CN109425236A-一种高效节能散热器

SOURCE	TARGET
一种高效节能散热器	Efficient Energy-saving Radiator
摘要	Abstract
本发明公开了一种高效节能散热器。	The invention discloses an efficient energy-saving radiator.
该高效节能散热器包括散电源安装板、散热铝片、隔离片、散热铜管、散热底板、第一内壳盖以及第二内壳盖；	The efficient energy-saving radiator comprises a power supply mounting plate, a radiating aluminum sheet, an isolating sheet, a radiating copper pipe, a radiating bottom plate, a first inner housing cover and a second inner housing cover;
所述散热底板固定在第一内壳盖和第二内壳盖之间；	the radiating bottom plate is fixed between the first inner housing cover and the second inner housing cover;
若干个所述散热铝片等距离设置在第一内壳盖和第二内壳盖之间；	the radiating aluminum sheets are equidistantly arranged between the first inner housing cover and the second inner housing cover;
所述隔离片设置在相邻两个散热铝片之间；	the isolating sheet is arranged between two adjacent radiating aluminum sheets;
所述散热铜管依次穿过第一内壳盖、散热铝片以及第二内壳盖并固定在散热底板上；	the radiating copper pipe sequentially penetrates through the first inner housing cover, the radiating aluminum sheet and the second inner housing cover and is fixed on the radiating bottom plate;
所述电源安装板横跨固定在散热铝片的上方。	the power supply mounting plate is fixed above the radiating aluminum sheet in a spanning mode.
本发明结构简单，利用隔离片将相邻散热铝片分割，使得散热铝片之间有回流空间，从而扩大其散热面积，加快散热效率；	The radiating device is simple in structure, and the adjacent radiating aluminum sheets are divided by the isolating sheets, so that a backflow space is formed between the radiating aluminum sheets, the radiating area is enlarged, and the radiating efficiency is accelerated;
利用散热铜管、散热铝片以及散热底板的相互配合，能提高其散热速度，从而达到提供产品散热性能的目的。	by utilizing the mutual matching of the radiating copper pipe, the radiating aluminum sheet and the radiating base plate, the radiating speed of the radiating aluminum sheet can be improved, and the purpose of providing the radiating performance of a product is achieved.
权利要求书	Claims
0001 .	0001 .
?	?
1	1
一种高效节能散热器，其特征在于：	An efficient energy-saving radiator, characterized in that:
该高效节能散热器包括散热器本体(20)和电源安装板(14)；	The efficient energy-saving radiator comprises a radiator body (20) and a power supply mounting plate (14);
所述散热器本体(20)包括有散热铝片(21)、隔离片(22)、内壳盖(23)、散热铜管(24)以及散热底板(25)；	the radiator body (20) comprises a radiating aluminum sheet (21), an isolating sheet (22), an inner housing cover (23), a radiating copper pipe (24) and a radiating bottom plate (25);
所述内壳盖(23)包括有第一内壳盖和第二内壳盖；	the inner housing cover (23) comprises a first inner housing cover and a second inner housing cover;
所述散热底板(25)固定在所述第一内壳盖和所述第二内壳盖之间；	the radiating base plate (25) is fixed between the first inner housing cover and the second inner housing cover;
若干个所述散热铝片(21)等距离设置在所述第一内壳盖和所述第二内壳盖之间并位于所述散热底板(25)的上方；	the radiating aluminum sheets (21) are equidistantly arranged between the first inner housing cover and the second inner housing cover and positioned above the radiating bottom plate (25);
所述隔离片(22)设置在相邻两个所述散热铝片(21)之间；	the isolating sheet (22) is arranged between two adjacent radiating aluminum sheets (21);
所述散热铜管(24)依次穿过所述第一内壳盖、所述散热铝片(21)以及第二内壳盖，且所述散热铜管(24)的两端弯折固定在所述散热底板(25)上；	the radiating copper pipe (24) sequentially penetrates through the first inner housing cover, the radiating aluminum sheet (21) and the second inner housing cover, and two ends of the radiating copper pipe (24) are bent and fixed on the radiating bottom plate (25);
所述电源安装板(14)横跨固定在所述第一内壳盖和所述第二内壳盖之间，且所述电源安装板(14)位于所述散热铝片(21)的上方。	The power supply mounting plate (14) is fixed between the first inner housing cover and the second inner housing cover in a spanning manner, and the power supply mounting plate (14) is positioned above the radiating aluminum sheet (21).
0002 .	0002 .
?	?
