b is close to the end face of workbench.First Sliding part 111 can be set on the 110a of end face, die station 120 is slidably connected to sliding part 111, and die station 120 can be along sliding Part 111 is slided with respect to pedestal 110, to drive the battery compartment sliding being fixed in die station 120.In the illustrated embodiment, sliding Moving part 111 is a sliding rail.It is appreciated that in other examples, sliding part 111 is also possible to sliding slot.Sliding part 111 can be with Be provided with one, also can be set it is multiple, for example, by setting double sided slider bar, can be die station 120 and realize stable sliding, It avoids turning on one's side during briquetting 130 compresses.

Referring to Fig. 1, die station 120 may include translation plates 121 and fixing piece 123, translation plates 121 are slidably connected to pedestal 110, fixing piece 123 is set in translation plates 121, and fixing piece 123 is for fixing battery compartment.For example, fixing piece 123 may include First fixing piece 1231 and the second fixing piece 1233, the first fixing piece 1231 and the second fixing piece 1233 are fixedly connected in flat Plate 121, and the first fixing piece 1231 and the setting of the second fixing piece 1233 interval are moved, when battery compartment is fixed on fixing piece 123, It is hooked on the first fixing piece 1231 and the second fixing piece 1233.It can be on first fixing piece 1231 and the second fixing piece 1233 It is provided with holding tank 123a, holding tank 123a is for accommodating battery compartment.The shape of holding tank 123a can be with the shape of battery compartment It is adapted, for example, holding tank 123a can be set to arc-shaped when the bottom of battery compartment is arc-shaped.

In one or more embodiments, along the moving direction of die station 120, the first fixing piece 1231 or the second fixing piece One end of at least one of 1233 respective holding tank 123a of closing.That is, the first fixing piece 1231 or second is fixed The holding tank 123a of part 1233, at least one does not extend through the first fixing piece 1231 or second in the moving direction of die station 120 and consolidates Determine part 1233.For example, in the illustrated embodiment, the moving direction of the holding tank 123a of the first fixing piece 1231 in die station 120 Completely through the first fixing piece 1231, one end quilt far from the first fixing piece 1231 of the holding tank 123a of the second fixing piece 1233 Second fixing piece 1233 is closed.It is appreciated that in other examples, the holding tank 123a's of the first fixing piece 1231 One end far from the second fixing piece 1233 can also be closed by the first fixing piece 1231.The setting of holding tank 123a can be kept away To exempt from 120 moving process of die station, battery compartment and die station 120 generate relative displacement, and then lead to the dislocation when compressing of briquetting 130, Damage battery compartment.

It is appreciated that in the particular embodiment, die station 120 can also include a locking member (figure is not marked), pass through locking Battery compartment is fixed in die station 120 by part, avoids battery compartment in 120 moving process of die station or in compaction process with respect to die station 120 displacements.

Please continue to refer to Fig. 2, the corresponding sliding part 111 of die station 120 is also provided with matching piece 125, and matching piece 125 is fixed Translation plates 121 are connected to, the side away from fixing piece 123 of translation plates 121 is set to, matching piece 125 and sliding part 111 slide Connection, to realize being slidably matched for die station 120 and pedestal 110.Matching piece 125 can be sliding block, when sliding part 111 is sliding rail When, sliding rail is corresponded on sliding block and is provided with sliding slot, so that sliding block can be slided along sliding rail, and then makes die station 120 with respect to pedestal 110 Generate sliding.It is of course also possible to which sliding slot directly is arranged in translation plates 121.Alternatively, matching piece 125 is also possible to sliding rail, sliding Sliding slot has can be set in part 111, and the opposite sliding of die station 120 and pedestal 110 also may be implemented.

Please continue to refer to Fig. 1 and Fig. 2, electrode slice hold-down mechanism 10 can also include supporting element 150, and supporting element 150 is fixed In on pedestal 110, actuator 140 can be fixed on supporting element 150.Actuator 140 can be cylinder, and be driven by cylinder The movement of dynamic pressure block 130, to complete the compression of electrode slice.It is appreciated that in other examples, actuator 140 may be used also To be other drivers such as motor, steering engine, when being driven using motor, in order to make briquetting 130 compress after can return, answer When use clockwise and anticlockwise motor.

