CN219499856U - Elastic heat conduction member applied to electronic device - Google Patents

Abstract

The utility model discloses an elastic heat conduction component applied to an electronic device, wherein at least one group of two wedge-shaped seats in a base side accommodating space of a heat conduction unit are used for accommodating a preset heating element, and at least one group of two opposite fixing seats in a heat conduction space at the other side are used for assembling at least one group of heat conduction parts, two opposite wedge-shaped bodies are erected between the two fixing seats in a floating mode, lifting adjusting parts are respectively arranged on two side edges of the two wedge-shaped bodies and are fixedly arranged on the two fixing seats, at least one elastic body is arranged to separate the two wedge-shaped bodies from the inner sides of the two wedge-shaped bodies to form an adjusting space, so that the two wedge-shaped bodies can be movably abutted against the two wedge-shaped seats, the heat conduction unit is assembled in the accommodating space at one side of the heat exchange part, and a plurality of fins are arranged at the other side of the heat exchange part opposite to the accommodating space, so that the heat conduction unit and the heat exchange part can be tightly assembled, and the aim of assisting in presetting the heating element to dissipate heat is fulfilled.

Description

Elastic heat conduction member applied to electronic device

Technical Field

The utility model relates to an elastic heat conduction component applied to an electronic device, in particular to an elastic heat conduction component which is used for tightly attaching a heat conduction unit and a heat exchange piece and rapidly conducting heat energy.

Background

In the development and the advent of electronic technology, many electronic and electric products are developed and developed, and people are provided with different life and working modes through various electronic and electric products in the living and working environments, and among various electronic and electric products, computers or mobile electronic products are most closely related to life and work, and various types of computers are as follows: desktop computers, notebook computers, tablet computers or Personal Digital Assistants (PDAs), etc. are also most commonly used and frequent electronic and electric products, in which hard disks (SSD, HDD), chips, circuit boards, adapter cards, etc. are provided, and various electronic components and components arranged therein generate heat energy during application and operation, so that heat sources such as Central Processing Units (CPU), microprocessors, chips or hard disks (SSD, HDD) used on circuit boards of various electronic and electric products are required to be quickly removed, and the heat sources such as assembly modes, assembly positions or peripheral spaces of various electronic and electric products are required to be removed, and some removable hard disks (SSD, HDD) are used as and a heat conduction system through heat pads (Thermal pad), but are not good in heat dissipation effect, and the removable hard disks (SSD, HDD) are not easy to be replaced due to heat conduction effects; the Wedge Lock (Wedge Lock) of the cooling conduction (Conduction cooling) mechanism applied to the common electronic products (cPCI, VPX) must reserve a space for installing the Wedge Lock on the circuit board, and must adjust the movement of each Wedge block of the Wedge Lock by external force (such as screw rotation or manual pull rod, etc.), the contact area between each Wedge block of the Wedge Lock is small, the heat conduction efficiency is low (high heat resistance), and the heat dissipation effect is poor.

The heat conducting mechanism for auxiliary heat dissipation applied to various electronic devices is poor in heat conduction efficiency and unsatisfactory in heat dissipation effect, and is easy to influence abnormal operation or failure, damage and the like of a heating source of the electronic device, so that the overall operation of the electronic device is poor.

Therefore, how to solve the problems and problems of the existing electronic device that the heat dissipation effect of the heat source is not ideal, and the applied auxiliary heat dissipation object or mechanism cannot effectively assist the heat dissipation of the heat source, is the direction of research and improvement for relevant manufacturers in the industry.

Disclosure of Invention

Accordingly, in view of the above-mentioned problems and disadvantages, many years of experience accumulated in the industry has been continuously devised and modified, and it is an object of the present utility model to provide an elastic heat conductive member for use in an electronic device.

