CN207585390U - A kind of high-efficient energy-saving radiator - Google Patents

Abstract

The utility model discloses a kind of high-efficient energy-saving radiators.The high-efficient energy-saving radiator includes cap in cap and second in scattered power supply installing plate, radiating aluminium sheet, spacer, heat dissipation copper pipe, radiating bottom plate, first；The radiating bottom plate is fixed in first in cap and second between cap；Several described radiating aluminium sheets are equidistantly positioned in first in cap and second between cap；The spacer is arranged between two neighboring radiating aluminium sheet；The heat dissipation copper pipe sequentially passes through cap in first, cap and is fixed on radiating bottom plate in radiating aluminium sheet and second；The power supply installing plate is across the top for being fixed on radiating aluminium sheet.The utility model is simple in structure, is divided adjacent heat radiation aluminium flake using spacer so that has reflux space between radiating aluminium sheet, so as to expand its heat dissipation area, accelerates radiating efficiency；Using the mutual cooperation of heat dissipation copper pipe, radiating aluminium sheet and radiating bottom plate, its radiating rate can be improved, so as to achieve the purpose that provide product heat dissipation performance.

Description

A kind of high-efficient energy-saving radiator

Technical field

The utility model is related to heat sink technology field, more specifically to a kind of high-efficient energy-saving radiator.

Background technology

Some equipment can generate a large amount of heat when working, and these extra heats cannot have and quickly disperse and built up To generate high temperature, it is likely that the equipment to work can be damaged, at this moment radiator just can efficiently solve this problem；Simply It says, radiator is exactly a kind of product for being used to remove certain equipment waste heats.Existing radiator is all often to contain only list One radiator body, among radiator body directly is assembled in circuit board, the heat-dissipating space of this radiator is small, thermal diffusivity Can be poor, and be easy to damage, it is not easily shifted；In addition, existing radiator manufacturing process often will using welding manner Aluminium flake and copper pipe welding assembly get up, and present welding is divided into two kinds, and one kind is nickel plating welding, and nickel plating welding cost is high, in addition One kind is riveting technology, and heat dissipation performance is poor, and has limitation, among product because the reason of riveted be can not cloth copper pipe, sternly Ghost image rings the heat dissipation performance of the radiator.

Utility model content

In view of this, the utility model provides a kind of high-efficient energy-saving radiator, solves radiator heat-dissipation in the prior art The defects of poor-performing, manufacture craft is unreasonable.

To achieve the above object, the utility model provides following technical solution：

A kind of high-efficient energy-saving radiator, including radiator body and power supply installing plate；The radiator body includes scattered Hot aluminium flake, spacer, interior cap, heat dissipation copper pipe and radiating bottom plate；The interior cap includes in first in cap and second Cap；The radiating bottom plate is fixed in described first in cap and described second between cap；Several described radiating aluminium sheets It is equidistantly positioned in described first in cap and described second between cap and positioned at the top of the radiating bottom plate；It is described every It is arranged between the two neighboring radiating aluminium sheet from piece；The heat dissipation copper pipe sequentially pass through cap in described first, it is described dissipate Cap in hot aluminium flake and second, and the both ends bending of the heat dissipation copper pipe is fixed on the radiating bottom plate；The power supply peace Loading board is across being fixed in described first in cap and described second between cap, and the power supply installing plate is located at the heat dissipation The top of aluminium flake.

Preferably, which has further included front shell cover and rear shell cover；The front shell cover is fixed on described First inner casing covers, and the rear shell cover is fixed on second inner casing and covers.

Preferably, which has further included the first cap fixed plate and the second cap fixed plate；Described One end of one cap fixed plate is fixed on first inner casing and covers, and the other end is fixed on the front shell cover；Described second One end of cap fixed plate is fixed on second inner casing and covers, and the other end is fixed on the rear shell cover.

Preferably, which has further included handle, the first rotating wheel and the second rotating wheel, and described first Rotating wheel is fixed on the front shell cover；Second rotating wheel is fixed on the rear shell cover；One end rotation of the handle It is arranged in first rotating wheel, the other end of the handle is rotatably arranged in second rotating wheel.

Preferably, which is equipped with several solid pores；It is described that the heat dissipation copper pipe passes through the solid pore to cause Radiating aluminium sheet is fixed on the heat dissipation copper pipe.

Preferably, the bottom surface of the radiating bottom plate is provided with tube seat；The heat dissipation copper pipe is fixed in the tube seat.