Electrode slice hold-down mechanism 10 can also include pinboard 160, and the transmission connection of pinboard 160 is in actuator 140, pressure Block 130 is fixedly connected on pinboard 160.Actuator 140 can drive pinboard 160 mobile as a result, and then drive briquetting 130 Movement.

In one or more embodiments, supporting element 150 may include bottom plate 151 and guide plate 153, and actuator 140 is solid Due on bottom plate 151, guide plate 153 is fixedly connected on bottom plate 151, there are two guide plate 153 can be set, two guide plates 153 are respectively arranged at the two sides of pinboard 160.A sliding channel can be defined between two guide plates 153 as a result, is being driven Under the driving of part 140, pinboard 160 slides in sliding channel, and two guide plates 153 can play the sliding of pinboard 160 To guiding role, it is ensured that the mobile accuracy of briquetting 130 improves the precision of compression.

Supporting element 150 can also include cover board 155, and cover board 155 is fixedly connected on guide plate 153, and opposite with bottom plate 151 Setting, cover board 155, guide plate 153 and bottom plate 151 can surround to form a cavity as a result, for accommodating actuator 140 and turning Fishplate bar 160 can play a protective role to actuator 140, while keep the work of actuator 140 externally invisible, enhance electrode The globality of piece hold-down mechanism 10 in appearance.

Referring to Fig. 3, in one or more embodiments, electrode slice hold-down mechanism 10 can also include touching 170 He of bar Touch sensing part 180, the corresponding die station 120 of touching bar 170 is arranged, when battery compartment is moved to predeterminated position with die station 120, Battery compartment or die station 120 and touching bar 170 occur touching and shift touching bar 170, the corresponding touching bar of touch sensing part 180 170 setting, when touching bar 170 and battery compartment or die station 120 touching and move, touching bar 170 in moving process with touching It touches induction pieces 180 to be in contact, 180 signal of touch sensing part is connected to actuator 140, when touching bar 170 and touch sensing part 180 When contact, touch sensing part 180, which sends signal to actuator 140, makes actuator 140 work, and driving briquetting 130 is to close to die station 120 direction is mobile.

For example, a through-hole 1511 can be set on bottom plate 151, touching bar 170 is at least partially housed in through-hole 1511, And can opposing through-bores 1511 it is mobile, touch sensing part 180 is equipped with an elastic slice 181, and the corresponding touching bar 170 of elastic slice 181 is arranged, When touching bar 170 moves under the promotion of battery compartment or die station 120, contacted after moving a certain distance with elastic slice 181, and bend Elastic slice 181, when predeterminable level is arrived in the press-bending of elastic slice 181, touch sensing part sends signal to actuator 140, and actuator 140 starts work Make, at this point, electrode slice is just moved to position corresponding with briquetting 130, electrode slice is pressed into pre- in battery compartment by briquetting 130 Phase position.

Battery compartment at work, is fixed on fixing piece 123 by above-mentioned electrode slice hold-down mechanism 10 first, then by electrode Piece is fixed on the predeterminated position of battery compartment, and is pressed into certain depth, it is ensured that will not shift, then, push die station 120 or battery compartment It is mobile, keep battery compartment and die station 120 mobile relative to pedestal 110, to the direction movement close to touching bar 170, is moved to default position Touching touching bar 170 when setting, pushes touching bar 170 mobile, when touching bar 170 is moved to predeterminated position, contacts with elastic slice 181, And elastic slice 181 is bent, when predeterminable level is arrived in the press-bending of elastic slice 181, touch sensing part sends signal, actuator to actuator 140 140 start to work, at this point, electrode slice is just moved to position corresponding with briquetting 130, under the driving of actuator 140, switching Plate 160 drives briquetting 130 to close to the movement of the direction of battery compartment, briquetting 130 is in movement to close to the movement of the direction of die station 120 It is contacted when to predeterminated position with electrode slice, and presses electrode slice, pushed electrode slice to be pressed into designated position, complete the compression of electrode slice Process.

Above-mentioned electrode slice hold-down mechanism 10 drives briquetting 130 mobile by actuator 140, and briquetting 130 is hung on die station 120 top, so that briquetting 130 can complete the pressing action of electrode slice, herein mistake when battery compartment slides into predeterminated position Cheng Zhong manually only needs for electrode slice to be fixed on the predeterminated position of battery compartment, shift electrode slice will not easily, subsequent Pressing movement is completed by briquetting 130, alleviates artificial work, meanwhile, entire mechanism structure is simple, it is only necessary to actuator 140, One pedestal, 110, models can be realized, and cost is relatively low.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

Above-described embodiments merely represent several embodiments of the utility model, the description thereof is more specific and detailed, But it cannot be understood as the limitations to utility model patent range.It should be pointed out that for the common skill of this field For art personnel, without departing from the concept of the premise utility, various modifications and improvements can be made, these are belonged to The protection scope of the utility model.Therefore, the scope of protection shall be subject to the appended claims for the utility model patent.