The utility model provides an elastic heat conduction component applied to an electronic device, at least one group of two wedge-shaped seats in a base side accommodating space of a heat conduction unit for accommodating a preset heating element and a heat conduction space at the other side are two opposite fixing seats for assembling at least one group of heat conduction parts, two opposite wedge-shaped bodies are arranged between the two fixing seats in a floating mode, lifting adjusting parts are respectively arranged on two side edges of the two wedge-shaped bodies, the other side of each lifting adjusting part is fixedly arranged at each fixing seat respectively, the two wedge-shaped bodies are in a floating mode and are positioned at the two opposite fixing seats, at least one elastic body is arranged to isolate the two wedge-shaped bodies relative to the inner side to form an adjusting space, the two wedge-shaped bodies are movably abutted against the two wedge-shaped seats, the heat conduction unit is assembled in the accommodating space at one side of the heat exchange part, a plurality of fins are arranged at the other side of the heat exchange part relative to the accommodating space, and the heat conduction unit and the heat exchange part are in a flexible and floating butt-adjusted tight assembly, so that the aim of assisting the preset heating element to really dissipate heat is achieved.

In an embodiment of the utility model, a sliding guide rail, a sliding chute and the like are respectively embedded between two opposite side wall surfaces of the two outer sides of the base of the heat conducting unit and the accommodating space of the heat exchanging member, the base of the heat conducting unit can be in an H shape, one side of the base of the heat conducting unit is provided with a containing space, at least one group of wedge-shaped seats arranged in the other side of the heat conducting space comprise two opposite seat bodies, the opposite inner sides of the two seat bodies are respectively provided with an inclined joint surface, the two wedge-shaped bodies of the heat conducting part assembled on the at least one group of wedge-shaped seats are respectively in an inverted triangle shape, the opposite outer side surfaces of the two wedge-shaped bodies are respectively provided with a butt joint surface which can be in a floating type butt joint at the joint surfaces of the seat bodies to form a close joint and have a larger contact area, and the two side edges of the two wedge-shaped bodies are respectively provided with lifting adjusting members with springs, torsion springs, spring springs or elastic hook rods and the like, so that the other side of each lifting adjusting member is respectively fixedly arranged at the opposite outer side surfaces of the two fixing seats.

In an embodiment of the utility model, the two wedge-shaped bodies of the heat conducting part are respectively in an inverted triangle shape, and the top parts of the wedge-shaped bodies are respectively provided with a butt joint surface, and the surface above the storage space of the heat exchange part can elastically displace, float and abut against and tightly butt joint to form a larger contact area, so that the aim of rapidly conducting heat energy is fulfilled.

In an embodiment of the present utility model, the base of the heat conducting unit is provided with at least one set of heat conducting parts assembled in the heat conducting space, the two opposite fixing seats are provided with at least one positioning column and at least one fixing piece, the surface of the heat conducting space of the base is respectively provided with at least one positioning hole and at least one fixing hole for embedding and fixing the at least one positioning column and the at least one fixing piece, and the at least one positioning hole and the at least one fixing hole can be a pin rod, a pin hole or a clamping tenon, a mortise hole or a screw rod, a screw hole, etc.

In an embodiment of the present utility model, the accommodating space at one side of the base accommodates a predetermined heating element, and the predetermined heating element may be an access device (e.g. SSD or HDD hard disk) inside a predetermined electronic device (e.g. industrial computer case, server or desktop host), a Central Processing Unit (CPU), a chip or a microprocessor, etc.

In an embodiment of the utility model, the heat exchange member may be a heat radiator or a housing of a preset electronic device, and when the heat exchange member is the heat radiator, a plurality of fins may be disposed at the other side of the heat exchange member opposite to the accommodating space; the heat exchange member may also be a metal housing of a predetermined electronic device, for example: industrial computer cabinets, servers or desktop computers hosts, etc.

Drawings

Fig. 1 is a perspective view of the present utility model.

Fig. 2 is an exploded perspective view of the present utility model.

Fig. 3 is an exploded perspective view of another view of the present utility model.

Fig. 4 is an exploded perspective view of the heat conducting unit of the present utility model.

Fig. 5 is an exploded view of a heat conduction unit according to another aspect of the present utility model.

Fig. 6 is a side cross-sectional view (one) of the present utility model.

Fig. 7 is a side cross-sectional view (ii) of the present utility model.

