CN201278317Y - Adhesive tape sticking device for insulating paper - Google Patents

Abstract

The utility model relates to an insulating paper rubberizing device, it can be with an insulating paper winding mechanism be matched with to be cut into flaky sticker gluing and attach to the insulating paper handled by this insulating paper winding mechanism. The insulating paper rubberizing device comprises a guiding device, a positioning device adjacent to the guiding device, a cutting assembly and an adsorption assembly. This neotype insulated paper rubberizing device glues through tailorring the paster of a predetermined size at every turn, and collocation guide device that can set for in advance carries out the pay-off to utilize adsorption component to glue the sticker of tailorring and shift to adhere to the insulated paper on, provide more convenient and accurate sticker and glue the circulation operation.

Description

Insulating paper gluing device

technical field

The utility model relates to an insulating paper gluing device, in particular to an insulating paper gluing device for affixing a sticker glue to an insulating sheet of a capacitor to avoid puncturing by a guide needle.

Background technique

As shown in Fig. 1, it is a conventional capacitive paper pad mechanism, which is an improved mechanism developed and designed to solve the problem of reflexion of the previous paper tape. This capacitor pad mechanism 1 is provided with a body 11, and this body 11 is provided with a first, second guide device 12,13 that is positioned at different positions, and this first, second guide device 12,13 is made of several rollers. 14, and the paper tape 2 is wound on the first and second guide devices 12, 13, and a paper roll device 3 is arranged on the appropriate position of the body 11, and the paper roll device 3 is connected with the first and second guide devices. Keep a certain distance between the guiding devices 12 and 13.

In addition, a rectangular sucker-like suction assembly 15 is provided between the first guiding device 12 and the paper rolling device 3. The suction assembly 15 is provided with several suction holes 151 distributed at intervals, and the suction assembly 15 is connected to a driving Components 18 are connected. When in use, the action of the driving assembly 18 is used to make the suction assembly 15 generate suction, and the body 11 is provided with a paper cutting assembly 16 adjacent to the first guiding device 12, and the paper cutting assembly 16 is located in the suction assembly. 15 relative position. As regards the first guide 12 , a spring clip 17 which can be used to press against the paper web 2 is provided at the outlet end 2 of the paper web.

Referring to Fig. 1 and Fig. 2 at the same time, when using an external power device (not shown in the figure) to drive the first and second guiding devices 12, 13 to actuate, it will make the original winding on the first and second guiding devices The paper strip 2 of the rollers 14 on the devices 12, 13 is gradually moved to the roll paper device 3 under the transmission of the rollers 14. And when the first guide device 12 conveys the paper tape 2 to the winding device 3, the paper tape 2 of a certain length is cut by the paper cutting assembly 16, and at the same time, the suction assembly 15 will be close to the cut paper The paper tape is sucked up by the adsorption of the suction holes 151, so that the paper tape is evenly attached to the surface of the suction assembly 15.

Then, driven by the motor, the suction assembly 15 moves to the second guide device 13 and attaches the paper tape 2 to the insulating paper 2' of the roll paper device 3, and when the cut paper tape 2 is sent to the roll After the paper 3 is installed, the adsorption assembly 15 immediately stops the adsorption action and returns to the place close to the first guide device 12, which can simplify the components for the paper tape 2 to be cut and transported, and reduce the space occupied by each component.

However, in order to achieve the purpose of fully protecting the guide pins, each cut paper tape must have a certain size, but because the paper tape is only attached and not directly adhered to the insulating paper tightly, it is likely to drop or If it is loose, even if it is not dropped, the paper tape itself may be folded, resulting in a decrease in the yield of the manufactured capacitor. Therefore, there is a need to improve the poor sticking of the tape in the present technology.

Utility model content

Therefore, the present invention is to provide an insulating paper gluing device capable of cutting out stickers of a predetermined size for sticking to insulating paper to protect capacitor guide pins.

Therefore, the insulating paper gluing device of the present invention can be matched with an insulating paper winding mechanism to adhere the sticker glue cut into sheets to the insulating paper processed by the insulating paper winding mechanism. The insulating paper gluing device includes a guiding device, a positioning device adjacent to the guiding device, a cutting component, and an absorbing component. Wherein, the guiding device has several rollers, and a pair of feed platens that are up and down opposite and can be driven to approach and move away from each other. The sticker glue is conveyed through the rollers. The locating device has a pair of locating parts which are opposite up and down and can be driven to approach and move away from each other. The cutting assembly is located on the side of the positioning device opposite to the feeding platen. The adsorption component is farther away from the positioning device than the cutting component, and relatively adjacent to the insulating paper winding mechanism.