Claims (10)

1. a kind of electrode slice hold-down mechanism characterized by comprising

Pedestal, for providing support；

Die station is set on the pedestal, and is slidably connected to the pedestal, for placing battery compartment to be processed, the mould Platform can pedestal sliding relatively to drive the battery compartment being fixed in the die station to slide；

Briquetting is suspended above the die station；And

Actuator is sequentially connected in the briquetting, and under the action of the driving member, the briquetting is close to or far from the mould Platform, when the die station drives battery compartment to slide into predeterminated position, the actuator drives the briquetting to close to the die station Direction it is mobile, electrode slice is pressed into expected fixed position in battery compartment.

2. electrode slice hold-down mechanism according to claim 1, which is characterized in that be provided with sliding part, institute on the pedestal It states die station and corresponds to the sliding part and be provided with matching piece, the matching piece is slidably connected with the sliding part, so that the die station It is slidably matched with the pedestal.

3. electrode slice hold-down mechanism according to claim 2, which is characterized in that the sliding part is sliding rail, the cooperation Part is sliding block, and the sliding rail is corresponded on the sliding block and is provided with sliding slot, so that the sliding block can be slided along the sliding rail.

4. electrode slice hold-down mechanism according to claim 1, which is characterized in that the die station includes translation plates and fixation Part, the translation plates are slidably connected to the pedestal, and the fixing piece is set in the translation plates, and the fixing piece is for solid Determine battery compartment；

The fixing piece includes the first fixing piece and the second fixing piece, and first fixing piece and second fixing piece are fixed Be connected to the translation plates, and first fixing piece and the setting of second fixing piece interval, when battery compartment be fixed on it is described When on fixing piece, it is hooked on first fixing piece and second fixing piece.

5. electrode slice hold-down mechanism according to claim 4, which is characterized in that first fixing piece and described second solid Determine to be provided with holding tank on part, the holding tank is for accommodating battery compartment；

The holding tank of first fixing piece or second fixing piece, at least one is not passed through in the moving direction of the die station Wear first fixing piece or second fixing piece.

6. electrode slice hold-down mechanism according to claim 1, which is characterized in that further include supporting element, the supporting element is solid Due on the pedestal, the actuator is fixed on the supporting element.

7. electrode slice hold-down mechanism according to claim 6, which is characterized in that further include pinboard, the pinboard passes Dynamic to be connected to the actuator, the briquetting is fixedly connected on the pinboard.

8. electrode slice hold-down mechanism according to claim 7, which is characterized in that the supporting element includes bottom plate and guiding Plate, the actuator are fixed on the bottom plate, and the guide plate is fixedly connected on the bottom plate, and the guide plate is provided with two A, two guide plates are respectively arranged at the two sides of the pinboard, define a sliding channel between two guide plates, Under the driving of the actuator, the pinboard slides in the sliding channel.

9. electrode slice hold-down mechanism according to claim 1, which is characterized in that it further include touching bar and touch sensing part, The touching bar corresponds to the die station setting, when battery compartment is moved to predeterminated position with the die station, battery compartment or die station Touching occurs with the touching bar and shifts the touching bar, the touch sensing part corresponds to the touching bar setting, works as institute State touching bar and battery compartment or the die station touched and moved, the touching bar in moving process with the touch sensing Part is in contact；The touch sensing part signal is connected to the actuator, when the touching bar is contacted with the touch sensing part Shi Suoshu, touch sensing part, which sends signal to the actuator, makes the actuator work, and drives the briquetting to close to described The direction of die station is mobile.

10. electrode slice hold-down mechanism according to claim 9, which is characterized in that the touch sensing part is equipped with an elastic slice, The elastic slice corresponds to the touching bar setting, when the touching bar moves under the promotion of battery compartment or die station, with the bullet Piece contact, and bends the elastic slice, and when the elastic slice is bent to predeterminable level, the touch sensing part is sent to the actuator Signal.