CN202167581U - Adhesive tape adhering mechanism of battery winder - Google Patents

Abstract

The utility model discloses an adhesive tape adhering mechanism of a battery winder, which is arranged at a position corresponding to a cell and comprises adhesive tape pulling equipment and adhesive tape adhering equipment arranged oppositely, wherein the adhesive tape pulling equipment comprises an adhesive tape roll, an adhesive tape section cutting component and an adhesive tape section conveying component; the adhesive tape adhering equipment comprises an adhesive tape section adsorption rotating component and a promoting component; the adhesive tape on the adhesive tape roll is stretched to the adhesive tape section cutting component and then cut into adhesive tape sections; the adhesive tape section conveying component conveys the adhesive tape sections to the adhesive tape section adsorption rotating component; the promoting component promotes the adhesive tape section adsorption rotating component to move close to the cell and then the adhesive tape section adsorption rotating component rotates to adhere the adhesive tape sections to the winding end of the cell. The adhesive tape adhering mechanism adopts an automatic adhesive tape adhesion way and has high production efficiency and precision; besides, by the arrangement of the initial position regulating component, the same adhesive tape adhering mechanism is suitable for different types of cells just by simple regulation, and the adhesive tape adhering mechanism has high suitability and wide application range.

Description

The rubberizing mechanism of battery winder

Technical field

The utility model relates to a kind of up-coiler, relates in particular to the rubberizing mechanism on a kind of up-coiler.

Background technology

Battery winder generally includes: in order to the anodal unreeling structure of placing anodal coiled strip, in order to the negative pole unreeling structure of placing the negative pole coiled strip and in order to place the membrane unwinding mechanism of barrier film coiled strip; Positive and negative electrode and membrane coil strip to carry along each walking path by the fixture clamping respectively and are gone to winding mechanism and be rolled into battery battery core by winding mechanism, also need to stick gummed paper at the coiled strip ending place of battery battery core then and fix.Yet, lower through the mode production efficiency of traditional population rubberizing paper, even some that were occurred afterwards can also exist the defective that precision is lower and adaptability is relatively poor to the rubberizing mechanism that electric core carries out rubberizing paper operation.

Summary of the invention

The main purpose of the utility model is the technical problem that the existing precision of rubberizing mechanism is lower and adaptability is relatively poor for the battery winder that solves prior art.

In order to solve the problems of the technologies described above; The utility model provides a kind of rubberizing mechanism of battery winder; Be arranged on the corresponding position of electric core that finishes with coiling on the battery winder; Comprise be oppositely arranged one draw a gluing equipment and a rubberizing equipment; The said gluing equipment that draws comprises a tape roll, all gummed paper section assemblies and a gummed paper section transmitting assembly, and said rubberizing equipment comprises that a gummed paper section adheres to a rotary components and a propulsion assembly, and the gummed paper on the said tape roll is stretched to and saidly is cut into the gummed paper section after cutting gummed paper section assembly; Said gummed paper section transmitting assembly is sent to said gummed paper section with said gummed paper section and adheres to rotary components, and said propulsion assembly promotes said gummed paper section and adheres to rotary components and press close to behind the electric core said gummed paper section and adhere to the coiling ending place that the rotary components rotation is attached to the gummed paper section in said electric core.

Described rubberizing mechanism; Wherein, The said gummed paper section assembly of cutting comprises a pedestal, a geometrical clamp, a live splint and a cutting instrument; Said geometrical clamp is fixed on the said pedestal; Said live splint slidably be connected on the said pedestal with away from or near said geometrical clamp, said cutting tool is arranged between said geometrical clamp and the said live splint and can carries out cutting operation in the direction perpendicular to the line of said geometrical clamp and said live splint, said gummed paper can and stretch by said live splint clamping after passing said geometrical clamp.

Described rubberizing mechanism; Wherein, Said gummed paper section transmitting assembly comprises a swivel joint and a sucker, and said swivel joint comprises a fixed part and a rotating part, and an end of said rotating part is rotatably connected on the said fixed part; Said sucker is vertically connected on the other end of said rotating part, said rotating part drive said sucker press close to draw said cut the gummed paper on the gummed paper section assembly and drive the gummed paper Duan Xuan be cut into turn 90 degrees.

