CN216391506U - High-efficient subsides installation of FPC compensating gauge - Google Patents

Abstract

The utility model provides a high-efficient subsides installation of FPC compensator, its includes the base, set up at the mold pressing device of base top, the drive arrangement who is connected with the mold pressing device, connect the heating device on the base, drive arrangement drives the mold pressing device motion in vertical direction, makes the mold pressing device push down on the base or upwards keep away from the base, be equipped with the water conservancy diversion passageway on the base, heating device includes electric heat box, air pump and a plurality of pipe, and the electric heat box is equipped with gas outlet and air inlet, the gas outlet of electric heat box passes through air pump, pipe and is connected with one side of water conservancy diversion passageway, the air inlet of electric heat box passes through the pipe and is connected with water conservancy diversion passageway opposite side. The utility model has the beneficial effects that the whole heat conducting plate is uniformly heated by flowing hot air in the heat conducting plate, the attaching quality of the compensating sheet on the FPC is improved, the quality of the circuit board is improved, the practicability is strong, and the popularization significance is stronger.

Description

High-efficient subsides installation of FPC compensating gauge

Technical Field

The utility model relates to production equipment, in particular to an efficient sticking machine for an FPC compensation piece.

Background

The FPC is a circuit board in which a thin flexible layer and a rigid layer are bonded. The rigid-flex combined board changes the traditional planar design concept, expands the three-dimensional space concept, has stronger performance and higher stability, simultaneously limits the design range in one assembly, and optimizes the space by bending and folding the circuit. The rigid-flex combined plate has the characteristics of flexibility and folding due to the fact that the rigid-flex combined plate has the rigid layer and the flexible layer, and is widely applied to many fields.

FPC is easy to bend due to low rigidity, and compensation pieces need to be added locally according to use requirements to increase the strength of the portion, but the existing FPC compensation piece attaching process is affected by processing equipment, uneven heating is caused during attaching, attaching quality is affected, and quality of a circuit board is further affected

SUMMERY OF THE UTILITY MODEL

In view of the above, it is necessary to provide an efficient mounting machine for FPC compensation pads in order to overcome the disadvantages of the prior art.

The utility model provides a high-efficient subsides installation of FPC compensator, its includes the base, set up at the mold pressing device of base top, the drive arrangement who is connected with the mold pressing device, connect the heating device on the base, drive arrangement drives the mold pressing device motion in vertical direction, makes the mold pressing device push down on the base or upwards keep away from the base, be equipped with the water conservancy diversion passageway on the base, heating device includes electric heat box, air pump and a plurality of pipe, and the electric heat box is equipped with gas outlet and air inlet, the gas outlet of electric heat box passes through air pump, pipe and is connected with one side of water conservancy diversion passageway, the air inlet of electric heat box passes through the pipe and is connected with water conservancy diversion passageway opposite side.

Furthermore, the base comprises a body part and a heat conducting part arranged on the upper end surface of the body part, the body part and the heat conducting part surround a leading-in hole, a front connecting hole, a flow channel hole, a rear connecting hole and a leading-out hole, and the leading-in hole, the front connecting hole, the flow channel hole, the rear connecting hole and the leading-out hole form a complete flow guide channel.

Furthermore, the upper end surface of the body part is provided with a first heat conduction groove, the first heat conduction groove comprises a first leading-in section, a first front connecting section, a plurality of first flow channel sections, a first rear connecting section and a first leading-out section, two sides of each first flow channel section are respectively communicated with the first front connecting section and the first rear connecting section, two sides of each first leading-in section are respectively communicated with the first front connecting section and the outer side surface of the body part, and two sides of each first leading-out section are respectively communicated with the first rear connecting section and the outer side surface of the other side of the body part.

Further, the first flow channel section extends in the transverse direction, and the first front connecting section and the first rear connecting section extend in the longitudinal direction.

Furthermore, a second heat conduction groove is formed in the lower end face of the heat conduction portion, the second heat conduction groove comprises a second leading-in section, a second front connecting section, a plurality of second flow channel sections, a second rear connecting section and a second leading-out section, two sides of each second flow channel section are respectively communicated with the second front connecting section and the second rear connecting section, two sides of each second leading-in section are respectively communicated with the second front connecting section and the outer side face of the heat conduction portion, and two sides of each second leading-out section are respectively communicated with the second rear connecting section and the outer side face of the other side of the heat conduction portion.

