CN203907746U - Efficient heat sink and warmer with same - Google Patents

Abstract

Disclosed are an efficient heat sink and a warmer with the same. The heat sink comprises a heat sink plate and heat sink units, wherein the heat sink plate is provided with a storage cavity and the heat sink units are arranged at two ends of the heat sink plate, each heat sink unit is a section composed of a plurality of heat sink pipelines, and heat sink grooves are formed between the side wall of the heat sink plate and the inner walls of the heat sink units. Compared with the prior art, the efficient heat sink has the advantages that the heat sink units are sections composed of the heat sink pipelines, during operating, the heat sink pipelines can form a chimney effect, heat in the heat sink can be quickly released, and heat sink efficiency of the heat sink is improved; the heat sink grooves are formed between the side wall of the heat sink plate and the inner walls of the heat sink units, when multiple heat sinks are sequentially connected, the opposite heat sink grooves in the two adjacent heat sinks form a heat sink passage, heat sink efficiency of products is improved, the adjacent heat sinks are connected by matching of fastening blocks and fastening grooves, and assembly efficiency is high.

Description

A kind of high efficiency and heat radiation body and use the warmer of this radiator

Technical field

The utility model relates to a kind of radiator, relates in particular to a kind of high efficiency and heat radiation body, and the utility model also relates to a kind of warmer that uses this radiator.

Background technology

Electric heater is according to heating principle, heat radiation approach, the difference of heat conductive medium and the scope of application is roughly divided into: oil medium type warmer, warm-air drier formula (PTC) warmer, convection heater, infrared radiation type warmer and electrothermal membrane type warmer etc., wherein, convection heater not only has environmental protection because of its specific structure, noiselessness, price is low, security performance high, and energy consumption is low, good looking appearance thereby be widely used in the whole world, current convection heater is provided with air outlet by a top mostly, bottom is provided with the housing of air inlet and is positioned at the heating formation of housing, after energising, heating ambient air is heated rising, from air outlet, flow out, and cold air around enters supplementary from air inlet, iterative cycles like this, indoor temperature is improved.But the convection heater of this structure can not be made adjustment to self structure according to usage space, and the scope of application is little, and mechanical strength is low, and so large housing is difficult to form stack effect, the heat of heater element can not be discharged into outside housing fast.

Utility model content

Technical problem to be solved in the utility model is to overcome the deficiency of above-mentioned prior art, and a kind of simple in structure, radiating efficiency is high, mechanical strength is large high efficiency and heat radiation body is provided.

Technical problem to be solved in the utility model is to overcome the deficiency of above-mentioned prior art, provide a kind of simple in structure, easy to assembly, assemble warmer flexible, applied widely.

The main technical schemes that the high efficiency and heat radiation body providing according to the utility model adopts is: comprise heat sink and the heat-sink unit that is arranged on described heat sink two ends with accommodating cavity, described heat-sink unit is the section bar that a plurality of hot channels form, and between the sidewall of described heat sink and the inwall of described heat-sink unit, forms radiating groove.

The high efficiency and heat radiation body that the utility model provides also adopts following attached technical scheme:

Described heat sink comprises thermal column and heat-conducting plate, and described thermal column is provided with described accommodating cavity, and described heat-conducting plate is connected with the outer wall of described thermal column, and described heat-sink unit is connected with described heat-conducting plate.

Described heat-conducting plate is two, and two described heat-conducting plates are positioned at same plane, and two described heat-conducting plate symmetries are connected on the outer wall of described thermal column, and one end of described heat-conducting plate is connected with described thermal column, and the other end of described heat-conducting plate is connected with described heat-sink unit.

Described hot channel is parallel with described thermal column.

Described heat-sink unit is symmetricly set on described heat sink two ends, and described heat-sink unit one end is provided with fixture block, and the other end of described heat-sink unit is provided with draw-in groove.

The described radiator structure that is formed in one.

Described radiator is aluminium section bar.