Described rubberizing mechanism, wherein, said gummed paper section is adhered to rotary components and is comprised that a rubberizing circle rolls and an adsorbent equipment, and said adsorbent equipment is arranged on said rubberizing circle and rolls on the outer surface to adsorb the gummed paper section on the said gummed paper section transmitting assembly.

Described rubberizing mechanism; Wherein, Said propulsion assembly comprises the telescopic thrust power device of an output shaft, two first sliding shoes and two line rails; Said two line rail parallel interval are provided with; Said thrust power device is arranged between the said two line rails, and said two first sliding shoe symmetries are connected said gummed paper section adheres to the both sides of rotary components and be slidingly connected with said two line rails respectively, and the output shaft of said thrust power device and said gummed paper section are adhered to rotary components and linked to each other and adhere to rotary components and press close to electric core to promote said gummed paper section.

Described rubberizing mechanism, wherein, said propulsion assembly also comprises two the second sliding shoes, said two the second sliding shoe symmetries are connected the both sides of said power device and are slidingly connected with said two line rails respectively.

Described rubberizing mechanism, wherein, the output shaft of said thrust power device and said gummed paper section are adhered to and also are connected with a spring between the rotary components.

Described rubberizing mechanism; Wherein, Said rubberizing equipment also comprises an initial position adjusting part; Said initial position adjusting part comprises that the adjusting circle that the axle center links to each other rolls and an adjusting power device; Said adjusting circle rolling is capable to be arranged on that said gummed paper section is adhered to the side-lower of rotary components and to adhere in said gummed paper section and be adjacent to the outer surface that said gummed paper section is adhered to rotary components before rotary components is pushed, and regulates circle and rolls into and drive said gummed paper section and adhere to rotary components sized paper section and turn to suitable initial position regulating to drive when power device rotates.

Described rubberizing mechanism; Wherein, Said rubberizing equipment also comprises a bit shift compensation assembly; Said bit shift compensation assembly comprises a jointing, a swing arm, a follower and a cam, the two ends of said jointing respectively with rotatable connection of an end of said propulsion assembly and said swing arm, the other end of said swing arm and said cam rotatably are connected on the frame of said up-coiler; The outward flange of said follower can be rotatably set in the said swing arm, and the rotatable outward flange of said cam contacts with the outward flange of said follower.

Described rubberizing mechanism, wherein, said bit shift compensation assembly also comprises a holder, and said holder is fixed on the frame of said up-coiler, and the other end of said swing arm is connected with said holder is rotatable.

The utlity model has following beneficial effect; What the rubberizing mechanism of the battery winder of the utility model adopted is the mode of automatic rubberizing; Production efficiency and precision are all higher; And through the setting of said initial position adjusting part, same rubberizing mechanism only need simply adjust the electric core that can adapt to different model, the strong and applied range of adaptability.

Description of drawings

Fig. 1 is the front view of rubberizing mechanism of the battery winder of the utility model.

Fig. 2 is the left view that draws gluing equipment in the rubberizing mechanism of the utility model.

Fig. 3 is the right view of the rubberizing equipment in the rubberizing mechanism of the utility model.

Embodiment

The rubberizing mechanism of the battery winder of the utility model is applied in the electric core 300 corresponding positions that finish with coiling on the battery winder.For principle and the structure that further specifies the utility model, combine accompanying drawing that the preferred embodiment of the utility model is elaborated at present.

See also shown in Figure 1, the rubberizing mechanism of the battery winder of the utility model comprise be oppositely arranged one draw a gluing equipment 1 and a rubberizing equipment 2.

See also illustrated in figures 1 and 2ly, the said gluing equipment 1 that draws comprises a tape roll 11, all gummed paper section assemblies 12 and a gummed paper section transmitting assembly 13.

Be wound with gummed paper 110 on the said tape roll 11, said tape roll 11 is rotatable to be arranged on the frame of up-coiler.

