CN111412525A

CN111412525A - Heat dissipation monolithic, subassembly and room heater with tortuous radiating fin

Info

Publication number: CN111412525A
Application number: CN202010397302.2A
Authority: CN
Inventors: 姚国宁; 谢伟; 蒋东泉; 毛佳雷; 李志祥; 韩亚辉; 蒋小山; 孔海转
Original assignee: Ningbo Singfun Electric Appliance Co Ltd
Current assignee: Ningbo Singfun Electric Appliance Co Ltd
Priority date: 2020-05-12
Filing date: 2020-05-12
Publication date: 2020-07-14

Abstract

The utility model provides a heat dissipation monolithic with tortuous radiating fin, includes body and radiating part, the body is provided with the cavity, flat heat-generating body set up in the cavity, the radiating part set up in the tip edge of body, and follow the tip edge of at least one side of body outwards extends, the radiating part includes the edge radiating fin that the tip edge of body zigzag extended. Compared with the prior art, the radiating single sheet with the zigzag radiating fins provided by the invention has the following advantages: fast temperature rise, uniform heating, high thermal efficiency, large thermal radiation range and low production and processing cost.

Description

Heat dissipation monolithic, subassembly and room heater with tortuous radiating fin

Technical Field

The invention relates to the field of heaters, in particular to a radiating single sheet with zigzag radiating fins, a radiating single assembly with the zigzag radiating fins and a heater.

Background

At present, the heater products in the market mainly comprise an electric oil heater, a PTC (positive temperature coefficient) fan heater, a convection heater, a radiation heater and the like. However, the conventional electric warmer cannot be heated for a long time at a nominal output power, which inevitably causes a problem of slow temperature rise of the conventional warmer product due to limitation of the warmer industry standard (in order to prevent scalding caused by accidental touch, the temperature rise of the warmer with a metal outer surface at a position where a human body can touch is required to be not more than 85 ℃). Moreover, most of the existing warmer products are not provided with a convection structure, so that the phenomenon of uneven temperature rise inevitably exists. Corresponding products are developed for increasing the temperature rise speed, enabling the temperature rise of the warmer to be uniform and increasing the research and development strength of a plurality of manufacturers.

For example, chinese patent publication No. CN101438105B entitled electric oil-filled warmer discloses: the heat dissipation device comprises a heat dissipation body, an electric cabinet arranged on the heat dissipation body and a heating body arranged in the heat dissipation body, wherein the heat dissipation body comprises a plurality of heat dissipation sheets which are sequentially connected, each heat dissipation sheet is a hollow sheet-shaped body, at least two oil guide grooves are formed in the heat dissipation sheet, hollow connecting sleeves extending along the horizontal direction are formed at the upper end and the lower end of each heat dissipation sheet or arranged at the upper end and the lower end of each heat dissipation sheet, oil guide holes communicated with the oil guide grooves are formed in the connecting sleeves, the connecting sleeves on the heat dissipation sheets are mutually connected to form a closed oil cavity, heat conduction oil is filled in the oil guide holes, a reinforcing heat dissipation sheet is arranged between every two adjacent heat. The top of the heat dissipation wall is formed with a plurality of heat dissipation holes. However, the technical scheme of the invention still cannot overcome the problem of slow temperature rise due to the existence of internal heat conduction oil, and the heat conduction oil generates huge internal pressure on the radiating fins, so that the requirements on the sealing welding process of the radiating fins are more severe, and the arrangement positions of the radiating holes cannot enhance convection among radiating parts, thereby influencing uniform temperature rise.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the quick-heating radiating single sheet which has the advantages of high temperature rising speed, uniform heating, high thermal efficiency, large thermal radiation range and low production and processing cost.

The invention mainly adopts the following technical scheme:

the utility model provides a heat dissipation monolithic with tortuous radiating fin, includes body and radiating part, the body is provided with the cavity, flat heat-generating body set up in the cavity, the radiating part set up in the tip edge of body, and follow the tip edge of at least one side of body outwards extends, the radiating part includes the edge radiating fin that the tip edge of body zigzag extended.