The main technical schemes that the warmer providing according to the utility model adopts is: comprise radiating subassembly, be arranged on heater element and electrically-controlled component on radiating subassembly, described radiating subassembly consists of a plurality of radiators that connect successively, described heater element is arranged in described radiator, described radiator comprises the heat sink and the heat-sink unit that is symmetricly set on described heat sink two ends with accommodating cavity, described heat-sink unit is the section bar that a plurality of hot channels form, and between the sidewall of described heat sink and the inwall of described heat-sink unit, forms radiating groove.

The warmer that the utility model provides also adopts following attached technical scheme:

Described heater element is arranged in described accommodating cavity.

Two adjacent described radiators are connected by described fixture block and described draw-in groove, and two described radiating grooves relative on two adjacent described radiators form heat dissipation channel.

The high efficiency and heat radiation body providing according to the utility model compared with prior art tool has the following advantages: first, heat-sink unit in the utility model is the section bar that a plurality of hot channels form, in the course of the work, hot channel can form stack effect, heat in radiator is discharged fast, improved the radiating efficiency of radiator; Secondly, radiating unit structure simple, be convenient to moulding, mechanical strength is large; Again, between the sidewall of heat sink and the inwall of heat-sink unit, form radiating groove, when a plurality of radiators connect successively, two radiating grooves relative on two adjacent radiators can form heat dissipation channel, improve the radiating efficiency of product, two adjacent radiators are connected by fixture block and draw-in groove, and efficiency of assembling is high, and between two adjacent radiators, connect firm.

The warmer providing according to the utility model compared with prior art tool has the following advantages: the radiator structure in the utility model is simple, easy to assembly, and the radiating subassembly being connected and composed successively by a plurality of this kind of radiators, between two adjacent radiators, by fixture block and draw-in groove, be connected, greatly improved the efficiency of assembling of radiating subassembly, two radiating grooves relative on two adjacent radiators can form heat dissipation channel, have again improved the radiating efficiency of radiating subassembly.

Accompanying drawing explanation

Fig. 1 is the structure chart of the utility model radiator.

Fig. 2 is the upward view of the utility model radiator.

Fig. 3 is the front view of radiating subassembly in the utility model warmer.

Fig. 4 is the top view of radiating subassembly in the utility model warmer.

Fig. 5 is the enlarged drawing of A in Fig. 4.

Fig. 6 is the upward view of radiating subassembly in the utility model warmer.

The specific embodiment

Referring to Fig. 1 to Fig. 2, the high efficiency and heat radiation body embodiment providing according to the utility model, comprise heat sink and the heat-sink unit 1 that is arranged on described heat sink two ends with accommodating cavity 31, described heat-sink unit 1 is the section bar that a plurality of hot channels 11 form, and between the sidewall of described heat sink and the inwall of described heat-sink unit 1, forms radiating groove 2.First, the heat-sink unit 1 in the utility model is the section bar that a plurality of hot channels 11 form, and in the course of the work, hot channel 11 can form stack effect, and the heat in radiator is discharged fast, has improved the radiating efficiency of radiator; Secondly, heat-sink unit 1 simple in structure, be convenient to moulding, mechanical strength is large; Again, between the sidewall of heat sink and the inwall of heat-sink unit 1, form radiating groove 2, when a plurality of radiators connect successively, two radiating grooves 2 relative on two adjacent radiators can form heat dissipation channel, improve the radiating efficiency of product.

Referring to Fig. 1 to Fig. 2, according to the utility model the above embodiments, described heat sink comprises thermal column 3 and heat-conducting plate 4, and described thermal column 3 is provided with described accommodating cavity 31, described heat-conducting plate 4 is connected with the outer wall of described thermal column 3, and described heat-sink unit 1 is connected with described heat-conducting plate 4.Described heat-conducting plate 4 is two, two described heat-conducting plates 4 are positioned at same plane, two described heat-conducting plate 4 symmetries are connected on the outer wall of described thermal column 3, and one end of described heat-conducting plate 4 is connected with described thermal column 3, and the other end of described heat-conducting plate 4 is connected with described heat-sink unit 1.Described hot channel 11 is parallel with described thermal column 3.Cooling plate structure is simple, easy-formation, and accommodating cavity 31 is located on thermal column 3, contributes to improve the integral heat sink efficiency of radiator.