Further, the second flow channel section extends in the transverse direction, and the second front connecting section and the second rear connecting section extend in the longitudinal direction.

Furthermore, the first leading-in section and the second leading-in section surround a leading-in hole, the first front connecting section and the second front connecting section surround a front connecting hole, the first flow passage section and the second flow passage section surround a flow passage hole, the first rear connecting section and the second rear connecting section surround a rear connecting hole, and the first leading-out section and the second leading-out section surround a leading-out hole.

The utility model has the beneficial effects that the whole heat conducting plate is uniformly heated by flowing hot air in the heat conducting plate, the attaching quality of the compensating sheet on the FPC is improved, the quality of the circuit board is improved, the practicability is strong, and the popularization significance is stronger.

Drawings

Fig. 1 is a schematic structural diagram of an FPC compensation sheet high-efficiency mounter of the present invention.

Fig. 2 is a plan view of a heat-conducting plate of the FPC compensation sheet high-efficiency mounter shown in fig. 1.

Fig. 3 is a plan view of the main body of the FPC compensation sheet high-efficiency mounter shown in fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments.

As shown in fig. 1 to 3, the present invention provides an FPC compensation sheet high efficiency mounter for mounting a compensation sheet on a local area of an FPC to increase the bending strength of the local area, the FPC compensation sheet high efficiency mounter includes a base 20, a mold pressing device 10 disposed above the base 20, a driving device 30 connected to the mold pressing device 10, and a heating device 40 connected to the base 20, wherein the driving device 30 drives the mold pressing device 10 to move in a vertical direction, so that the mold pressing device 10 is pressed down on the base 20 or moved upward away from the base 20.

The base 20 includes a main body 21 and a heat conducting portion 22 installed on an upper end surface of the main body 21, the upper end surface of the main body 21 is provided with a first heat conducting groove, the first heat conducting groove includes a first introduction section 211, a first front connecting section 212, a plurality of first flow channel sections 213, a first rear connecting section 214 and a first derivation section 215, the first flow channel sections 213 extend in a transverse direction, the first front connecting section 212 and the first rear connecting section 214 extend in a longitudinal direction, two sides of the first flow channel sections 213 are respectively communicated with the first front connecting section 212 and the first rear connecting section 214, two sides of the first introduction section 211 are respectively communicated with outer side surfaces of the first front connecting section 212 and the main body 21, and two sides of the first derivation section 215 are respectively communicated with outer side surfaces of the first rear connecting section 214 and the other side of the main body 21.

The lower end surface of the heat conducting portion 22 is provided with a second heat conducting groove, the second heat conducting groove includes a second leading-in section 221, a second front connecting section 222, a plurality of second flow channel sections 223, a second rear connecting section 224 and a second leading-out section 225, the second flow channel sections 223 extend in the transverse direction, the second front connecting section 222 and the second rear connecting section 224 extend in the longitudinal direction, two sides of the second flow channel sections 223 are respectively communicated with the second front connecting section 222 and the second rear connecting section 224, two sides of the second leading-in section 221 are respectively communicated with the second front connecting section 222 and the outer side surface of the heat conducting portion 22, and two sides of the second leading-out section 225 are respectively communicated with the second rear connecting section 224 and the outer side surface of the other side of the heat conducting portion 22.

After the heat conducting portion 22 is installed in cooperation with the body portion 21, the first leading-in section 211 and the second leading-in section 221 surround a leading-in hole, the first front connecting section 212 and the second front connecting section 222 surround a front connecting hole, the first flow passage section 213 and the second flow passage section 223 surround a flow passage hole, the first rear connecting section 214 and the second rear connecting section 224 surround a rear connecting hole, the first leading-out section 215 and the second leading-out section 225 surround a leading-out hole, and the leading-in hole, the front connecting hole, the flow passage hole, the rear connecting hole and the leading-out hole form a complete flow guiding passage 50.

