CN215749622U - Die-cut formula heat conduction insulating pad forming device and contain its make-up machine - Google Patents

Abstract

The utility model discloses a die-cut type heat-conducting insulating pad forming device which comprises a female die component and a male die component, wherein the male die component is arranged above the female die component and can move up and down relative to the female die component; the heat-conducting insulating pad blank to be punched is arranged between the female die assembly and the male die assembly and is positioned on the female die assembly; through the terrace die assembly that sets up and can reciprocate to through the cooperation of shaping terrace die and shaping die, die-cut the heat conduction insulating pad blank that lies in between terrace die assembly and the die assembly, thereby realize the contour machining of heat conduction insulating pad.

Description

Die-cut formula heat conduction insulating pad forming device and contain its make-up machine

Technical Field

The utility model relates to the field of assembly type buildings, in particular to a punching type heat conduction insulating pad forming device and a forming machine comprising the same.

Background

The heat-conducting insulating pad is a high-performance gap-filling heat-conducting material, and is mainly used for a transmission interface between electronic equipment and a heat sink or a product shell. Has good viscosity, flexibility, good compression performance and excellent thermal conductivity, so that the air between the electronic component and the heat sink can be completely exhausted in use to achieve sufficient contact. The heat dissipation effect is obviously increased.

The common processing mode is mainly that a corresponding template is processed by adopting a machining mode according to the shape of the appearance structure of the insulating pad, and then the template is compared by utilizing a blade to carry out appearance cutting processing.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the processing mode of a heat conduction insulating pad is single, and aims to provide a punching type heat conduction insulating pad forming device and a forming machine comprising the same, so that the problem of processing the heat conduction insulating pad is solved.

The utility model is realized by the following technical scheme:

a die-cut thermally conductive insulating mat forming apparatus comprising:

a female die assembly;

the male die assembly is arranged above the female die assembly and can move up and down relative to the female die assembly;

the heat-conducting insulating pad blank to be punched is arranged between the female die assembly and the male die assembly and is positioned on the female die assembly;

the die assembly comprises:

a female die supporting seat;

the forming female die is connected with the female die supporting seat and is provided with a vertical groove;

the male die assembly comprises:

a male die fixing plate;

the forming male die is vertically arranged, and the upper end of the forming male die is connected with the male die fixing plate;

the forming male die is matched with the vertical groove on the forming female die, and when the forming male die is in a punching state, the lower end of the forming male die is arranged in the vertical groove.

Specifically, the forming die includes:

the vertical groove is arranged in the upper module and penetrates through the upper side face and the lower side face of the upper module;

the lower module is arranged below the upper module and is fixedly connected with the female die supporting seat, and a gap is formed between the upper module and the lower module;

the upper end of the connecting module is fixedly connected with the upper module, and the lower end of the connecting module is fixedly connected with the lower module;

wherein, the projection of the connecting module on the upper module is positioned at one side of the vertical slot.

Preferably, the gap between the upper module and the lower module is not less than the thickness of the heat-conducting insulating pad blank.

Further, the upper side surface of the female die supporting seat is provided with a mounting groove, and two side surfaces of the mounting groove are provided with transverse through holes for communicating the mounting groove and the outer part of the female die supporting seat;

the lower module is arranged in the mounting groove, and positioning holes corresponding to the transverse through holes are formed in two sides of the lower module;

the die supporting seat and the lower die block are fixedly connected through a positioning pin penetrating through the transverse through hole and the positioning hole.

Preferably, the depth of the mounting groove is not greater than the thickness of the lower module.

Specifically, a plurality of vertical through holes are formed in the male die fixing plate in a penetrating mode, threaded holes corresponding to the vertical through holes are formed in the upper end of the forming male die, and the male die fixing plate and the forming male die are fixedly connected through connecting screws which penetrate through the vertical through holes and are in threaded connection with the threaded holes.