Reference numerals illustrate: 1-a heat conduction unit; 11-a base; 110-accommodating space; 111-a heat conduction space; 1110-positioning holes; 1111-fixing holes; 112-a guide rail; 12-a heat conduction part; 121-a fixed seat; 1211-positioning posts; 1212-a securing member; 122-wedge; 1221-facing; 1222-a mating surface; 123-lifting adjusting piece; 124-an elastomer; 125-adjusting the space; 13-wedge-shaped seats; 131-a base; 132—an abutment surface; 2-heat exchange elements; 20-accommodating space; 21-fins; 22-sliding grooves; 3-a heating element; 31-locking piece.

Detailed Description

To achieve the above objects and advantages and in accordance with the purpose of the utility model, as well as in the structure and method of practicing the utility model, the features and functions of the preferred embodiments of the utility model are described in detail below for a complete understanding.

Referring to fig. 1, 2, 3, 4, 5, 6 and 7, which are a perspective view, a perspective exploded view of another view, a perspective exploded view of a heat conducting unit, a perspective exploded view of another view of the heat conducting unit, a side view cross-section (one) and a side view cross-section (two), it can be clearly seen that the elastic heat conducting member applied to the electronic device of the present utility model comprises a heat conducting unit 1 and a heat exchanging element 2, wherein:

the heat conducting unit 1 comprises a base 11 and at least one group of heat conducting parts 12 located on the base 11, wherein one side of the base 11 is provided with a containing space 110 for containing a preset heating element 3, the other side of the base 11 opposite to the containing space 110 is provided with a heat conducting space 111 for assembling at least one group of heat conducting parts 12, at least one group of two opposite wedge-shaped seats 13 are arranged in the heat conducting space 111, at least one group of heat conducting parts 12 comprises two opposite fixed seats 121 and two opposite wedge-shaped bodies 122 which can be assembled at two outer sides of the at least one group of wedge-shaped seats 13 and are movably erected between the two fixed seats 121, two side edges of the two wedge-shaped bodies 122 are respectively provided with a lifting adjusting piece 123, the other side of each lifting adjusting piece 123 is respectively fixedly arranged at the two fixed seats 121 for enabling the two wedge-shaped bodies 122 to be respectively in a floating type to be abutted on the at least one group of wedge-shaped seats 13, and at least one elastic body 124 is arranged at the opposite inner sides of the two wedge-shaped bodies 122, so that the opposite inner sides of the two wedge-shaped bodies 122 can be isolated into an adjusting space 125.

The heat exchanging element 2 is provided with a receiving space 20 on one side for assembling the heat conducting unit 1.

The base 11 of the heat conducting unit 1 is provided with a guide rail 112, a chute 22, etc. which are embedded and slid relatively between two outer sides and two opposite side wall surfaces of the accommodating space 20 of the heat exchanging element 2, the base 11 of the heat conducting unit 1 may have an H shape, one side of the base 11 has a accommodating space 110, at least one group of wedge-shaped seats 13 provided with the other side of the heat conducting space 111 comprises two opposite seats 131, opposite inner sides of the two seats 131 are respectively provided with an inclined joint surface 132, the two wedge-shaped bodies 122 of the heat conducting part 12 assembled on the at least one group of wedge-shaped seats 13 are respectively in an inverted triangle shape, and opposite outer side surfaces of the two wedge-shaped bodies 122 are respectively provided with a joint surface 1221 which can float and butt against the joint surfaces 132 of the seats 131, the top of each wedge 122 of each abutting surface 1221 is respectively provided with a horizontal abutting surface 1222, and the lifting adjusting parts 123 respectively arranged on two sides of each wedge 122 can be respectively a spring, a torsion spring, a coil spring, a reed or a hook rod with elasticity, etc., and the lifting adjusting parts 123 with elastic displacement effect are respectively arranged on the other side of each lifting adjusting part 123 at the opposite outer side surfaces of the two fixing seats 121, so that the two opposite wedges 122 can be elastically suspended between the two opposite fixing seats 121 through the lifting adjusting parts 123 on two sides of each wedge 122 and the elastic body 124 on at least one opposite inner side.