2	2
根据权利要求1所述的一种高效节能散热器，其特征在于：	The efficient energy-saving radiator according to claim 1, charaterized in that:
该高效节能散热器还包括有前壳盖(11)以及后壳盖(12)；	the efficient energy-saving radiator also comprises a front housing cover (11) and a rear housing cover (12);
所述前壳盖(11)固定在所述第一内壳盖上，所述后壳盖(12)固定在所述第二内壳盖上。	the front housing cover (11) is fixed to the first inner housing cover, and the rear housing cover (12) is fixed to the second inner housing cover.
0003 .	0003 .
?	?
3	3
根据权利要求2所述的一种高效节能散热器，其特征在于：	The efficient energy-saving radiator of claim 2, charaterized in that:
所述高效节能散热器还包括有第一壳盖固定板和第二壳盖固定板；	the efficient energy-saving radiator also comprises a first housing cover fixing plate and a second housing cover fixing plate;
所述第一壳盖固定板的一端固定在所述第一内壳盖上，其另一端固定在所述前壳盖(11)上；	one end of the first housing cover fixing plate is fixed on the first inner housing cover, and the other end of the first housing cover fixing plate is fixed on the front housing cover (11);
所述第二壳盖固定板的一端固定在所述第二内壳盖上，其另一端固定在所述后壳盖(12)上。	one end of the second housing cover fixing plate is fixed on the second inner housing cover, and the other end of the second housing cover fixing plate is fixed on the rear housing cover (12).
0004 .	0004 .
?	?
4	4
根据权利要求1-3中任一项权利要求所述的一种高效节能散热器，其特征在于：	The efficient energy-saving radiator according to any one of claims 1 to 3, charaterized in that:
所述高效节能散热器还包括有提手(16)、第一旋转轮以及第二旋转轮，所述第一旋转轮固定在所述前壳盖(11)上；	the efficient energy-saving radiator further comprises a handle (16), a first rotating wheel and a second rotating wheel, and the first rotating wheel is fixed on the front housing cover (11);
所述第二旋转轮固定在所述后壳盖(12)上；	the second rotating wheel is fixed on the rear housing cover (12);
所述提手(16)的一端转动设置在所述第一旋转轮上，所述提手(16)的另一端转动设置在所述第二旋转轮上。	one end of the handle (16) is rotatably arranged on the first rotating wheel, and the other end of the handle (16) is rotatably arranged on the second rotating wheel.
0005 .	0005 .
?	?
5	5
根据权利要求1-3中任一项权利要求所述的一种高效节能散热器，其特征在于：	The efficient energy-saving radiator according to any one of claims 1 to 3, charaterized in that:
所述散热铝片(21)设有若干个固管孔；	the radiating aluminum sheet (21) is provided with a plurality of fixed pipe holes;
所述散热铜管(24)穿过所述固管孔使得所述散热铝片(21)固定在所述散热铜管(24)上。	the radiating copper pipe (24) penetrates through the pipe fixing hole so that the radiating aluminum sheet (21) is fixed on the radiating copper pipe (24).
0006 .	0006 .
6	6
根据权利要求1-3中任一项权利要求所述的一种高效节能散热器，其特征在于：	The efficient energy-saving radiator according to any one of claims 1 to 3, charaterized in that:
所述散热底板(25)的底面设置有管槽；	the bottom surface of the radiating bottom plate (25) is provided with a pipe groove;
所述散热铜管(24)固定在所述管槽内。	the radiating copper pipe (24) is fixed in the pipe groove.
说明书	Description
一种高效节能散热器	Efficient Energy-saving Radiator
[0001]	[0001]
技术领域	TECHNICAL FIELD
[0002]	[0002]
本发明涉及散热器技术领域，更具体地说，涉及一种高效节能散热器。	The invention relates to the technical field of radiators, in particular to an efficient energy-saving radiator.
[0003]	[0003]
背景技术	BACKGROUND OF THE INVENTION
[0004]	[0004]
有些设备工作时会产生大量的热量，而这些多余的热量不能有快速散去并聚积起来产生高温，很可能会毁坏正在工作的设备，这时散热器便能有效地解决这个问题；	when some equipment works, a large amount of heat is generated, the excessive heat can not be quickly dissipated and accumulated to generate high temperature, the working equipment is likely to be damaged, and the problem can be effectively solved by the radiator;
简单地说，散热器就是一种用于散除某些设备多余热量的产品。	Simply stated, a radiator is a product used to remove excess heat from some equipment.