As an embodiment, a plurality of vertical grooves are arranged on the forming female die, the number of the forming male dies is equal to that of the vertical grooves, and the forming male dies are arranged corresponding to the vertical grooves.

Specifically, the forming male die is provided with a plurality of sizes, and the forming female die is provided with a plurality of sizes matched with the forming male die.

A die-cut, thermally conductive, insulating mat forming machine comprising:

the above punching type heat-conducting insulating pad forming device;

carrying the press by hand;

the female die assembly is fixedly connected with the working table top of the hand-moving press through a fixing bolt;

the male die assembly is fixedly connected with the punching end of the hand-held press through a vertically arranged connecting rod, and the moving direction of the male die assembly is parallel to the punching direction of the hand-held press.

A die-cut, thermally conductive, insulating mat forming machine comprising:

the above punching type heat-conducting insulating pad forming device;

drilling machine;

the female die assembly is fixedly connected with the working table surface of the drilling machine through a fixing bolt;

the male die assembly is fixedly connected with a rotary head shaft of the drilling machine through a vertically arranged connecting rod, and the moving direction of the male die assembly is parallel to the up-and-down moving direction of a drill bit of the drilling machine.

Compared with the prior art, the utility model has the following advantages and beneficial effects:

through the terrace die assembly that sets up and can reciprocate to through the cooperation of shaping terrace die and shaping die, die-cut the heat conduction insulating pad blank that lies in between terrace die assembly and the die assembly, thereby realize the contour machining of heat conduction insulating pad.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate exemplary embodiments of the utility model and together with the description serve to explain the principles of the utility model.

Fig. 1 is a schematic structural diagram of a die-cut thermal conductive insulating pad forming device according to the present invention.

Reference numerals: 1-connecting rod, 2-punch fixing plate, 3-forming punch, 4-forming die, 5-die supporting seat, 6-positioning pin and 7-fixing bolt.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It is to be understood that the specific embodiments described herein are for purposes of illustration only and are not to be construed as limitations of the utility model.

It should be noted that, for convenience of description, only the portions related to the present invention are shown in the drawings.

In the present invention, the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the accompanying drawings in conjunction with embodiments.

At present, the heat conducting pad has good heat conducting capacity and high-grade pressure resistance, and is a substitute material for heat conducting silicone grease. The heat-conducting insulating pad has certain flexibility and self-adhesive property, can be well attached between a power device and a heat-radiating aluminum sheet or a machine shell, achieves the best heat-conducting and heat-radiating purposes, meets the requirements of the current electronic industry on heat-conducting materials, and is the best product for replacing a binary heat-radiating system of heat-conducting silicone grease heat-conducting paste and mica sheets.

Also known in the industry as heat conductive silicone sheets, flexible heat dissipating pads, and the like. The heat-conducting insulating pad has certain flexibility, excellent insulativity, compressibility and natural viscosity on the surface, can fill gaps, can complete heat transfer between a heating part and a radiating part, has the process thickness of 0.5 mm-5 mm, can increase the special requirement to 15 mm, has the functions of shock absorption, insulation, sealing and the like, is a new material with the process property and the usability, is widely applied to electronic and electric products,

example one

A punching type heat-conducting insulating pad forming device comprises a female die component and a male die component, wherein the male die component is arranged above the female die component and can move up and down relative to the female die component;

the heat-conducting insulating pad blank to be punched is arranged between the female die assembly and the male die assembly and is positioned on the female die assembly;

when the heat conduction insulating pad needs to be processed, the heat conduction insulating pad blank is placed on the female die assembly, then the male die assembly is moved downwards, and the heat conduction insulating pad blank is punched, so that the heat conduction insulating pad blank is processed.

The structures of the female die assembly and the male die assembly are provided so that the female die assembly and the male die assembly can realize the functions.