Heating device 40 still includes electric heat box 41, air pump 42 and a plurality of pipe 43, the import hole that air pump 42, pipe 43 and water conservancy diversion passageway 50 are passed through to the gas outlet of electric heat box 41 connects gradually, the air inlet of electric heat box 41 passes through pipe 43 and is connected with the export hole of water conservancy diversion passageway 50, electric heat box 41 heats the air, air pump 42 realizes that hot-air circulation flows, heats the heat-conducting plate, through setting up a plurality of flow passage holes that transversely extend, can guarantee whole heat-conducting plate thermally equivalent. When processing, the compensation sheet is pre-pasted on the FPC, then the FPC is placed on the heat conducting plate, the mould pressing device 10 is pressed down on the FPC, and the compensation sheet is firmly fixed on the FPC under the conditions of heating and pressurizing.

The utility model has the advantages that the whole heat conducting part 22 is uniformly heated by flowing hot air in the heat conducting part 22, the attaching quality of the compensating sheet on the FPC is improved, the quality of the circuit board is improved, the practicability is strong, and the popularization significance is stronger.

The above-described embodiments only represent one embodiment of the present invention, and the description thereof is more specific and detailed, but not to be construed as limiting the scope of the utility model. It should be noted that, for those skilled in the art, many variations and modifications can be made without departing from the spirit of the utility model, and these are within the scope of the utility model. Therefore, the protection scope of the utility model patent should be subject to the appended claims.

Claims (7)

1. The utility model provides a high-efficient subsides installation of FPC compensator, its characterized in that, includes the base, sets up at the mold pressing device of base top, the drive arrangement who is connected with the mold pressing device, connects the heating device on the base, drive arrangement drives the mold pressing device motion in vertical direction, makes the mold pressing device push down on the base or upwards keep away from the base, be equipped with the water conservancy diversion passageway on the base, heating device includes electric heat box, air pump and a plurality of pipe, and the electric heat box is equipped with gas outlet and air inlet, the gas outlet of electric heat box is passed through air pump, pipe and is connected with one side of water conservancy diversion passageway, the air inlet of electric heat box passes through the pipe and is connected with water conservancy diversion passageway opposite side.

2. The FPC compensation sheet high efficiency mounter according to claim 1, wherein: the base comprises a body part and a heat conducting part arranged on the upper end face of the body part, the body part and the heat conducting part surround to form a leading-in hole, a front connecting hole, a flow passage hole, a rear connecting hole and a leading-out hole, and the leading-in hole, the front connecting hole, the flow passage hole, the rear connecting hole and the leading-out hole form a complete flow guide channel.

3. The FPC compensation sheet high efficiency mounter according to claim 2, wherein: the upper end face of the body part is provided with a first heat conduction groove, the first heat conduction groove comprises a first leading-in section, a first front connecting section, a plurality of first flow channel sections, a first rear connecting section and a first leading-out section, two sides of each first flow channel section are respectively communicated with the first front connecting section and the first rear connecting section, two sides of each first leading-in section are respectively communicated with the outer side faces of the first front connecting section and the body part, and two sides of each first leading-out section are respectively communicated with the outer side faces of the other sides of the first rear connecting section and the body part.

4. The FPC compensation sheet high efficiency mounter according to claim 3, wherein: the first flow channel section extends in the transverse direction, and the first front connecting section and the first rear connecting section extend in the longitudinal direction.

5. The FPC compensation sheet high efficiency mounter according to claim 3, wherein: the lower end face of the heat conducting portion is provided with a second heat conducting groove, the second heat conducting groove comprises a second leading-in section, a second front connecting section, a plurality of second flow channel sections, a second rear connecting section and a second leading-out section, two sides of each second flow channel section are respectively communicated with the second front connecting section and the second rear connecting section, two sides of each second leading-in section are respectively communicated with the outer side faces of the second front connecting section and the heat conducting portion, and two sides of each second leading-out section are respectively communicated with the outer side faces of the other sides of the second rear connecting section and the heat conducting portion.

6. The FPC compensation sheet high efficiency mounter according to claim 5, wherein: the second flow channel section extends in the transverse direction, and the second front connecting section and the second rear connecting section extend in the longitudinal direction.

7. The FPC compensation sheet high efficiency mounter according to claim 5, wherein: the first leading-in section and the second leading-in section surround a leading-in hole, the first front connecting section and the second front connecting section surround a front connecting hole, the first flow channel section and the second flow channel section surround a flow channel hole, the first rear connecting section and the second rear connecting section surround a rear connecting hole, and the first leading-out section and the second leading-out section surround a leading-out hole.

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