The said gummed paper section assembly 12 of cutting comprises a pedestal 121, a geometrical clamp 122, a live splint 123 and a cutting instrument 124, and the gummed paper 110 on the said tape roll 11 is stretched to and saidly is cut into the gummed paper section after cutting gummed paper section assembly 12.Said geometrical clamp 122 is fixed on the said pedestal 121; Said live splint 123 slidably be connected on the said pedestal 121 with away from or near said geometrical clamp 122; Said cutting tool 124 is arranged between said geometrical clamp 122 and the said live splint 123 and can carrying out cutting operation perpendicular to the said geometrical clamp 122 and the direction of the line of said live splint 123, and said gummed paper 110 can and stretch by said live splint 123 clampings after passing said geometrical clamp 122.

Said gummed paper section transmitting assembly 13 comprises a swivel joint 131 and a sucker 132, and said gummed paper section transmitting assembly 13 is sent to said rubberizing equipment 2 with said gummed paper section.

Said swivel joint 131 comprises a fixed part 1311 and a rotating part 1312, and an end of said rotating part 1312 is rotatably connected on the said fixed part 1311.

Said sucker 132 is vertically connected on the other end of said rotating part 1312; After said gummed paper 110 passes said geometrical clamp 122 and is drawn fixed length by said live splint 123 clampings; Said rotating part 1312 drives said sucker 132 and presses close to draw the said gummed paper of cutting on the gummed paper section assembly 12 110; The gummed paper that said cutting tool 124 actions will be adsorbed on sucker 132 this moment cuts into the gummed paper section of appropriate length, and then the gummed paper Duan Xuan that sucker 132 rotation drives are cut into turn 90 degrees to the position (sucker 132 shown in dotted lines in Figure 1 is for revolving the state of back over against said rubberizing equipment 2 that turn 90 degrees) over against said rubberizing equipment 2.

See also Fig. 1 and shown in Figure 3, said rubberizing equipment 2 comprises that a gummed paper section adheres to a rotary components 21 and a propulsion assembly 22, can also comprise an initial position adjusting part 23 and a bit shift compensation assembly 24.

Said gummed paper section is adhered to rotary components 21 and is comprised that a rubberizing circle rolls 211 and one adsorbent equipment 212; Said adsorbent equipment 212 is arranged on said rubberizing circle and rolls on 211 the outer surface adsorbing the gummed paper section on the said gummed paper section transmitting assembly 13, thereby realizes that the gummed paper section on the said gummed paper section transmitting assembly 13 is sent to said gummed paper section adheres to rotary components 21.After said gummed paper section was adhered to rotary components 21 and pressed close to said electric core 300, said gummed paper section was adhered to the coiling ending place 301 that rotary components 21 rotations are attached to said gummed paper section 11 in said electric core 300.

The said gummed paper section that said propulsion assembly 22 promotions have the gummed paper section is adhered to rotary components 21 and is pressed close to electric core 300.Said propulsion assembly 22 comprises two line rails 221, the telescopic thrust power device 222 of an output shaft and two first sliding shoes 223, can also comprise two the second sliding shoes 224 and a spring 225.

The 221 parallel interval settings of said two line rails.

Said thrust power device 222 is arranged between the said two line rails 221.

Said two first sliding shoes, 223 symmetries are connected said gummed paper section adheres to the both sides of rotary components 21 and is slidingly connected with said two line rails 221 respectively, and the output shaft of said thrust power device 222 and said gummed paper section are adhered to rotary components 21 and linked to each other and adhere to rotary components 21 and press close to said electric core 300 to promote said gummed paper section.

Said two the second sliding shoes, 224 symmetries are connected the both sides of said power device 222 and are slidingly connected with said two line rails 221 respectively.

Said spring 225 is connected the output shaft and the said gummed paper section of said thrust power device 222 and adheres between the rotary components 21.

Said initial position adjusting part 23 comprises that the adjusting circle that the axle center links to each other rolls 231 and one adjusting power device 232.Said adjusting circle rolls 231 and is set in parallel in the side-lower that said gummed paper section is adhered to rotary components 21, and before said gummed paper section was adhered to rotary components 21 and is pushed, said adjusting circle rolled 231 and is adjacent to the outer surface that said gummed paper section is adhered to rotary components 21.The center of said adjusting power device 232 is rotatable rolls 231 to drive said adjusting circle, and said adjusting circle rolls 231 rotation and drives said gummed paper section and adhere to rotary components 21 and rotate and then make gummed paper section on it rotate and be adjusted to suitable initial position.