The female die assembly comprises a female die supporting seat 5 and a forming female die 4, the forming female die 4 is connected with the female die supporting seat 5, and a vertical groove is formed in the forming female die 4;

the male die component comprises a male die fixing plate 2 and a forming male die 3, the forming male die 3 is vertically arranged, and the upper end of the forming male die 3 is connected with the male die fixing plate 2;

the forming convex die 3 is matched with a vertical groove on the forming concave die 4, and when the forming convex die is in a punching state, the lower end of the forming convex die 3 is arranged in the vertical groove.

The forming female die 4 is fixedly connected with the female die supporting seat 5, the vertical groove matched with the forming male die 3 is formed in the forming female die 4, the heat-conducting insulating pad blank is arranged on the forming female die 4, part of the heat-conducting insulating pad blank positioned on the vertical groove is punched by moving the forming male die 3 downwards, the heat-conducting insulating pad blank is pressed into the vertical groove, and punching of the heat-conducting insulating pad blank is achieved.

Therefore, in order to realize the production of the heat-conducting insulating pad with different structures, the vertical grooves and the forming male dies 3 can be manufactured in a targeted manner.

Therefore, it can be seen that the forming female die 4 and the forming male die 3 can be replaced according to requirements, so that the production of heat-conducting insulating pads with different sizes can be realized.

The molding male die 3 is provided with a plurality of sizes and the molding female die 4 is provided with a plurality of sizes matched with the molding male die 3.

In order to realize replacement of the molding punch 3 and the molding die 4, the following embodiments are provided.

Example two

The present embodiment explains the structures of the forming die 4 and the forming punch 3, which are convenient to be replaced according to the requirements.

The forming female die 4 comprises an upper die block, a lower die block and a connecting die block.

The upper module and the lower module are rectangular blocks and are arranged in parallel, and the connecting module is of a structure for connecting the upper module and the lower module and can be a connecting rod 1 and a connecting block. And the upper module, the lower module and the connecting module can adopt an integrally formed structure and can also adopt welding or screw connection without specific requirements.

The vertical groove is arranged in the upper module and penetrates through the upper side surface and the lower side surface of the upper module;

the lower module is arranged below the upper module and is fixedly connected with the female die supporting seat 5, a gap is formed between the upper module and the lower module, and the gap between the upper module and the lower module is not smaller than the thickness of the heat-conducting insulating pad blank.

The clearance that sets up between lower module and the last module is convenient for the heat conduction insulating pad that processing was accomplished takes out, and after the processing of heat conduction insulating pad blank through shaping terrace die 3 and shaping die 4, fall into the bottom in the perpendicular groove of shaping die 4, finally fall on the last side of module down, then can follow the clearance between last module and the lower module and take out the heat conduction insulating pad that processing was accomplished.

Therefore, when the connecting module is connected, the upper end of the connecting module is fixedly connected with the upper module, the lower end of the connecting module is fixedly connected with the lower module, the specific connecting position is not specified, but the gap and the vertical groove are not blocked, so that the position of the connecting module is limited, namely the projection of the connecting module on the upper module is positioned on one side of the vertical groove.

Because the forming female die 4 needs to be replaced according to the needs, the upper side surface of the female die supporting seat 5 is provided with a mounting groove, and two side surfaces of the mounting groove are provided with transverse through holes for communicating the mounting groove and the outer part of the female die supporting seat 5;

the lower module is arranged in the mounting groove, and positioning holes corresponding to the transverse through holes are formed in the two sides of the lower module;

the female die supporting seat 5 is fixedly connected with the lower die block through a positioning pin 6 penetrating through the transverse through hole and the positioning hole.

The lower module is fixed by traversing the transverse through hole and the positioning hole, and meanwhile, in order to realize the fixation, the size of the mounting groove needs to be set to be not smaller than that of the lower module.

In order to conveniently take out the processed heat conduction insulating pad from the gap, the gap needs to be positioned above the mounting groove, and therefore the depth of the mounting groove is not larger than the thickness of the lower module.

Similarly, the replacement of the forming female die 4 is realized, and the forming male die 3 needs to be replaced correspondingly.