现有的散热器往往都是只含有单一的散热器本体，直接将散热器本体组装于电路板之中，这种散热器的散热空间小，散热性能较差，并且很容易损坏，不易移动；	An existing radiator usually only comprises a single radiator body, the radiator body is directly assembled in a circuit board, and the radiator is small in radiating space, poor in radiating performance, easy to damage and not easy to move;
此外，现有的散热器制作工艺往往是采用焊接方式将铝片和铜管焊接组装起来，现在的焊接分为两种，一种是镀镍焊接，镀镍焊接成本高，另外一种是铆合技术，散热性能差，而且有局限性，产品中间因为铆合的原因是无法布铜管，严重影响该散热器的散热性能。	In addition, an existing radiator manufacturing process usually adopts a welding mode to weld and assemble an aluminum sheet and a copper pipe, the existing welding is divided into two types, one type is nickel plating welding, the nickel plating welding cost is high, the other type is a riveting technology, the radiating performance is poor, the limitation is caused, the copper pipe can not be distributed in the middle of a product due to riveting, and the radiating performance of the radiator is seriously influenced.
[0005]	[0005]
发明内容	SUMMARY OF THE INVENTION
[0006]	[0006]
有鉴于此，本发明提供了一种高效节能散热器，解决现有技术中散热器散热性能较差，其制作工艺不合理的缺陷。	In view of the problem, the invention provides an efficient energy-saving radiator, solves the defects that the radiator in the prior art is poor in radiating performance and the manufacturing process is unreasonable.
[0007]	[0007]
为实现上述目的，本发明提供了如下技术方案：	In order to achieve the purpose, the invention provides the following technical scheme:
[0008]	[0008]
一种高效节能散热器，包括散热器本体和电源安装板；	An efficient energy-saving radiator comprises a radiator body and a power supply mounting plate;
所述散热器本体包括有散热铝片、隔离片、内壳盖、散热铜管以及散热底板；	the radiator body comprises a radiating aluminum sheet, an isolating sheet, an inner housing cover, a radiating copper pipe and a radiating bottom plate;
所述内壳盖包括有第一内壳盖和第二内壳盖；	the inner housing cover comprises a first inner housing cover and a second inner housing cover;
所述散热底板固定在所述第一内壳盖和所述第二内壳盖之间；	the radiating bottom plate is fixed between the first inner housing cover and the second inner housing cover;
若干个所述散热铝片等距离设置在所述第一内壳盖和所述第二内壳盖之间并位于所述散热底板的上方；	the radiating aluminum sheets are equidistantly arranged between the first inner housing cover and the second inner housing cover and positioned above the radiating bottom plate;
所述隔离片设置在相邻两个所述散热铝片之间；	the isolating sheet is arranged between two adjacent radiating aluminum sheets;
所述散热铜管依次穿过所述第一内壳盖、所述散热铝片以及第二内壳盖，且所述散热铜管的两端弯折固定在所述散热底板上；	the radiating copper pipe sequentially penetrates through the first inner housing cover, the radiating aluminum sheet and the second inner housing cover, and two ends of the radiating copper pipe are bent and fixed on the radiating bottom plate;
所述电源安装板横跨固定在所述第一内壳盖和所述第二内壳盖之间，且所述电源安装板位于所述散热铝片的上方。	The power supply mounting plate is fixed between the first inner housing cover and the second inner housing cover in a spanning mode, and the power supply mounting plate is positioned above the radiating aluminum sheet.
[0009]	[0009]
优选地，该高效节能散热器还包括有前壳盖以及后壳盖；	Preferably, the efficient energy-saving radiator further comprises a front housing cover and a rear housing cover;
所述前壳盖固定在所述第一内壳盖上，所述后壳盖固定在所述第二内壳盖上。	The front housing cover is fixed to the first inner housing cover and the rear housing cover is fixed to the second inner housing cover.
[0010]	[0010]
优选地，该高效节能散热器还包括有第一壳盖固定板和第二壳盖固定板；	Preferably, the efficient energy-saving radiator further comprises a first housing cover fixing plate and a second housing cover fixing plate;
所述第一壳盖固定板的一端固定在所述第一内壳盖上，其另一端固定在所述前壳盖上；	one end of the first housing cover fixing plate is fixed on the first inner housing cover, and the other end of the first housing cover fixing plate is fixed on the front housing cover;
所述第二壳盖固定板的一端固定在所述第二内壳盖上，其另一端固定在所述后壳盖上。	one end of the second housing cover fixing plate is fixed on the second inner housing cover, and the other end of the second housing cover fixing plate is fixed on the rear housing cover.