It can be seen from the above technical scheme that high-efficient energy-saving radiator provided by the utility model is simple in structure, Radiator body surface carries out security protection using front shell cover and rear shell cover to radiator body, avoids radiator body damaged； Then power supply installing plate is utilized so that power panel can be directly mounted among the high-efficient energy-saving radiator so that the two is mutual Close contact carries out radiating treatment convenient for the radiator to power panel；Using the combination of rotating wheel and handle, shifting easy to carry Move the high-efficient energy-saving radiator；Adjacent heat radiation aluminium flake is divided using spacer so that there is reflux space between radiating aluminium sheet, from And expand its heat dissipation area, accelerate radiating efficiency；Utilize the mutual cooperation of heat dissipation copper pipe, radiating aluminium sheet and radiating bottom plate, energy Further improve its radiating rate.

Description of the drawings

Fig. 1 is the positive structure schematic of high-efficient energy-saving radiator that the utility model embodiment provides.

Fig. 2 is the structure schematic diagram of high-efficient energy-saving radiator that the utility model embodiment provides.

Fig. 3 is the positive structure schematic of radiator body that the utility model embodiment provides.

Fig. 4 is the structure schematic diagram of radiator body that the utility model embodiment provides.

Fig. 5 is the structure enlargement diagram at A in Fig. 4.

Fig. 6 is the structure enlargement diagram at B in Fig. 4.

Attached drawing identifier declaration：

10- shells；20- radiator bodies；11- front shell covers；12- rear shell covers；13- connection straps；14- power supply installing plates；15- Rotating wheel；16- handles；21- radiating aluminium sheets；22- spacers；Cap in 23-；24- heat dissipation copper pipes；25- radiating bottom plates；26- shells Lid fixed plate.

It in order to illustrate the embodiment of the utility model or the technical proposal in the existing technology more clearly, below will be to embodiment Or the attached drawing described in description of the prior art is briefly described, it is therefore apparent that the attached drawing in description below is only this reality With some novel embodiments, for those of ordinary skill in the art, without creative efforts, may be used also To obtain other attached drawings according to these attached drawings.

Specific embodiment

The utility model embodiment provides a kind of high-efficient energy-saving radiator.

As shown in figures 1 to 6, a kind of high-efficient energy-saving radiator, including radiator body 20 and power supply installing plate 14；It is described to dissipate Hot device ontology 20 includes radiating aluminium sheet 21, spacer 22, interior cap 23, heat dissipation copper pipe 24 and radiating bottom plate 25；In described Cap 23 includes in first cap 23 in cap 23 and second；The radiating bottom plate 25 is fixed on 23 He of cap in described first In described second between cap 23；Several described radiating aluminium sheets 21 are equidistantly positioned the cap 23 and described in described first Between cap 23 and positioned at the top of the radiating bottom plate 25 in two；The spacer 22 is arranged on the two neighboring radiation aluminium Between piece 21；The heat dissipation copper pipe 24 sequentially passes through cap 23 in described first, cap in the radiating aluminium sheet 21 and second 23, and the both ends bending of the heat dissipation copper pipe 24 is fixed on the radiating bottom plate 25；The power supply installing plate 14 is across fixation In described first in cap 23 and described second between cap 23, and the power supply installing plate 14 is located at the radiating aluminium sheet 21 Top.It can be seen from the above technical scheme that the high-efficient energy-saving radiator that the utility model embodiment is provided utilizes electricity Source installing plate 14 so that power panel can be directly mounted among the high-efficient energy-saving radiator so that the two mutually closely connects It touches, radiating treatment is carried out to power panel convenient for the radiator；Adjacent heat radiation aluminium flake 21 is divided using spacer 22 so that heat dissipation There is reflux space between aluminium flake 21, so as to expand its heat dissipation area, accelerate radiating efficiency；Utilize heat dissipation copper pipe 24, radiating aluminium sheet 21 and the mutual cooperation of radiating bottom plate 25, its radiating efficiency can be further improved.

In the utility model embodiment, the spacer 22 can be used engagement thread and be fixed on the two neighboring heat dissipation Between aluminium flake 21, it can also be fixed on using adhesive means between the two neighboring radiating aluminium sheet 21, being mainly used for will be adjacent Two radiating aluminium sheets 21 are mutually isolated ventilative；Then the interior cap 23 includes in first cap in cap 23 and second 23, wherein, offer several through-holes in described first in cap 23 and second on cap 23, the radiating aluminium sheet 21 is equipped with The big 1-2mm of caliber of heat dissipation copper pipe 24 described in the aperture ratio of several solid pores and the solid pore；The heat dissipation copper pipe 24 according to It is secondary pass through the through-hole of cap 23 in described first, in the solid pore of radiating aluminium sheet 21 and described second cap 23 through-hole then The radiating aluminium sheet 21 is fixed on the heat dissipation copper pipe 24 with adhesive means again；Since the bottom surface of the radiating bottom plate 25 is set There is tube seat；The head and the tail both ends bending of the heat dissipation copper pipe 24 is fixed in the tube seat so that the heat dissipation copper pipe 24 is not easy It loosens and is detached from, and the contact area of heat dissipation copper pipe 24 and radiating bottom plate 25 can be increased, improve its radiating efficiency.