Referring to Fig. 1 to Fig. 2, according to the utility model the above embodiments, described heat-sink unit 1 is symmetricly set on described heat sink two ends, and described heat-sink unit 1 one end is provided with fixture block 12, and the other end of described heat-sink unit 1 is provided with draw-in groove 13.When a plurality of radiators connect successively, two adjacent radiators are connected by fixture block 12 and draw-in groove 13, and efficiency of assembling is high, and between two adjacent radiators, connect firm.

Referring to Fig. 1 to Fig. 2, according to the utility model the above embodiments, the described radiator structure that is formed in one.Production cost easy to process is low.

Referring to Fig. 1 to Fig. 2, according to the utility model the above embodiments, described radiator is aluminium section bar.Radiator employing aluminium section technique is simple, radiating efficiency is high.

Referring to Fig. 3 to Fig. 6, the warmer embodiment providing according to the utility model, comprise radiating subassembly, be arranged on heater element 5 and electrically-controlled component on radiating subassembly, described radiating subassembly consists of a plurality of radiators 6 that connect successively, described heater element 5 is arranged in described radiator 6, and wherein, heater element 5 and electrically-controlled component are technology comparatively ripe in prior art, be not described in detail, the radiator 6 in the present embodiment is the radiator described in above-described embodiment herein.Described heater element 5 is arranged in described accommodating cavity 31.Two adjacent described radiators 6 are connected by described fixture block 12 and described draw-in groove 13, and two described radiating grooves 2 relative on two adjacent described radiators 6 form heat dissipation channel 7.Radiator 6 in the utility model is simple in structure, easy to assembly, and the radiating subassembly being connected and composed successively by a plurality of this kind of radiators 6, between two adjacent radiators 6, by fixture block 12 and draw-in groove 13, be connected, greatly improved the efficiency of assembling of radiating subassembly, two radiating grooves 2 relative on two adjacent radiators 6 can form heat dissipation channel 7, have again improved the radiating efficiency of radiating subassembly.

Although illustrated and described embodiment of the present utility model, for the ordinary skill in the art, be appreciated that in the situation that not departing from principle of the present utility model and spirit and can change these embodiment, scope of the present utility model is limited by claims and equivalent thereof.

Claims (9)

1. a high efficiency and heat radiation body, comprise heat sink and the heat-sink unit that is arranged on described heat sink two ends with accommodating cavity, it is characterized in that: described heat-sink unit is the section bar that a plurality of hot channels form, and between the sidewall of described heat sink and the inwall of described heat-sink unit, forms radiating groove.

2. high efficiency and heat radiation body according to claim 1, it is characterized in that: described heat sink comprises thermal column and heat-conducting plate, described thermal column is provided with described accommodating cavity, and described heat-conducting plate is connected with the outer wall of described thermal column, and described heat-sink unit is connected with described heat-conducting plate.

3. high efficiency and heat radiation body according to claim 2, it is characterized in that: described heat-conducting plate is two, two described heat-conducting plates are positioned at same plane, two described heat-conducting plate symmetries are connected on the outer wall of described thermal column, one end of described heat-conducting plate is connected with described thermal column, and the other end of described heat-conducting plate is connected with described heat-sink unit.

4. high efficiency and heat radiation body according to claim 2, is characterized in that: described hot channel is parallel with described thermal column.

5. high efficiency and heat radiation body according to claim 1, is characterized in that: described heat-sink unit is symmetricly set on described heat sink two ends, and described heat-sink unit one end is provided with fixture block, and the other end of described heat-sink unit is provided with draw-in groove.

6. high efficiency and heat radiation body according to claim 3, is characterized in that: the described radiator structure that is formed in one.

7. high efficiency and heat radiation body according to claim 6, is characterized in that: described radiator is aluminium section bar.

8. a warmer, comprise radiating subassembly, be arranged on heater element and electrically-controlled component on radiating subassembly, described radiating subassembly consists of a plurality of radiators that connect successively, described heater element is arranged in described radiator, it is characterized in that: described radiator is high efficiency and heat radiation body described in any one in the claims 1-7.

9. warmer according to claim 8, is characterized in that: described heater element is arranged in described accommodating cavity.