[0011]	[0011]
优选地，该高效节能散热器还包括有提手、第一旋转轮以及第二旋转轮，所述第一旋转轮固定在所述前壳盖上；	Preferably, the efficient energy-saving radiator further comprises a handle, a first rotating wheel and a second rotating wheel, wherein the first rotating wheel is fixed on the front housing cover;
所述第二旋转轮固定在所述后壳盖上；	the second rotating wheel is fixed on the rear housing cover;
所述提手的一端转动设置在所述第一旋转轮上，所述提手的另一端转动设置在所述第二旋转轮上。	one end of the handle is rotatably arranged on the first rotating wheel, and the other end of the handle is rotatably arranged on the second rotating wheel.
[0012]	[0012]
优选地，该散热铝片设有若干个固管孔；	Preferably, the radiating aluminum sheet is provided with a plurality of fixed pipe holes;
所述散热铜管穿过所述固管孔使得所述散热铝片固定在所述散热铜管上。	the radiating copper pipe penetrates through the pipe fixing hole so that the radiating aluminum sheet is fixed on the radiating copper pipe.
[0013]	[0013]
优选地，该散热底板的底面设置有管槽；	Preferably, the bottom surface of the radiating bottom plate is provided with a pipe groove;
所述散热铜管固定在所述管槽内。	the radiating copper pipe is fixed in the pipe groove.
[0014]	[0014]
从上述的技术方案可以看出，本发明所提供的高效节能散热器结构简单，在散热器本体表面利用前壳盖和后壳盖对散热器本体进行安全防护，避免散热器本体破损；	According to the technical scheme, the efficient energy-saving radiator is simple in structure, the front housing cover and the rear housing cover are utilized on the surface of the radiator body to safely protect the radiator body, and the radiator body is prevented from being damaged;
然后利用电源安装板，使得电源板可以直接安装于该高效节能散热器之中，使得两者相互近距离接触，便于该散热器对电源板进行散热处理；	then, the power supply mounting plate is utilized, so that the power supply plate can be directly mounted in the efficient energy-saving radiator, the power supply plate and the efficient energy-saving radiator are in close contact with each other, and the radiator is convenient for radiating the power supply plate;
利用旋转轮和提手的组合，便于携带移动该高效节能散热器；	the combination of the rotating wheel and the handle is utilized, so that the efficient energy-saving radiator is convenient to carry and move;
利用隔离片将相邻散热铝片分割，使得散热铝片之间有回流空间，从而扩大其散热面积，加快散热效率；	adjacent radiating aluminum sheets are divided by using the isolating sheets, so that a backflow space is formed between the radiating aluminum sheets, the radiating area of the radiating aluminum sheets is enlarged, and the radiating efficiency is improved;
利用散热铜管、散热铝片以及散热底板的相互配合，能进一步提高其散热速度。	The radiating speed can be further improved by utilizing the mutual matching of the radiating copper pipe, the radiating aluminum sheet and the radiating base plate.
[0015]	[0015]
附图说明	BRIEF DESCRIPTION OF THE DRAWINGS
[0016]	[0016]
图1为本发明实施例提供的高效节能散热器的正面结构示意图。	FIG. 1 is a schematic view illustrating a front structure of a efficient energy-saving radiator according to an embodiment of the present invention.
[0017]	[0017]
图2为本发明实施例提供的高效节能散热器的背面结构示意图。	Fig. 2 is a schematic view showing the structure of the rear surface of the efficient energy-saving radiator according to the embodiment of the present invention.
[0018]	[0018]
图3为本发明实施例提供的散热器本体的正面结构示意图。	FIG. 3 is a schematic view illustrating a front structure of a radiator body according to an embodiment of the present invention.
[0019]	[0019]
图4为本发明实施例提供的散热器本体的背面结构示意图。	FIG. 4 is a schematic view illustrating a structure of a rear surface of a radiator body according to an embodiment of the present invention.
[0020]	[0020]
图5为图4中A处的结构放大示意图。	Fig. 5 is an enlarged schematic view of the structure at A in Fig. 4.
[0021]	[0021]
图6为图4中B处的结构放大示意图。	Fig. 6 is an enlarged schematic view of the structure at B in Fig. 4.
[0022]	[0022]
附图标识说明：	BRIEF DESCRIPTION OF THE DRAWINGS:
[0023]	[0023]
10-外壳；	10-housing;
20-散热器本体；	20 radiator body;
11-前壳盖；	11 front housing cover;
12-后壳盖；	12-rear housing cover;
13-连接条；	13 connecting strip;
14-电源安装板；	14 power supply mounting plate;
15-旋转轮；	15 rotating wheel;
16-提手；	16 handle;
21-散热铝片；	21 radiating aluminum sheet;
22-隔离片；	22 isolating sheet;
23-内壳盖；	23 inner housing cover;
24-散热铜管；	24 radiating copper pipe;
25-散热底板；	25 radiating base plate;
26-壳盖固定板。	26 housing cover fixing plate.