The male die fixing plate 2 is provided with a plurality of vertical through holes which penetrate through the male die fixing plate, the upper end of the forming male die 3 is provided with a threaded hole corresponding to the vertical through holes, and the male die fixing plate 2 and the forming male die 3 are fixedly connected through connecting screws which penetrate through the vertical through holes and are in threaded connection with the threaded holes.

When the forming male die 3 needs to be replaced, the connecting screw is loosened, the forming male die 3 is detached, and then the forming male die 3 matched with a new part is replaced, and then the mounting is carried out.

EXAMPLE III

This embodiment is directed against mass production, can die-cut more heat conduction insulating pad for the removal of a time terrace die subassembly, consequently can be provided with a plurality of perpendicular grooves on shaping die 4, has set up a plurality of perpendicular grooves and then need set up the shaping terrace die 3 that corresponds quantity.

The number of the forming convex dies 3 is equal to that of the vertical grooves, and the forming convex dies 3 are arranged corresponding to the vertical grooves.

Example four

A punching type heat-conducting insulating pad forming machine comprises the punching type heat-conducting insulating pad forming device and a hand-carrying press;

the female die assembly is fixedly connected with the working table of the hand-carrying press through a fixing bolt 7;

the male die assembly is fixedly connected with the punching end of the hand-held press through a vertically arranged connecting rod 1, and the moving direction of the male die assembly is parallel to the punching direction of the hand-held press.

EXAMPLE five

A punching type heat conduction insulating pad forming machine comprises the punching type heat conduction insulating pad forming device and a drilling machine;

the female die assembly is fixedly connected with the working table surface of the drilling machine through a fixing bolt 7;

the male die assembly is fixedly connected with a rotary head shaft of the drilling machine through a vertically arranged connecting rod 1, and the moving direction of the male die assembly is parallel to the up-down moving direction of a drill bit of the drilling machine.

Aiming at the fourth embodiment and the fifth embodiment, the main structure is consistent, and only a driving device for driving the female die assembly is replaced.

The manual press is manual, and the drilling machine is mechanical.

The shaping of regular and special-shaped cross-section heat conduction insulating pad is realized to the combination of mainly utilizing current hand press equipment or bench drill, thoroughly solve insulating pad pliability, compressibility, the not good technical problem who processes of natural viscidity in surface, and effectively solve the production progress that the production of single small batch of many varieties heat conduction insulating pad improves the part with this, effectively guarantee machining precision and required product structural state, also can provide technical reserve for other similar structure spare part processing simultaneously, can change the corresponding shaping die 4 of the device and the 3 parts of shaping terrace die can satisfy the processing needs according to different part structural dimension and shape and material kind and thickness simultaneously, also can improve into the continuous mode apparatus for producing that is fit for automated production for this technological platform.

The heat-conducting insulating pad blank is placed between the male die component and the female die component in the machining process, the handle of the equipment drives the male die component to generate pressure downwards and brings the heat-conducting insulating pad blank into a vertical groove of the forming female die 4 to form a completely closed state, so that part machining is completed, the handle of the equipment moves upwards in the opposite direction to drive the forming male die 3 component to a safe distance, and the blank is taken out to move to a next machining position, so that the next part machining process is completed.

In the description herein, reference to the description of the terms "one embodiment/mode," "some embodiments/modes," "example," "specific example," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment/mode or example is included in at least one embodiment/mode or example of the application. In this specification, the schematic representations of the terms used above are not necessarily intended to be the same embodiment/mode or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments/modes or examples. Furthermore, the various embodiments/aspects or examples and features of the various embodiments/aspects or examples described in this specification can be combined and combined by one skilled in the art without conflicting therewith.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless specifically limited otherwise.

It will be understood by those skilled in the art that the foregoing embodiments are merely for clarity of description and are not intended to limit the scope of the utility model. Other variations or modifications to the above described invention may occur to those skilled in the art and are within the scope of the utility model.