Preferably, which has further included shell 10；The shell 10 include front shell cover 11 and after Cap 12；The front shell cover 11 is fixed in described first on cap 23, and the rear shell cover 12 is fixed on cap in described second On 23；The high-efficient energy-saving radiator has further included cap fixed plate 26；The cap fixed plate 26 includes the first cap and fixes 26 and second cap fixed plate 26 of plate；One end of the first cap fixed plate 26 is fixed in described first on cap 23, The other end is fixed on the front shell cover 11；One end of the second cap fixed plate 26 is fixed on cap 23 in described second On, the other end is fixed on the rear shell cover 12；In order to increase the firm performance of the radiator, the high-efficient energy-saving radiator is also Include connection strap 13, the connection strap 13 is fixed in the front shell cover 11 and described first between cap 23 so that described It is more stable firm between cap 23 in front shell cover 11 and described first；Also, the connection strap 13 is fixed on the rear shell cover 12 And in described second between cap 23 so that more stable firm between cap 23 in the rear shell cover 12 and described second；At this In utility model embodiment, the front shell cover 11 is fixed on the first inner casing by the first cap fixed plate 26 using engagement thread On lid 23；The rear shell cover 12 is fixed in second using engagement thread on cap 23 by the second cap fixed plate 26；It is dissipating Hot 20 surface of device ontology carries out security protection using front shell cover 11 and rear shell cover 12 to the radiating aluminium sheet 21 in radiator body 20, Avoid the radiating aluminium sheet 21 in radiator body 20 damaged.

In addition, the high-efficient energy-saving radiator has further included handle 16, the first rotating wheel 15 and the second rotating wheel 15, it is described First rotating wheel 15 is fixed on the front shell cover 11；Second rotating wheel 15 is fixed on the rear shell cover 12；It is described to carry One end of hand 16 is rotatably arranged in first rotating wheel 15, and the other end of the handle 16 is rotatably arranged on second rotation On runner 15.The utility model embodiment using rotating wheel 15 and handle 16 combination, movement easy to carry this energy-efficient dissipate Hot device；Also, handle 16 can be rotated arbitrarily, when needing to move the radiator, handle 16 be turned to vertical direction, then The radiator is directly moved by handle 16；When not needing to move the radiator, handle 16 is turned into shape obliquely State, so as to the situation that user is avoided to stab when being in direct contact the radiator.

In addition；The heat dissipation copper pipe 24 is internally provided with vacuum cooled water, pipe thickness 0.5mm-3mm；In this practicality In new embodiment, in order to improve the heat dissipation performance of heat dissipation copper pipe 24, the inner wall of the heat dissipation copper pipe 24 concaves to form wave The wave groove of shape so as to expand the heat dissipation area inside the heat dissipation copper pipe 24, increases coolant and the heat dissipation copper pipe Contact area inside 24, so that the heat dissipation copper pipe 24 will be transferred to as much as possible by coolant on radiating aluminium sheet 21 The heat cooling of heat dissipation copper pipe 24.

In addition, the manufacture craft of the high-efficient energy-saving radiator includes the following steps：S1 assembles basic firmware：It will heat dissipation Aluminium flake 21 is fixed among interior cap 23, radiating bottom plate 25 and interior cap fixed plate 26；S2 assembles heat dissipation copper pipe 24：It will dissipate Hot copper pipe 24 is crossed after radiating aluminium sheet 21 and interior cap 23 side by side among radiating bottom plate 25；S3 coats soldering paste：By soldering paste one by one Point is stained with coated at heat dissipation copper pipe 24 and radiating aluminium sheet 21；S4 heats soldering paste：By the semi-finished product for being coated with soldering paste be placed in heater it Radiator body 20 is formed after the middle molten plastic welding cream of heating；S5, package shell：On 20 surface of radiator body, installation has protective The shell 10 of energy forms the high-efficient energy-saving radiator；Among step S1, one is equipped between each radiating aluminium sheet 21 for expanding The spacer 22 of big heat-dissipating space；Among step S2, the radiating bottom plate 25 is aluminum heat sink；And the heat dissipation copper pipe 24 side by side with after the radiating bottom plate 25, it is also necessary to by the heat dissipation copper pipe 24 pressing be embedded among the radiating bottom plate 25； Among step S4, the characteristics of heater is that the speed of heating is fast, and it is Celsius that the temperature within the time of 20 minutes will reach 300 Degree；And it is 1-3 minutes to be coated with the semi-finished product of soldering paste in the heating time of heater body.Since existing radiator makes work Skill is often got up aluminium flake and copper pipe welding assembly using welding manner, and present welding is divided into two kinds, and one kind is nickel plating weldering It connects, nickel plating welding cost is high, another is riveting technology, and heat dissipation performance is poor, and has limitation, because of riveted among product The reason of be can not cloth copper pipe, seriously affect the heat dissipation performance of the radiator；Therefore, in the manufacture craft of high-efficient energy-saving radiator Among, the high-efficient energy-saving radiator using a point hot melting way, change nickel plating welding technique of the prior art or riveting technology and The defects of welding cost is high and heat dissipation performance is poor is caused, soldering paste point is stained with coated at heat dissipation copper pipe 24 and radiating aluminium sheet 21, Then the semi-finished product for being coated with soldering paste are placed among heater and heat molten plastic welding cream, so as to soldering paste will by heat dissipation copper pipe 24 with Gap between radiating aluminium sheet 21 is filled up, and is reduced with temperature and is formed by curing radiator body 20；The system of this hot melting way It is at low cost to make technique, can effectively save solder paste material, and the connection between heat dissipation copper pipe 24 and radiating aluminium sheet 21 is more securely coordinated, So as to improve the heat exchange between heat dissipation copper pipe 24 and radiating aluminium sheet 21, enhance its heat dissipation performance.