[0024]	[0024]
为了更清楚地说明本发明实施例或现有技术中的技术方案，下面将对实施例或现有技术描述中所述的附图作简单地介绍，显而易见，下面的描述中的附图仅仅是本发明的一些实施例，对于本领域普通技术人员来讲，在不付出创造性劳动的前提下，还可以根据这些附图获得其他的附图。	Brief Description of the Drawings In order to more clearly illustrate the embodiments of the present invention or the state of the art, it will be apparent that the drawings described in the description below are only examples of embodiments of the present invention and that it is possible for a person skilled in the art to obtain other drawings on the basis of involving no inventive effort.
[0025]	[0025]
具体实施方式	DETAILED DESCRIPTION OF THE INVENTION
[0026]	[0026]
本发明实施例提供了一种高效节能散热器。	The embodiments of the invention provides an efficient energy-saving radiator.
[0027]	[0027]
如图1-6所示，一种高效节能散热器，包括散热器本体20和电源安装板14；	As shown in figures 1-6, the efficient energy-saving radiator comprises a radiator body 20 and a power supply mounting plate 14;
所述散热器本体20包括有散热铝片21、隔离片22、内壳盖23、散热铜管24以及散热底板25；	the radiator body 20 comprises a radiating aluminum sheet 21, an isolating sheet 22, an inner housing cover 23, a radiating copper pipe 24 and a radiating bottom plate 25;
所述内壳盖23包括有第一内壳盖23和第二内壳盖23；	the inner housing cover 23 comprises a first inner housing cover 23 and a second inner housing cover 23;
所述散热底板25固定在所述第一内壳盖23和所述第二内壳盖23之间；	the radiating base plate 25 is fixed between the first inner housing cover 23 and the second inner housing cover 23;
若干个所述散热铝片21等距离设置在所述第一内壳盖23和所述第二内壳盖23之间并位于所述散热底板25的上方；	a plurality of radiating aluminum sheets 21 are equidistantly arranged between the first inner housing cover 23 and the second inner housing cover 23 and above the radiating bottom plate 25;
所述隔离片22设置在相邻两个所述散热铝片21之间；	the isolating sheet 22 is arranged between two adjacent radiating aluminum sheets 21;
所述散热铜管24依次穿过所述第一内壳盖23、所述散热铝片21以及第二内壳盖23，且所述散热铜管24的两端弯折固定在所述散热底板25上；	the radiating copper pipe 24 sequentially penetrates through the first inner housing cover 23, the radiating aluminum sheet 21 and the second inner housing cover 23, and two ends of the radiating copper pipe 24 are bent and fixed on the radiating bottom plate 25;
所述电源安装板14横跨固定在所述第一内壳盖23和所述第二内壳盖23之间，且所述电源安装板14位于所述散热铝片21的上方。	The power supply mounting plate 14 is fixed across between the first and second inner case covers 23 and 23, and the power supply mounting plate 14 is located above the heat radiating aluminum sheet 21.
从上述的技术方案可以看出，本发明实施例所提供的高效节能散热器利用电源安装板14，使得电源板可以直接安装于该高效节能散热器之中，使得两者相互近距离接触，便于该散热器对电源板进行散热处理；	according to the technical scheme, the efficient energy-saving radiator provided by the embodiment of the invention utilizes the power supply mounting plate 14, so that the power panel can be directly installed in the efficient energy-saving radiator, the power panel and the efficient energy-saving radiator are in close contact with each other, and the radiator is convenient for radiating the power panel;
利用隔离片22将相邻散热铝片21分割，使得散热铝片21之间有回流空间，从而扩大其散热面积，加快散热效率；	the adjacent radiating aluminum sheets 21 are divided by the isolating sheets 22, so that a backflow space is formed between the radiating aluminum sheets 21, the radiating area of the radiating aluminum sheets 21 is enlarged, and the radiating efficiency is accelerated;
利用散热铜管24、散热铝片21以及散热底板25的相互配合，能进一步提高其散热效率。	The radiating efficiency can be further improved by the cooperation of the radiating copper pipe 24, the radiating aluminum sheet 21 and the radiating base plate 25.