In addition, the heat exchange member 2 may be a heat sink, a housing of a preset electronic device, or the like, and when the heat exchange member 2 is a heat sink, a plurality of fins 21 may be disposed on the other side of the heat exchange member 2 opposite to the accommodating space 20, or may be a water cooling plate, but the utility model is not limited thereto; the heat exchange member 2 may also be a metal housing of a predetermined electronic device, for example: industrial computer cabinets, servers or desktop computers, etc.

The base 11 of the heat conducting unit 1 is provided with at least one set of heat conducting parts 12 assembled in the heat conducting space 111, the two opposite fixing seats 121 are provided with at least one positioning post 1211 and fixing piece 1212, the surface of the heat conducting space 111 of the base 11 is respectively provided with at least one positioning hole 1110 and fixing hole 1111, the at least one positioning post 1211 and fixing piece 1212 can be embedded and fixedly connected, and the at least one positioning post 1211 and positioning hole 1110 and at least one fixing piece 1212 and fixing hole 1111 can be a pin, a pin hole or a clamping tenon, a mortise hole or a screw, a screw hole and the like.

When the heat conducting unit 1 and the heat exchanging element 2 are equal to the actual application and implementation, the preset heating element 3 may be received in the receiving space 110 of the base 11 of the heat conducting unit 1 [ may be a preset electronic device (e.g.: industrial computer chassis, server or desktop computer host, etc.) and the access devices (e.g.: SSD or HDD hard disk, etc.), a Central Processing Unit (CPU), a chip or a microprocessor, etc.), and is assembled at the storage space 20 of the heat exchange member 2 by using the base 11, so that the guide rails 112 at two outer sides of the base 11 are respectively embedded into the sliding grooves 22 at two sides of the storage space 20, so that the base 11 and the heat exchange member 2 are assembled and combined in a sliding manner, so that at least one group of heat conducting parts 12 at the heat conducting space 111 of the base 11 are respectively abutted against the abutting surfaces 132 of two opposite seat bodies 131 of at least one group of wedge-shaped seats 13 by the abutting surfaces 1221 of the two opposite wedge-shaped bodies 122, and the abutting surfaces 1222 of the two opposite wedge-shaped bodies 122 are abutted against the top surface of the storage space 20 of the heat exchange member 2, so that the abutting surfaces 1221 of the two opposite wedge-shaped bodies 122 can be slidably abutted against the abutting surfaces 132 of the two opposite seat bodies 131 in a conical surface manner, and the abutting surfaces of the two opposite wedge-shaped bodies 122 can be quickly adjusted by the abutting surfaces 1221 in a longitudinal direction, a transverse direction, a tilting direction, and the heat energy between the abutting surfaces of the two opposite seat bodies can be quickly adjusted, and the abutting surfaces of the two opposite seat bodies can be abutted against the abutting surfaces of the two opposite seat bodies 132, and the two opposite seat bodies can be adjusted.

In an embodiment, the bonding tightness between each of the docking surfaces 1222 and the top surface of the accommodating space 20 can be increased by using an adhesive (such as a heat-conducting silica gel sheet, a heat-conducting tape, a heat-conducting paste or a heat-conducting cement) with heat conductivity, so that the heat energy generated by the heating element 3 preset in the accommodating space 110 of the base 11 can be transmitted to the heat exchange element 2 via the base 11, at least one group of wedge-shaped seats 13, at least one group of two opposite wedge-shaped bodies 122 of the heat-conducting part 12 to dissipate heat and cool down, thereby effectively achieving the purpose of assisting the preset heating element 3 in rapid heat dissipation, and the two opposite wedge-shaped seats 13, the two opposite wedge-shaped bodies 122 and the heat exchange element 2 are tightly bonded together, thereby having the effect of rapid heat energy transmission.

In addition, the accommodating space 110 of the base 11 of the heat conducting unit 1 accommodates the preset heating element 3, and the two opposite sides of the base 11 and the heating element 3 can be respectively locked, combined, disassembled and separated by using the plurality of locking members 31, and the base 11 can be disassembled, separated and withdrawn from the upper side of the heating element 3 after the accommodating space 20 of the heat exchanging member 2 is separated from the base 11, so as to facilitate the maintenance, detection or replacement of the heating element 3.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the scope of the utility model, but rather to cover all modifications and equivalent arrangements included within the scope of this utility model.