In the cycle operation state, a free end of the sticker glue is sandwiched between the upper and lower feeding platens and slightly exceeds the upper and lower feeding platens, and then the upper and lower feeding platens are driven by a stand-by relatively far away from the positioning device. The position is moved to a feeding position relatively close to the positioning device, so that the free end of the sticker glue passes between the positioning parts and passes through the top of the cutting assembly to reach the bottom of the adsorption assembly. At this time, the positioning parts are mutually Away from the free end for the sticker glue to pass through; the suction component allows the free end of the sticker glue to be attached to the suction component by suction, and then the two positioning members are close to each other to position the sticker glue, and the upper, The lower feeding platen is far away from each other to release the sticker glue and returns to the standby position from the feeding position to clamp the sticker glue again; after that, the cutting assembly cuts the sticker glue into a sheet, and the adsorption assembly will be in the form of a sheet After the sticker glue is sucked away from the cutting assembly and transferred to the top of the insulating paper, when the sticker glue touches the top of the insulating paper, the suction force of the adsorption assembly disappears, making the sticker glue stick to the insulation paper, and then the adsorption assembly returns relatively close to the insulation paper. The position of the clipping component to complete a loop.

The beneficial effect of the utility model is that: with sticky sticker glue, the sticker glue can be directly adhered to the insulating paper, reducing the disadvantages of the prior art, such as displacement or folding of the cushion paper, which is only placed on the insulation paper. , so that the quality of the produced capacitors is further improved. Furthermore, the moving stroke of the feeding platform can be designed in advance according to the size of the sticker glue to be attached to the insulating paper, so that the length of the sticker glue cut out by each cutting component is consistent, which not only improves work efficiency, but also avoids Waste of sticker glue.

Description of drawings

Fig. 1 is a partial perspective view of a prior art capacitor pad mechanism;

Fig. 2 is a partial perspective view of the capacitor paper pad mechanism of the prior art, illustrating that the adsorption component will be close to the cut paper tape and absorb the paper tape by the adsorption of the suction hole;

Fig. 3 is a three-dimensional combined view of a preferred embodiment of the insulating paper gluing device of the present invention;

Fig. 4 is a side view of a preferred embodiment of the utility model;

Fig. 5 is a schematic diagram of an action of a preferred embodiment of the present invention, illustrating that the upper and lower feeding platens together with the rollers move in a direction close to the positioning device driven by a feeding platform;

Fig. 6 is another schematic diagram of the action of the preferred embodiment of the present invention, illustrating that the adsorption assembly moves downward to absorb the sticker glue, and at the same time, the upper and lower feeding platens and the rollers are driven by a feeding table to move in a direction away from the positioning device ;

Fig. 7 is another schematic diagram of the action of the preferred embodiment of the present invention, illustrating that the adsorption unit transfers the cut sticker glue to the insulating paper on the pressing platform of the insulating paper winding mechanism.

[Description of main component symbols]

prior art part

1 Capacitor pad mechanism 11 Body 12 First guiding device

13 Second guiding device 14 Roller 15 Adsorption component

151 Suction hole 16 Paper cutting component 17 Spring clip

18 drive components 2 paper tapes 2' insulating paper

3 roll paper unit

The utility model part

4. Insulation paper gluing device 40 Machine base 41 Guiding device

411 Sticker disc 412 Upper feed platen 413 Lower feed platen

414 roller 415 feeding table 42 positioning device

421 Upper locator 422 Lower locator 43 Cutting components

44 Adsorption component 441 Suction hole 45 Working platform

5 Winding mechanism 51 Pressing platform 6 Sticker glue

7 insulating paper

Detailed ways

Referring to Fig. 3 to Fig. 4, the preferred embodiment of the new insulating paper gluing device 4 is to cooperate with an insulating paper winding mechanism 5 to form a continuous operation process. The insulating paper winding mechanism 5 includes a guiding device (not shown in the figure) and a pressing platform 51 arranged under the working path of the guiding device.