The heat dissipation part further comprises an extension edge, and the extension edge is provided with a heat dissipation hole.

Wherein the extension edge is disposed between an end edge of the body and the heat dissipating fin.

The heat dissipation single sheet is formed by combining two corresponding heat dissipation half sheets, at least one of the two corresponding heat dissipation half sheets is provided with a recessed structure, and the recessed structure forms the hollow cavity.

The body is further provided with a convex hull, and through holes are formed in the positions, corresponding to the convex hull, of the flat heating bodies.

A radiating fin assembly adopts the radiating single sheets with the bent radiating fins, and a plurality of radiating single sheets with the bent radiating fins are connected in sequence.

And a honeycomb-shaped heat dissipation channel, a lantern-shaped heat dissipation channel or a wavy heat dissipation channel is formed among the heat dissipation fins positioned on the same side of the heat dissipation fin assembly.

A warmer adopts the radiator assembly.

According to the technical scheme of the invention, the method has the following beneficial effects: the flat heating body is arranged in the radiating single sheet, so that the heating is rapid, the heat conduction is rapid, the surface temperature rise speed of the radiating single sheet can be effectively improved, and the processing difficulty of the radiating single sheet is reduced; the heat dissipation part is provided with the heat dissipation fins extending in a zigzag manner, so that the heat dissipation area can be effectively increased, and uniform temperature rise is facilitated; the heat dissipation part is provided with the heat dissipation holes, so that convection can be enhanced, the temperature rise is uniform, and the heat dissipation area is wide.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of a heat dissipating monolithic.

Fig. 2 is a schematic cross-sectional structure diagram of the heat sink of fig. 1.

Fig. 3 is a side view of the heat sink of fig. 1.

Fig. 4 is an exploded view of another embodiment of a heat dissipating chip.

Fig. 5 is a schematic view of a heat sink assembly.

1 heat sink assembly, 10 heat sink single sheets, 101 body, 1010 convex hull, 102 heat sink part, 105 heat sink half, 1021 heat sink fin, 1020 heat sink, 2 heating element, 3 extending edge.

Detailed description of the preferred embodiments

The invention will be further elucidated with reference to the drawings in which:

referring to fig. 1 to 4, a heat dissipating single sheet 10 with zigzag heat dissipating fins includes a body 101 and a heat dissipating portion 102, the body 101 is provided with a hollow cavity, a flat plate-shaped heating element 2 is disposed in the hollow cavity, the heat dissipating portion 102 is disposed at an end edge of the body 101 and extends outward along the end edge of at least one side of the body 101, and the heat dissipating portion 102 includes heat dissipating fins 1021 extending zigzag along the end edge of the body 101. Preferably, the hollow cavity is provided in the longitudinal direction, and accordingly, the flat plate-shaped heat-generating body 2 is arranged in the longitudinal direction. The structural design adopts the plate-shaped heating body to replace heating oil, PTC heating pieces, a blower and the like, and has the advantages of high heating speed, high heat conduction speed and low requirement on a welding process. The corrugated radiating fin extending along the edge of the end of the body 101 in a zigzag manner can effectively increase the radiating area and accelerate heat conduction, and plays a positive role in expanding the radiating range.

Referring to fig. 1, the heat sink 102 further includes an extension edge 3, and a heat sink 1020 is disposed on the extension edge 3. This kind of structural design can effectively improve the convection current between the adjacent radiating fin, plays positive effect to evenly rising temperature. Preferably, the extension edge 3 may be provided separately at the end edge of the body 101.

Referring to fig. 1 and 2, the extension edge 3 is disposed between the end edge of the body 101 and the heat dissipating fin 1021.