[0028]	[0028]
在本发明实施例中，所述隔离片22可采用螺纹方式固定在相邻两个所述散热铝片21之间，也可以采用胶粘方式固定在相邻两个所述散热铝片21之间，主要用于将相邻两个所述散热铝片21相互隔离透风；	In the embodiment of the invention, the isolating sheet 22 can be fixed between the two adjacent radiating aluminum sheets 21 in a threaded mode or can be fixed between the two adjacent radiating aluminum sheets 21 in an adhesive mode, and is mainly used for isolating and ventilating the two adjacent radiating aluminum sheets 21;
然后所述内壳盖23包括有第一内壳盖23和第二内壳盖23，其中，所述第一内壳盖23和第二内壳盖23上均开设有若干个通孔，所述散热铝片21设有若干个固管孔且所述固管孔的孔径比所述散热铜管24的管径大1-2mm；	the inner housing cover 23 comprises a first inner housing cover 23 and a second inner housing cover 23, wherein the first inner housing cover 23 and the second inner housing cover 23 are both provided with a plurality of through holes, the radiating aluminum sheet 21 is provided with a plurality of fixed pipe holes, and the hole diameter of the fixed pipe holes is 1-2mm larger than the pipe diameter of the radiating copper pipe 24;
所述散热铜管24依次穿过所述第一内壳盖23的通孔、散热铝片21的固管孔以及所述第二内壳盖23的通孔然后再用胶粘方式将所述散热铝片21固定在所述散热铜管24上；	the radiating copper pipe 24 sequentially penetrates through the through hole of the first inner housing cover 23, the fixed pipe hole of the radiating aluminum sheet 21 and the through hole of the second inner housing cover 23, and then the radiating aluminum sheet 21 is fixed on the radiating copper pipe 24 in an adhesive manner;
由于该散热底板25的底面设置有管槽；	Since the bottom surface of the heat radiating bottom plate 25 is provided with a pipe groove;
所述散热铜管24的首尾两端弯折固定在所述管槽内，使得所述散热铜管24不容易松动脱离，且可以增加散热铜管24与散热底板25的接触面积，提高其散热效率。	the head end and the tail end of the radiating copper pipe 24 are bent and fixed in the pipe groove, so that the radiating copper pipe 24 is not easy to loosen and separate, the contact area between the radiating copper pipe 24 and the radiating bottom plate 25 can be increased, and the radiating efficiency is improved.
[0029]	[0029]
优选地，该高效节能散热器还包括有外壳10；	Preferably, the efficient energy-saving radiator further comprises a housing 10;
所述外壳10包括有前壳盖11以及后壳盖12；	the housing 10 comprises a front housing cover 11 and a rear housing cover 12;
所述前壳盖11固定在所述第一内壳盖23上，所述后壳盖12固定在所述第二内壳盖23上；	the front housing cover 11 is fixed on the first inner housing cover 23, and the rear housing cover 12 is fixed on the second inner housing cover 23;
该高效节能散热器还包括有壳盖固定板26；	the efficient energy-saving radiator also comprises a housing cover fixing plate 26;
所述壳盖固定板26包括有第一壳盖固定板26和第二壳盖固定板26；	the housing cover fixing plate 26 comprises a first housing cover fixing plate 26 and a second housing cover fixing plate 26;
所述第一壳盖固定板26的一端固定在所述第一内壳盖23上，其另一端固定在所述前壳盖11上；	one end of the first housing cover fixing plate 26 is fixed to the first inner housing cover 23, and the other end thereof is fixed to the front housing cover 11;
所述第二壳盖固定板26的一端固定在所述第二内壳盖23上，其另一端固定在所述后壳盖12上；	one end of the second housing cover fixing plate 26 is fixed to the second inner housing cover 23, and the other end thereof is fixed to the rear housing cover 12;
为了增加该散热器的稳固性能，该高效节能散热器还包括有连接条13，所述连接条13固定在所述前壳盖11和所述第一内壳盖23之间，使得所述前壳盖11与所述第一内壳盖23之间更稳定坚固；	In order to increase the stability of the radiator, the efficient energy-saving radiator further comprises a connecting strip 13 which is fixed between the front housing cover 11 and the first inner housing cover 23, so that the front housing cover 11 and the first inner housing cover 23 are more stable and firm;
并且，所述连接条13固定在所述后壳盖12和所述第二内壳盖23之间，使得所述后壳盖12与所述第二内壳盖23之间更稳定坚固；	Also, the connection bar 13 is fixed between the rear case cover 12 and the second inner case cover 23 so that the rear case cover 12 and the second inner case cover 23 are more stable and firm;
在本发明实施例中，所述前壳盖11通过第一壳盖固定板26，采用螺纹方式固定在第一内壳盖23上；	In the embodiment of the invention, the front housing cover 11 is fixed to the first inner housing cover 23 by a first housing cover fixing plate 26 in a threaded manner;
所述后壳盖12通过第二壳盖固定板26，采用螺纹方式固定在第二内壳盖23上；	the rear housing cover 12 is fixed on the second inner housing cover 23 through a second housing cover fixing plate 26 in a threaded manner;
在散热器本体20表面利用前壳盖11和后壳盖12对散热器本体20中的散热铝片21进行安全防护，避免散热器本体20中的散热铝片21破损。	the front housing cover 11 and the rear housing cover 12 are used on the surface of the radiator body 20 to safely protect the radiating aluminum sheet 21 in the radiator body 20, so that the radiating aluminum sheet 21 in the radiator body 20 is prevented from being damaged.