The insulating paper gluing device 4 comprises: a machine base 40, a guiding device 41 arranged on the machine base 40, a positioning device 42 adjacent to the guiding device 41, a fixed on the machine base 40 The cutting assembly 43 , a suction assembly 44 , and a working platform 45 located relatively below the suction assembly 44 and adjacent to the cutting assembly 43 .

Wherein, the guide device 41 has a sticker rubber plate 411 fixed on the top of the machine base 40, an upper feeding platen 412 and a lower feeding platen 413, and several intervals between the feeding platen 412, 413 and the sticker platen. Roller 414 among 411. The sticker glue reel 411 can be used for the continuous sticker glue 6 to be wound on it, and after the sticker glue 6 is unwound from the sticker glue disk 411, it is winding between the rollers 414 to achieve the effect of transporting the sticker glue 6 smoothly . These upper and lower feed platens 412, 413 are opposite to each other up and down, wherein, the upper feed platen 412 can be driven by a power source to approach or move away from the lower feed platen 413, in this embodiment, the power source is a cylinder. In addition, the upper and lower feeding platens 412, 413 and the rollers 414 are fixed on a feeding table 415 that can be driven by another power source to perform reciprocating horizontal movement.

This positioning device 42 has a pair of positioning parts 421, 422, and these two positioning parts 421, 422 are not located on the same axis with regard to the axial position, but they can be respectively received by an external power source (in this embodiment, each power source The sources are driven by a cylinder) to move relatively close to and away from each other.

The cutting assembly 43 is located on the side of the positioning members 421, 422 opposite to the feeding platen 412, 413, and is between the adsorption assembly 44 and the positioning members 421, 422. In this embodiment, the cutting Cutting assembly 43 is a cutter.

The suction assembly 44 is farther away from the positioning members 421 , 422 than the cutting assembly 43 , and is located at a position relatively adjacent to the pressing platform 51 of the insulating paper winding device 5 . The suction component 44 has at least one suction hole 441 at the bottom, and can be connected with a driving component, so as to generate suction force through the suction hole 441 . In addition, the adsorption assembly 44 is driven by an external power source (in this embodiment, the power source is a cylinder), so that the adsorption assembly 44 can be located at a position above the working platform 45 and at a position above the insulation The positions above the pressing platform 51 of the paper winding device 5 undergo a ℇ-shaped displacement.

As shown in Figure 4, before starting the insulating paper gluing device 4, the continuous sticker glue 6 wound into a disk must be placed on the sticker glue disk 411, and a free end of the sticker glue 6 must be pulled Pass through the roller 414, the upper and lower feeding platens 412, 413, the upper and lower positioning members 421, 422 in sequence, and finally reach the cutting assembly 43, and use the cutting assembly 43 to cut the free ends of the sticker glue 6. At this time, The upper and lower feeding platens 412, 413 are located at a standby position relatively far away from each other, and the upper and lower positioning members 421, 422 are also relatively far away from each other. Then, start the power supply of the insulating paper gluing device 4 to start a cycle operation.

Referring to Fig. 4 and Fig. 5 simultaneously, at first, this upper feed platen 412 is driven and descends to a position (as shown in Figure 4) close to the lower feed platen 413, and a flat free end of the sticker glue 6 is clamped on The upper and lower feeding pressing plates 412, 413 slightly exceed the upper and lower feeding pressing plates 412, 413. Driven by the power source, the upper and lower feeding pressing plates 412, 413 and the rollers 414 together with the feeding table 415 horizontally move from the standby position. Move a predetermined distance to a feeding position adjacent to the positioning device 42 (the feeding position is shown in FIG. 5 ). The predetermined distance is preset according to the requirements of the manufacturer, and the predetermined distance is related to the size of the sticker glue attached to the insulating paper.

Referring to Fig. 5 and Fig. 6 at the same time, when the feeding platens 412, 413 are moved to the feeding position, the free ends of the sticker glue 6 will successively pass through the gap between the upper and lower positioning parts 421, 422 and pass through the cutting assembly. 43 to reach below the suction assembly 44 . Then, the adsorption assembly 44 is driven by the power source to move in the direction of the working platform 45 (downward, as shown by the arrow on the right side of FIG. 5 ), so that the sticker glue 6 is clamped between the adsorption assembly 44 and the working platform 45 Meanwhile, the power source connected to the adsorption assembly 44 is also activated, and the generated suction force makes the sticker glue 6 firmly attached to the bottom of the adsorption assembly 44 . It must be noted that, in order to prevent the bottom surface of the sticker glue 6 from adhering to the working platform 45, which is not conducive to adsorption, the top surface of the working platform 45 can be coated with Teflon-like materials in advance to provide better prevention of adhesion. Effect.

