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Edge sticking prevention conducting strip pretreatment device for far infrared heating

A processing equipment, far-infrared technology, applied in the field of far-infrared heating, can solve the problems of difficult to accurately control the thickness of conductive adhesive, affecting the personal safety of users, waste of conductive adhesive, etc.

Active Publication Date: 2021-12-03
杭州莱维光电技术有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] However, since the glass fiber cloth is used as the substrate carrier, the surface of the glass fiber cloth product is uneven, and the thickness of the conductive adhesive is difficult to control accurately after the conductive adhesive is applied , and, when coating the surface of the glass fiber cloth with conductive adhesive, the conductive adhesive overflows to the edge of the glass fiber cloth, and in the event of a short circuit or leakage, it will seriously affect the personal safety of the user. Secondly, as a heating sheet, it is necessary to The glass fiber cloth coated with conductive adhesive is cut to make heating sheet products of different specifications. During the cutting process, the conductive adhesive will adhere to the cutter, which will affect the continuous use of the cutter and bring Waste of conductive adhesive;

Method used

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  • Edge sticking prevention conducting strip pretreatment device for far infrared heating
  • Edge sticking prevention conducting strip pretreatment device for far infrared heating
  • Edge sticking prevention conducting strip pretreatment device for far infrared heating

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0042] A kind of anti-edge adhesive conductive sheet pretreatment equipment for far-infrared heating, according to Figure 1-3 As shown, it includes a chassis 1, a base 2, a ladder 3, a handrail 4, a glue box 5, a power element 6, a heating element 7, an adhesive unit, a flattening expansion unit, a flanging protection unit, and an anti-adhesive slicing unit and a fixed transfer unit; the bottom frame 1 is connected with two bases 2; the bottom frame 1 is installed with two ladders 3; the heating element 7 is installed above the bottom frame 1; the bottom frame 1 is connected with an adhesive unit; the bottom frame 1 is connected with The flanging protection unit; the base frame 1 is connected with an anti-adhesive slicing unit; the base frame 1 is connected with a fixed transfer unit; each ladder 3 is welded with two handrails 4; the adhesive unit is connected with a flattening expansion unit; the adhesive The unit is connected to the flattening expansion unit; the glue unit ...

Embodiment 2

[0056] On the basis of Example 1, according to figure 1 and Figure 12-16 As shown, the anti-adhesive slicing unit includes a fourth bracket 401, a second electric actuator 402, a third connecting rod 403, a second sliding rod 404, a cutting element 405 and a rubber assembly; the chassis 1 is bolted with a fourth Bracket 401; the second electric actuator 402 is bolted on the fourth bracket 401; the second electric actuator 402 is welded with a third connecting rod 403; the third connecting rod 403 is bolted with two second slide bars 404; the fourth The bracket 401 is slidably connected to the second sliding rod 404; the two second sliding rods 404 are respectively welded to the cutting element 405; the cutting element 405 is used for cutting the glass fiber cloth.

[0057] After the glass fiber cloth is coated with conductive adhesive, the conductive adhesive is heated and cured by the heating element 7 to form a self-adhesive state, and then, with the cooperation of the fix...

Embodiment 3

[0061]On the basis of Example 2, according to figure 1 and Figure 12-16 As shown, the rubber dial assembly includes a limit slide rail 406, a slide plate 407, a fourth connecting rod 408, a third elastic element 409 and a distribution element 4010; the fourth bracket 401 is welded with two limit slide rails 406; each limit A group of slide plates 407 are slidably connected to the position slide rail 406; two slide plates 407 between each group are connected by an elastic member; two slide plates 407 on the same side are respectively welded with a fourth connecting rod 408; the fourth connecting rod 408 and the two A third elastic element 409 is affixed; two third elastic elements 409 are respectively affixed with the distribution element 4010; two distribution elements 4010 are in contact with the cutting element 405; the distribution element 4010 is used to speak of glass fiber cloth Divide the glue on the glass fiber cloth, and then cut the glass fiber cloth.

[0062] Whe...

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PUM

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Abstract

The invention relates to the field of far infrared heating, in particular to an edge sticking prevention conducting strip pretreatment device for far infrared heating. The invention aims to solve the technical problems that the thickness of a conductive adhesive coated on glass fiber cloth with an uneven surface is difficult to control, and the conductive adhesive overflows to an edge part when the conductive adhesive is coated. According to the technical scheme, the edge sticking prevention conducting strip pretreatment device for far infrared heating comprises a gluing unit, a smoothing and expanding unit, an edge turning protection unit and the like. According to the invention, after the glass fiber cloth is flattened, the parts, with scattered fibers, of the two sides of the glass fiber cloth are bent and warped up, so that the fibers on the two sides are prevented from being stained with a conductive adhesive; and when the glass fiber cloth coated with the conductive adhesive is cut, cutting is carried out after the conductive adhesive is pushed aside, so that a cutter is prevented from being stained with the conductive adhesive.

Description

technical field [0001] The invention relates to the field of far-infrared heating, in particular to a pretreatment device for edge-proof adhesive conductive sheets used for far-infrared heating. Background technique [0002] The relatively safe far-infrared heating method solves the problem of low temperature in winter and safety in daily heating equipment; [0003] Far-infrared heating converts electric energy into heat energy, and heats and heats by converting heat energy into far-infrared rays. Electric heating sheets are the core components for converting electric energy into heat energy. Generally, electric heating sheets are produced by using glass fiber cloth as a conductive The carrier of the glue is then made by laminating high-temperature resistant plates on both sides; [0004] However, since the glass fiber cloth is used as the substrate carrier, the surface of the glass fiber cloth product is uneven. After the conductive adhesive is coated, the thickness of the...

Claims

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Application Information

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IPC IPC(8): B05C5/02B05C11/10B05C13/02B05C9/14B05C9/12B05D3/02D06H7/00
CPCB05C5/02B05C11/10B05C13/02B05C9/14B05C9/12B05D3/0254D06H7/00
Inventor 蒙鸿斌
Owner 杭州莱维光电技术有限公司