[0030]	[0030]
此外，该高效节能散热器还包括有提手16、第一旋转轮15以及第二旋转轮15，所述第一旋转轮15固定在所述前壳盖11上；	In addition, the efficient energy-saving radiator further comprises a handle 16, a first rotating wheel 15 and a second rotating wheel 15, wherein the first rotating wheel 15 is fixed on the front housing cover 11;
所述第二旋转轮15固定在所述后壳盖12上；	the second rotating wheel 15 is fixed on the rear housing cover 12;
所述提手16的一端转动设置在所述第一旋转轮15上，所述提手16的另一端转动设置在所述第二旋转轮15上。	one end of the handle 16 is rotatably arranged on the first rotating wheel 15, and the other end of the handle 16 is rotatably arranged on the second rotating wheel 15.
本发明实施例利用旋转轮15和提手16的组合，便于携带移动该高效节能散热器；	According to the embodiment of the invention, the combination of the rotating wheel 15 and the handle 16 is utilized, so that the efficient energy-saving radiator is convenient to carry and move;
并且，提手16可以随意转动，当需要移动该散热器时，将提手16转动至竖直方向，然后直接通过提手16移动该散热器即可；	moreover, the handle 16 can freely rotate, when the radiator needs to be moved, the handle 16 is rotated to the vertical direction, and then the radiator is directly moved through the handle 16;
当不需要移动该散热器时，将提手16转动至斜向下状态即可，从而可以避免用户因直接接触该散热器而刺伤的状况。	When there is no need to move the radiator, the handle 16 can be rotated to an obliquely downward state, so that a user can be prevented from being stabbed by directly contacting the radiator.
[0031]	[0031]
此外；	;
该散热铜管24的内部设有真空冷却水，其管壁厚度为0.5mm-3mm；	vacuum cooling water is arranged inside the radiating copper pipe 24, and the pipe wall thickness of the radiating copper pipe 24 is 0.5mm-3mm;
在本发明实施例中，为了提高散热铜管24的散热性能，所述散热铜管24的内壁向内凹形成波浪状的波纹槽，从而扩大了所述散热铜管24内部的散热面积，增大了冷却液与所述散热铜管24内部的接触面积，从而使得所述散热铜管24尽可能地通过冷却液将散热铝片21上传输到散热铜管24的热量冷却。	In the embodiment of the invention, in order to improve the radiating performance of the radiating copper pipe 24, the inner wall of the radiating copper pipe 24 is concave inwards to form a wave-shaped corrugated groove, so that the radiating area inside the radiating copper pipe 24 is enlarged, and the contact area between the cooling liquid and the inside of the radiating copper pipe 24 is enlarged, so that the radiating copper pipe 24 cools the heat transferred to the radiating copper pipe 24 on the radiating aluminum sheet 21 by the cooling liquid as much as possible.