As shown in Figure 6, at the same time, the upper and lower positioning parts 421, 422 are driven to be relatively close to each other, so that the sticker glue 6 is clamped up and down by the positioning parts 421, 422 respectively and is not easy to slide and loosen. After parts 421, 422 are clamped, the upper feed platen 412 moves away from the direction of the lower feed platen 413, the two feed platens 412, 413 no longer clamp the sticker glue 6, and the feed platform 415 returns to the standby position from the feed position. Then the cutting assembly 43 acts to cut the sticker glue 6 .

Referring to Fig. 6 and Fig. 7 at the same time, the adsorption assembly 44 is driven by a power source and moves from the top of the working platform 45 together with the cut sticker glue 6 to the pressing platform 51 of the insulating paper winding mechanism 5 (the moving direction is shown in Fig. 6 arrow), when the adsorption component 44 reaches the pressing platform 51, it will produce a stroke down to the pressing platform 51. On the insulating paper 7 above the platform 51 , the suction force of the adsorption component 44 disappears, so that the sticker glue 6 can no longer be attached to the bottom of the adsorption component 44 and instead adhere to the insulating paper 7 . Finally, the adsorption assembly 44 returns from the position above the pressing platform 51 (as shown in FIG. 7 ) to the position above the working platform 45 (as shown in FIG. 6 ), completing a cycle operation.

The new type is equipped with sticky sticker glue, which can directly adhere the sticker glue to the insulating paper, reducing the disadvantages of the existing technology, such as displacement or paper folding caused by just placing the pad on the insulating paper, so that the produced The quality of the capacitors is further improved. Furthermore, this new model can pre-design the moving stroke of the feeding platform according to the size of the sticker glue to be attached to the insulating paper, so that the length of the sticker glue cut out by each cutting component is consistent, which not only improves work efficiency, but also Can avoid the waste of sticker glue.

To sum up the above, the new type of insulating paper glue sticking device cuts a predetermined size of sticker glue each time, feeds the material with a pre-set guiding device, and uses the adsorption component to transfer and adhere the cut sticker glue to the insulating paper On the one hand, it is more convenient to provide a fully automated sticker glue circulation operation, and the sticker glue with a predetermined size can completely cover the capacitor guide pin to provide protection, so as to eliminate the shortcomings of the existing technology that waste paper pads, and achieve the new the purpose sought.

But the above-mentioned person is only the preferred embodiment of the present utility model, and should not limit the scope of implementation of the present utility model with this; and modification, all should still belong to the scope covered by the utility model patent.

Claims (5)

1, a kind of insulating paper tape sticking device, it is arranged in pairs or groups mutually with an insulating paper winding mechanism and is attached to by on the handled insulating paper of this insulating paper winding mechanism with the paster gluing with cropped slabbing, it is characterized in that this insulating paper tape sticking device includes:

A guiding device has several rollers, and a pair of up and down relatively and can be driven and toward each other near and away from the feeding pressing plate, this paster glue is to be transmitted via these rollers;

The positioner of this guiding device of vicinity, have a pair of up and down relatively and can be driven and toward each other near and away from keeper;

The assembly that cuts that is positioned at this positioner in contrast to a side of feeding pressing plate; And

One with respect to cutting assembly more away from this positioner, and the absorbent module of this insulating paper winding mechanism of relative proximity.

2, insulating paper tape sticking device as claimed in claim 1 is characterized in that: the roller of this guiding device is arrangement interlaced with each other, so that paster glue is entirely guided.

3, insulating paper tape sticking device as claimed in claim 1 is characterized in that: feeding pressing plate is subjected to a drive power source on this.

4, insulating paper tape sticking device as claimed in claim 1 is characterized in that: these keepers are subjected to a drive power source.

5, insulating paper tape sticking device as claimed in claim 1 is characterized in that: this absorbent module is subjected to a drive power source.

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