Each embodiment is described by the way of progressive in this specification, the highlights of each of the examples are with other The difference of embodiment, identical similar portion cross-reference between each embodiment.

The foregoing description of the disclosed embodiments enables professional and technical personnel in the field to realize or new using this practicality Type.A variety of modifications of these embodiments will be apparent for those skilled in the art, determine herein The General Principle of justice can be realized in other embodiments without departing from the spirit or scope of the present utility model.Cause This, the utility model is not intended to be limited to the embodiments shown herein, and is to fit to and principles disclosed herein The most wide range consistent with features of novelty.

Claims (6)

1. a kind of high-efficient energy-saving radiator, it is characterised in that：The high-efficient energy-saving radiator includes radiator body (20) and power supply Installing plate (14)；The radiator body (20) includes radiating aluminium sheet (21), spacer (22), interior cap (23), radiating copper Manage (24) and radiating bottom plate (25)；The interior cap (23) includes in first cap in cap and second；The heat dissipation bottom Plate (25) is fixed in described first in cap and described second between cap；Radiating aluminium sheet (21) is equidistant sets for several It puts in described first in cap and described second between cap and positioned at the top of the radiating bottom plate (25)；The spacer (22) it is arranged between the two neighboring radiating aluminium sheet (21)；The heat dissipation copper pipe (24) sequentially passes through first inner casing Cap in lid, the radiating aluminium sheet (21) and second, and the both ends bending of the heat dissipation copper pipe (24) is fixed on the heat dissipation On bottom plate (25)；The power supply installing plate (14) across being fixed in described first in cap and described second between cap, and The power supply installing plate (14) is positioned at the top of the radiating aluminium sheet (21).

2. a kind of high-efficient energy-saving radiator according to claim 1, it is characterised in that：The high-efficient energy-saving radiator further includes There are front shell cover (11) and rear shell cover (12)；The front shell cover (11) is fixed on first inner casing and covers, the rear shell cover (12) second inner casing is fixed on to cover.

3. a kind of high-efficient energy-saving radiator according to claim 2, it is characterised in that：The high-efficient energy-saving radiator also wraps The first cap fixed plate and the second cap fixed plate are included；One end of the first cap fixed plate is fixed on first inner casing It covers, the other end is fixed on the front shell cover (11)；One end of the second cap fixed plate is fixed in described second On cap, the other end is fixed on the rear shell cover (12).

4. according to a kind of high-efficient energy-saving radiator described in claim 2, it is characterised in that：The high-efficient energy-saving radiator is also Include handle (16), the first rotating wheel and the second rotating wheel, first rotating wheel is fixed on the front shell cover (11)； Second rotating wheel is fixed on the rear shell cover (12)；One end of the handle (16) is rotatably arranged on first rotation On wheel, the other end of the handle (16) is rotatably arranged in second rotating wheel.

5. according to a kind of high-efficient energy-saving radiator described in any one of claim 1-3 claims, it is characterised in that：It is described Radiating aluminium sheet (21) consolidates pore equipped with several；The heat dissipation copper pipe (24) causes the radiating aluminium sheet across the solid pore (21) it is fixed on the heat dissipation copper pipe (24).

6. according to a kind of high-efficient energy-saving radiator described in any one of claim 1-3 claims, it is characterised in that：It is described The bottom surface of radiating bottom plate (25) is provided with tube seat；The heat dissipation copper pipe (24) is fixed in the tube seat.