Said bit shift compensation assembly 24 comprises a jointing 241, a swing arm 242, a follower 243 and a cam 244, can also comprise a holder 245.The two ends of said jointing 241 respectively with rotatable connection of an end of said propulsion assembly 22 and said swing arm 242, said jointing 241 can be a flake joint.The other end of said swing arm 242 and said cam 244 rotatably are connected on the frame (not shown) of said up-coiler.The outward flange of said follower 243 can be rotatably set in the said swing arm 242.Said cam 244 rotatable outward flanges contact with the outward flange of said follower 243.Said holder 245 is fixed on the frame (not shown) of said up-coiler, the other end of above-mentioned swing arm 242 and said 245 rotatable connections of holder.When 244 rotations of said cam because the outer edge of said cam 244 and the variation of the distance between its rotating shaft, said swing arm 242 be parallel to that said gummed paper section adheres to can the certain displacement of generation on the direction of propulsion of rotary components 21.

The rubberizing working process of mechanism of the utility model is described below: during initial condition, the gummed paper 110 on the said tape roll 11 is stretched and passes said geometrical clamp 122, and the free end of said gummed paper 110 is by said geometrical clamp 122 clampings.When the rubberizing process began, said live splint 123 slid into the free end near said geometrical clamp 122 and the said gummed paper 110 of gripping; Unclamp said geometrical clamp 122 then, the free end that said live splint 123 drives said gummed paper 110 is away from said geometrical clamp 122; When said gummed paper 110 is stretched when exceeding the suitable length of said geometrical clamp 122, said rotating part 1311 drives said sucker 132 to be pressed close to draw said gummed paper 110 and exceeds the part of said geometrical clamp 122, and makes said geometrical clamp clamp said gummed paper 110 once more; This moment, said cutting tool 124 carried out cutting action, the gummed paper that is adsorbed on sucker 132 110 was cut into the gummed paper section of appropriate length; After cutting finished, said sucker 132 rotations drove the gummed paper Duan Xuan that is cut into and turn 90 degrees to the position of rolling 211 over against said rubberizing circle; After said rubberizing circle rolls the said gummed paper section of adsorbent equipment 212 absorptions on 211; Said propulsion assembly 22 promotes said rubberizing circle and rolls 211 and press close to said electric core 300, and the rotation of said electric core 300 drives said rubberizing circle and rolls 211 and rotate and then will adhere to the coiling ending place that said gummed paper section on it is attached to said electric core 300.

Because said electric core 300 is an oval cross section shape; So when said electric core 300 rotates; The said rubberizing circle of pressing close to it rolls 211 can produce certain front and back displacement on direction of propulsion; And because the setting of said spring 225, above-mentioned displacement meeting obtains certain buffering, thereby but the rotation of most displacement through the cam 244 on the said bit shift compensation assembly 24 be compensated.

In addition; When the shape of said electric core 300 changes to some extent; Said gummed paper section must need to change to some extent at the initial position that said rubberizing circle rolls on 211; This moment can be before 22 actions of said propulsion assembly, rotate said adjusting circle on the said initial position adjusting part 23 and roll 231 and then drive said rubberizing circle and roll 211 and rotate, and then make gummed paper section on it rotate to be adjusted to suitable initial position.

What the rubberizing mechanism of the battery winder of the utility model adopted is the mode of automatic rubberizing; Production efficiency and precision are all higher; And setting through said initial position adjusting part; Same rubberizing mechanism only need simply adjust the electric core that can adapt to different model, the strong and applied range of adaptability.

Yet; The above is merely the preferable possible embodiments of the utility model; And the protection range of unrestricted the utility model, so the equivalent structure that all utilization the utility model specifications and accompanying drawing content have been done changes, all be included in the protection range of the utility model.