[0032]	[0032]
此外，所述高效节能散热器的制作工艺包括以下步骤：	In addition, the manufacturing process of the efficient energy-saving radiator comprises the following steps:
S1，组装基本固件：	assembling basic firmware:
将散热铝片21固定于内壳盖23、散热底板25以及内壳盖固定板26之中；	fixing the radiating aluminum sheet 21 in the inner housing cover 23, the radiating bottom plate 25 and the inner housing cover fixing plate 26;
S2，组装散热铜管24：	assembling a radiating copper pipe 24:
将散热铜管24横穿散热铝片21和内壳盖23后并排于散热底板25之中；	the radiating copper pipe 24 traverses the radiating aluminum sheet 21 and the inner housing cover 23 and then is arranged in the radiating bottom plate 25;
S3，涂覆焊膏：	coating solder paste:
将焊膏一一点沾涂覆于散热铜管24与散热铝片21处；	coating the solder paste on the radiating copper pipe 24 and the radiating aluminum sheet 21 at one point;
S4，热熔焊膏：	step 4, heating and melting solder paste:
将涂有焊膏的半成品置于加热器之中加热熔塑焊膏后形成散热器本体20；	placing the semi-finished product coated with the solder paste in a heater to heat and melt the solder paste to form a radiator body 20;
S5，组装外壳：	assembling a housing:
在散热器本体20表面安装具有防护性能的外壳10形成该高效节能散热器；	mounting a housing 10 with protective performance on the surface of a radiator body 20 to form the efficient energy-saving radiator;
该步骤S1之中，每个散热铝片21之间均设有一用于扩大散热空间的隔离片22；	In the step 1, an isolating sheet 22 for expanding a radiating space is arranged between each radiating aluminum sheet 21;
该步骤S2之中，所述散热底板25为铝制散热板；	In the step S2, the radiating base plate 25 is an aluminum radiating plate;
且，所述散热铜管24并排与所述散热底板25后，还需要将所述散热铜管24压平嵌入到所述散热底板25之中；	after the radiating copper pipes 24 are arranged side by side with the radiating base plate 25, the radiating copper pipes 24 also need to be pressed and embedded into the radiating base plate 25;
该步骤S4之中，其加热器的特点是升温的速度快，在20分钟的时间内的温度要达到300摄氏度；	in the step S4, the heater, characterized in that the heating speed is high, and the temperature is up to 300℃ within 20 minutes;
并且涂有焊膏的半成品在加热器内部的加热时间为1-3分钟。	The heating time of the semi-finished product coated with the solder paste inside the heater is 1 to 3 minutes.
由于现有的散热器制作工艺往往是采用焊接方式将铝片和铜管焊接组装起来，现在的焊接分为两种，一种是镀镍焊接，镀镍焊接成本高，另外一种是铆合技术，散热性能差，而且有局限性，产品中间因为铆合的原因是无法布铜管，严重影响该散热器的散热性能；	An existing radiator manufacturing process usually adopts a welding mode to weld and assemble an aluminum sheet and a copper pipe, the existing welding is divided into two types, one type is nickel plating welding, the nickel plating welding cost is high, the other type is a riveting technology, the radiating performance is poor limitation, the middle of a product can not be provided with the copper pipe due to riveting, and the radiating performance of the radiator is seriously affected;
因此，在高效节能散热器的制作工艺之中，该高效节能散热器采用点热熔方式，改变现有技术中的镀镍焊接技术或铆合技术而造成焊接成本高且散热性能较差的缺陷，将焊膏点沾涂覆于散热铜管24与散热铝片21处，然后将涂覆有焊膏的半成品置于加热器之中加热熔塑焊膏，从而焊膏就会将散热铜管24与散热铝片21之间的间隙填满，随温度降低而固化形成散热器本体20；	therefore, in the manufacturing process of the efficient energy-saving radiator, the efficient energy-saving radiator adopts a spot hot melting mode, the defects of high welding cost and poor radiating performance caused by a nickel plating welding technology or a riveting technology in the prior art are changed, the solder paste is spot-coated on the radiating copper pipe 24 and the radiating aluminum sheet 21, and then the semi-finished product coated with the solder paste is placed in a heater to heat and melt the solder paste, so that the gap between the radiating copper pipe 24 and the radiating aluminum sheet 21 can be fille;
这种点热熔方式的制作工艺成本低，能有效节省焊膏材料，且散热铜管24与散热铝片21之间的连接更牢固协调，从而提高散热铜管24与散热铝片21之间的热量交换，增强其散热性能。	The manufacturing process of the spot hot melting mode is low in cost, solder paste materials can be effectively saved, and the connection between the radiating copper pipe 24 and the radiating aluminum sheet 21 is firmer and more coordinated, so that the heat exchange between the radiating copper pipe 24 and the radiating aluminum sheet 21 is improved, and the radiating performance is enhanced.
[0033]	[0033]
本说明书中各个实施例采用递进的方式描述，每个实施例重点说明的都是与其他实施例的不同之处，各个实施例之间相同相似部分相互参见即可。	While various embodiments have been described in this specification in a progressive manner, each embodiment focuses on a different embodiment from the others, with like reference numerals referring to like parts.
[0034]	[0034]
对所公开的实施例的上述说明，使本领域专业技术人员能够实现或使用本发明。	The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention.
对这些实施例的多种修改对本领域的专业技术人员来说将是显而易见的，本文中所定义的一般原理可以在不脱离本发明的精神或范围的情况下，在其它实施例中实现。	Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be implemented in other embodiments without departing from the spirit or scope of the invention.
因此，本发明将不会被限制于本文所示的这些实施例，而是要符合与本文所公开的原理和新颖特点相一致的最宽的范围。	Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.