In summary, the elastic heat conductive member applied to the electronic device of the present utility model can achieve the efficacy and purpose of the elastic heat conductive member when in use, so the present utility model is an innovation with excellent practicability.

Claims (9)

1. An elastic heat conducting component applied to an electronic device is characterized by comprising a heat conducting unit and a heat exchanging piece, wherein:

the heat conducting unit comprises a base and at least one group of heat conducting parts positioned on the base, one side of the base is provided with a containing space for containing a preset heating element, the other side of the base opposite to the containing space is provided with a heat conducting space for assembling the at least one group of heat conducting parts, at least one group of two opposite wedge-shaped seats are arranged in the heat conducting space, the at least one group of heat conducting parts comprises two opposite fixed seats assembled at two outer sides of the at least one group of wedge-shaped seats and two opposite wedge-shaped bodies movably arranged between the two fixed seats, two side edges of the two wedge-shaped bodies are respectively provided with a lifting adjusting piece, and the other side of each lifting adjusting piece is respectively fixedly arranged at the two fixed seats so that the two wedge-shaped bodies are respectively in floating abutting contact with the at least one group of wedge-shaped seats, and at least one elastomer for isolating the two wedge-shaped bodies from the inner sides to form an adjusting space is further arranged; a kind of electronic device with high-pressure air-conditioning system

One side of the heat exchange piece is provided with a containing space for assembling the heat conducting unit.

2. The elastic heat conducting member for electronic device as claimed in claim 1, wherein the two outer sides of the base of the heat conducting unit and the two opposite side wall surfaces of the receiving space of the heat exchanging element are respectively provided with a guide rail and a sliding slot which are embedded and sliding relatively.

3. The elastic heat conducting member of claim 1, wherein the base of the heat conducting unit is in an H shape, one side of the base is provided with the accommodating space, the other side of the base is provided with the at least one group of wedge-shaped seats, the opposite inner sides of the two seats are respectively provided with inclined joint surfaces, the two wedge-shaped bodies of the heat conducting part of the at least one group of wedge-shaped seats assembled on the at least one group of wedge-shaped seats are respectively in an inverted triangle shape, and the opposite outer sides of the two wedge-shaped bodies are respectively provided with a floating joint surface abutted against each joint surface of each seat.

4. The elastic heat conducting member for electronic device as claimed in claim 1, wherein the two wedge-shaped bodies of the heat conducting part are respectively in inverted triangle shape, and a butt joint surface for floating, abutting and jointing the upper surface of the accommodating space of the heat exchanging element is respectively arranged at the top of each wedge-shaped body.

5. The elastic heat conducting member according to claim 1, wherein the base of the heat conducting unit is provided with at least one positioning post and fixing piece at the heat conducting space, the surface of the heat conducting space of the base is provided with at least one positioning hole and fixing hole for embedding and fixing the at least one positioning post and fixing piece, and the at least one positioning post and fixing hole and the at least one fixing piece and fixing hole are pins, holes or tenons, mortises or screws and screw holes.

6. The elastic heat conducting member according to claim 1, wherein the accommodating space on one side of the base accommodates the predetermined heating element, and the predetermined heating element is an access device, a central processing unit, a chip or a microprocessor inside the predetermined electronic device.

7. The elastic heat conducting member according to claim 1, wherein the lifting adjusting members are springs, torsion springs, coil springs, reeds or elastic hook bars respectively disposed on two sides of the two wedge-shaped bodies, so that the other side of each lifting adjusting member is fixedly disposed on the opposite outer side surfaces of the two fixing bases.

8. The elastic heat conducting member for electronic device as claimed in claim 1, wherein the heat exchanging member is a heat sink, and a plurality of fins are disposed on the other side of the heat exchanging member opposite to the receiving space.

9. The elastic heat conducting member for electronic device according to claim 1, wherein the heat exchanging element is a housing of a predetermined electronic device.