Claims (10)

1. the rubberizing mechanism of a battery winder; Be arranged on the corresponding position of electric core that finishes with coiling on the up-coiler; It is characterized in that; Comprise be oppositely arranged one draw a gluing equipment and a rubberizing equipment; The said gluing equipment that draws comprises a tape roll, all gummed paper section assemblies and a gummed paper section transmitting assembly, and said rubberizing equipment comprises that a gummed paper section adheres to a rotary components and a propulsion assembly, and the gummed paper on the said tape roll is stretched to and saidly is cut into the gummed paper section after cutting gummed paper section assembly; Said gummed paper section transmitting assembly is sent to said gummed paper section with said gummed paper section and adheres to rotary components, and said propulsion assembly promotes said gummed paper section and adheres to rotary components and press close to behind the electric core said gummed paper section and adhere to the coiling ending place that the rotary components rotation is attached to the gummed paper section in said electric core.

2. rubberizing according to claim 1 mechanism; It is characterized in that; The said gummed paper section assembly of cutting comprises a pedestal, a geometrical clamp, a live splint and a cutting instrument; Said geometrical clamp is fixed on the said pedestal; Said live splint slidably be connected on the said pedestal with away from or near said geometrical clamp, said cutting tool is arranged between said geometrical clamp and the said live splint and can carries out cutting operation in the direction perpendicular to the line of said geometrical clamp and said live splint, said gummed paper can and stretch by said live splint clamping after passing said geometrical clamp.

3. rubberizing according to claim 1 mechanism; It is characterized in that; Said gummed paper section transmitting assembly comprises a swivel joint and a sucker, and said swivel joint comprises a fixed part and a rotating part, and an end of said rotating part is rotatably connected on the said fixed part; Said sucker is vertically connected on the other end of said rotating part, said rotating part drive said sucker press close to draw said cut the gummed paper on the gummed paper section assembly and drive the gummed paper Duan Xuan be cut into turn 90 degrees.

4. rubberizing according to claim 1 mechanism; It is characterized in that; Said gummed paper section is adhered to rotary components and is comprised that a rubberizing circle rolls and an adsorbent equipment, and said adsorbent equipment is arranged on said rubberizing circle and rolls on the outer surface to adsorb the gummed paper section on the said gummed paper section transmitting assembly.

5. rubberizing according to claim 1 mechanism; It is characterized in that; Said propulsion assembly comprises the telescopic thrust power device of an output shaft, two first sliding shoes and two line rails; Said two line rail parallel interval are provided with; Said thrust power device is arranged between the said two line rails, and said two first sliding shoe symmetries are connected said gummed paper section adheres to the both sides of rotary components and be slidingly connected with said two line rails respectively, and the output shaft of said thrust power device and said gummed paper section are adhered to rotary components and linked to each other and adhere to rotary components and press close to electric core to promote said gummed paper section.

6. rubberizing according to claim 5 mechanism is characterized in that said propulsion assembly also comprises two the second sliding shoes, and said two the second sliding shoe symmetries are connected the both sides of said power device and are slidingly connected with said two line rails respectively.

7. rubberizing according to claim 5 mechanism is characterized in that, the output shaft of said thrust power device and said gummed paper section are adhered to and also be connected with a spring between the rotary components.

8. rubberizing according to claim 1 mechanism; It is characterized in that; Said rubberizing equipment also comprises an initial position adjusting part; Said initial position adjusting part comprises that the adjusting circle that the axle center links to each other rolls and an adjusting power device; Said adjusting circle rolling is capable to be arranged on that said gummed paper section is adhered to the side-lower of rotary components and to adhere in said gummed paper section and be adjacent to the outer surface that said gummed paper section is adhered to rotary components before rotary components is pushed, and regulates circle and rolls into and drive said gummed paper section and adhere to rotary components sized paper section and turn to suitable initial position regulating to drive when power device rotates.

9. rubberizing according to claim 1 mechanism; It is characterized in that; Said rubberizing equipment also comprises a bit shift compensation assembly; Said bit shift compensation assembly comprises a jointing, a swing arm, a follower and a cam, the two ends of said jointing respectively with rotatable connection of an end of said propulsion assembly and said swing arm, the other end of said swing arm and said cam rotatably are connected on the frame of said up-coiler; The outward flange of said follower can be rotatably set in the said swing arm, and the rotatable outward flange of said cam contacts with the outward flange of said follower.

10. rubberizing according to claim 9 mechanism is characterized in that said bit shift compensation assembly also comprises a holder, and said holder is fixed on the frame of said up-coiler, and the other end of said swing arm is connected with said holder is rotatable.

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