Referring to fig. 4, the heat dissipating single sheet 10 is formed by combining two corresponding heat dissipating half-sheets 105, and at least one heat dissipating half-sheet 105 of the two corresponding heat dissipating half-sheets 105 is provided with a recessed structure, and the recessed structure forms a hollow cavity. Preferably, both heat sink halves 105 are provided with joining edges for butt welding or snap-fitting of the two heat sink halves 105 to form the end edges of the body 101. Preferably, at least one of the two corresponding half-fins 105 is provided with a heat dissipating fin 1021, and the heat dissipating fin 1021 is located at least one end of the half-fin 105, and more preferably, the size of the heat dissipating fin 1021 on different half-fins 105 may be the same or different. Preferably, at least one of the two corresponding heat dissipating half-pieces 105 is provided with an extended edge 3, the extended edge 3 is located at least one end of the heat dissipating half-piece 105, more preferably, the extended edge 3 size on different heat dissipating half-pieces 105 may be the same or different, most preferably, one or both ends of at least one of the two corresponding heat dissipating half-pieces 105 are provided with heat dissipating fins 1021, and the extended edge 3 is connected with the heat dissipating fins 1021.

Referring to fig. 1 to 5, the body 101 is further provided with a convex hull 1010, and a through hole is provided at a position of the flat plate-shaped heating element 2 corresponding to the convex hull 1010. The convex hulls 1010 of the adjacent radiating single chips 10 are connected with each other to provide conductive wires and the like.

Referring to fig. 5, a heat sink assembly 1 employs the above-described heat dissipating single sheet 10 having the meandering heat dissipating fins 1021, and a plurality of heat dissipating single sheets 10 having the meandering heat dissipating fins 1021 are connected in series.

Referring to fig. 5, a honeycomb-shaped heat dissipation channel, a lantern-shaped heat dissipation channel or a wave-shaped heat dissipation channel is formed between the heat dissipation fins 1021 on the same side of the heat dissipation fin assembly 1.

A warmer adopts the radiating fin component 1.

Although particular embodiments of the present invention have been described above, it will be appreciated by those skilled in the art that changes may be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a heat dissipation monolithic with tortuous radiating fin, includes body and radiating part, its characterized in that: the body is provided with a hollow cavity, the flat heating body is arranged in the hollow cavity, the radiating part is arranged on the edge of the end part of the body and extends outwards along the edge of the end part of at least one side of the body, and the radiating part comprises radiating fins extending along the edge of the end part of the body in a zigzag manner.

2. The heat dissipating monolithic sheet with meandering heat dissipating fins as claimed in claim 1, wherein: the heat dissipation part further comprises an extension edge, and heat dissipation holes are formed in the extension edge.

3. The heat dissipating monolithic sheet with meandering heat dissipating fins as claimed in claim 2, wherein: the extension edge is disposed between the end edge of the body and the heat dissipating fin.

4. The heat dissipating single sheet with meandering heat dissipating fins as claimed in any one of claims 1 to 3, wherein: the heat dissipation single sheet is formed by combining two corresponding heat dissipation half sheets, at least one of the two corresponding heat dissipation half sheets is provided with a recessed structure, and the recessed structure forms the hollow cavity.

5. The heat dissipating monolithic sheet with meandering heat dissipating fins as claimed in claim 1, wherein: the body is further provided with a convex hull, and through holes are formed in the positions, corresponding to the convex hulls, of the flat heating bodies.

6. A heat sink assembly, comprising: the single heat sink with meandering heat dissipating fins as claimed in any one of claims 1 to 5, wherein a plurality of said single heat sinks with meandering heat dissipating fins are connected in series.

7. The heat sink assembly of claim 7, wherein: and a honeycomb radiating channel, a lantern-shaped radiating channel or a wavy radiating channel is formed among the radiating fins positioned on the same side of the radiating fin component.

8. A warmer, its characterized in that: use of a heat sink assembly according to claim 6 or 7.