Claims (10)

1. The utility model provides a die-cut formula heat conduction insulating mattress forming device which characterized in that includes:

a female die assembly;

the male die assembly is arranged above the female die assembly and can move up and down relative to the female die assembly;

the heat-conducting insulating pad blank to be punched is arranged between the female die assembly and the male die assembly and is positioned on the female die assembly;

the die assembly comprises:

a female die supporting seat;

the forming female die is connected with the female die supporting seat and is provided with a vertical groove;

the male die assembly comprises:

a male die fixing plate;

the forming male die is vertically arranged, and the upper end of the forming male die is connected with the male die fixing plate;

the forming male die is matched with the vertical groove on the forming female die, and when the forming male die is in a punching state, the lower end of the forming male die is arranged in the vertical groove.

2. The die-cut type heat-conducting insulating pad forming device according to claim 1, wherein the forming female die comprises:

the vertical groove is arranged in the upper module and penetrates through the upper side face and the lower side face of the upper module;

the lower module is arranged below the upper module and is fixedly connected with the female die supporting seat, and a gap is formed between the upper module and the lower module;

the upper end of the connecting module is fixedly connected with the upper module, and the lower end of the connecting module is fixedly connected with the lower module;

wherein, the projection of the connecting module on the upper module is positioned at one side of the vertical slot.

3. The die-cut thermal pad forming apparatus of claim 2, wherein the gap between the upper die block and the lower die block is not less than the thickness of the thermal pad blank.

4. The die-cut type forming device for the heat-conducting and insulating pad according to claim 2 or 3, wherein an installation groove is formed on the upper side surface of the female die supporting seat, and transverse through holes communicating the installation groove with the outside of the female die supporting seat are formed on two side surfaces of the installation groove;

the lower module is arranged in the mounting groove, and positioning holes corresponding to the transverse through holes are formed in two sides of the lower module;

the die supporting seat and the lower die block are fixedly connected through a positioning pin penetrating through the transverse through hole and the positioning hole.

5. The apparatus of claim 4, wherein the depth of the mounting groove is not greater than the thickness of the lower mold block.

6. The forming device for the die-cut heat-conducting insulating pad according to claim 1, wherein a plurality of vertical through holes are formed in the punch retainer, threaded holes corresponding to the vertical through holes are formed in the upper end of the forming punch, and the punch retainer and the forming punch are fixedly connected through connecting screws which penetrate through the vertical through holes and are in threaded connection with the threaded holes.

7. The forming device for the die-cut heat-conducting insulating pad according to claim 1, wherein the forming female die is provided with a plurality of vertical slots, the number of the forming male dies is equal to that of the vertical slots, and the forming male dies are arranged corresponding to the vertical slots.

8. The die-cut type heat-conducting insulating pad forming device as claimed in claim 1 or 7, wherein the forming male die is provided with a plurality of sizes, and the forming female die is provided with a plurality of sizes matched with the forming male die.

9. A die-cut type heat conduction insulating pad forming machine is characterized by comprising:

a die-cut thermally conductive insulating mat forming apparatus as claimed in any one of claims 1 to 8;

carrying the press by hand;

the female die assembly is fixedly connected with the working table top of the hand-moving press through a fixing bolt;

the male die assembly is fixedly connected with the punching end of the hand-held press through a vertically arranged connecting rod, and the moving direction of the male die assembly is parallel to the punching direction of the hand-held press.

10. A die-cut type heat conduction insulating pad forming machine is characterized by comprising:

a die-cut thermally conductive insulating mat forming apparatus as claimed in any one of claims 1 to 8;

drilling machine;

the female die assembly is fixedly connected with the working table surface of the drilling machine through a fixing bolt;

the male die assembly is fixedly connected with a rotary head shaft of the drilling machine through a vertically arranged connecting rod, and the moving direction of the male die assembly is parallel to the up-and-down moving direction of a drill bit of the drilling machine.

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