CN107388857A - Heat dissipation structure, condenser and installation method of condenser - Google Patents

Abstract

A heat dissipation structure, comprising: the heat dissipation pipe set comprises a plurality of heat dissipation straight pipes which are arranged in parallel in the first direction X; the fin group is provided with a curved shape on a section perpendicular to the first direction X, the fin group is provided with a plurality of first through holes corresponding to the heat dissipation straight pipes one by one along the first direction X, and the distribution shape of the first through holes on the section perpendicular to the first direction X corresponds to the curved shape; the plurality of heat dissipation straight pipes are respectively arranged in the plurality of first through holes in a penetrating mode. The invention also provides an installation method of the heat dissipation structure and a condenser comprising the heat dissipation structure. According to the invention, the machining mode is integrated and optimized by using a lean design idea, and the bending type heat dissipation structure and the condenser can be obtained without a bending process, so that the size consistency of the heat dissipation structure and the condenser is ensured, and the production efficiency is improved.

Description

Radiator structure, condenser and its installation method

Technical field

The present invention relates to refrigerating field, more particularly to a kind of radiator structure, condenser and its installation method.

Background technology

As shown in figure 1, existing curved condenser (such as U-shaped, G types, L-type etc. have bending condenser) is typically by assembling Fin and radiating tube carry out Integral bending and are molded to obtain, because resilience is big after radiating tube Integral bending, therefore, it is difficult to ensure to radiate The uniformity of pipe size so that the condenser compact dimensions are difficult to ensure card.

The content of the invention

Based on this, it is necessary to provide a kind of radiator structure, condenser and its installation method that can ensure dimensional uniformity.

A kind of radiator structure, including：

Radiating tube group, including multiple radiating straight tubes being be arranged in parallel in a first direction on X；

Fins set, there is a curved shape on the section of the first direction X, the fins set is along described One direction X be provided with the multiple radiating straight tube multiple first through hole correspondingly, the multiple first through hole is vertical It is corresponding with the curved shape in the distribution shape on the section of the first direction X；

The multiple radiating straight tube is arranged in the multiple first through hole respectively.

In one of the embodiments, the multiple radiating straight tube is sequentially communicated and forms a fluid passage.

In one of the embodiments, each radiating straight tube is respectively provided with the first end being oppositely arranged along the first direction X With the second end, the radiator structure has the first side and the second side being oppositely arranged, the multiple radiating along the first direction X The first end of straight tube may be contained within the first side of the radiator structure, and the multiple the second end for radiating straight tube may be contained within described Second side of radiator structure；First end of the first end of each radiating straight tube only with a radiating straight tube adjacent thereto connects Connect, the second end of each radiating straight tube only connects with another described second end for radiating straight tube adjacent thereto.

In one of the embodiments, the radiating tube group further comprises multiple U-shaped connecting tubes, each U-shaped company Take over for by two it is described radiating straight tubes first ends link together, or by two it is described radiating straight tubes the second end connect Together.

In one of the embodiments, in addition to two side plates, it is respectively arranged at the first side and of the radiator structure Two sides, be respectively arranged with described two side plates with the multiple radiating straight tube multiple third through-holes correspondingly, it is described more Individual U-shaped connecting tube is connected by the multiple third through-hole with the multiple radiating straight tube respectively.

In one of the embodiments, in addition to the fixed support that is fixed on the side plate, the fixed support is along institute State first direction X and protrude from the length of the side plate and protrude from the side plate along the first direction X more than the U-shaped connecting tube Length.

In one of the embodiments, the fins set includes multiple along the spaced fins of first direction X, often One fin is each perpendicular to the first direction X and set, the shape all same of each fin.

The multiple radiating straight tube is arranged in the wing by a kind of installation method of above-mentioned radiator structure, including step respectively In the multiple first through hole in piece group, and carry out tube expansion processing.

In one of the embodiments, the installation method also includes：

The both ends of the multiple U-shaped connecting tube are arranged in the third through-hole of the corresponding side plate, and carried out Tube expansion processing；And

Each U-shaped connecting tube is connected with the corresponding two radiating straight tubes.

A kind of condenser, including above-mentioned radiator structure.

Radiator structure, condenser and its installation method provided by the invention, by using lean mentality of designing integrated optimization Processing mode, it is proposed that the bending type radiator structure and condenser of new construction and new processing mode.By by the shape of fins set Make bending shape, and the arranged distribution shape of radiating straight tube limited by the shape of fins set, without to radiator structure and Condenser carries out overall bending forming technique, you can the radiator structure and condenser of bending type is obtained, so as to without considering radiating Resilience is big after straight tube bending, the problem of causing compact dimensions to be difficult to ensure card, and reveals the problem of appearance of copper pipe after bending.Further, since The cancellation of bending process, the production process of radiator structure and condenser is optimized, improves production efficiency, automated for realizing Processing has excellent basis.

Brief description of the drawings

Fig. 1 is the structural representation of the radiator structure of traditional bending type condenser；

Fig. 2 is the structural representation of radiator structure provided by the invention；

Fig. 3 A, Fig. 3 B and Fig. 3 C are respectively the fins set of different embodiments of the invention offer perpendicular to first direction X Curved shape schematic diagram on section.

Embodiment

In order to make the purpose , technical scheme and advantage of the present invention be clearer, by the following examples, and combine attached Figure, the present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only explaining this hair It is bright, it is not intended to limit the present invention.

Referring to Fig. 2, the present invention provides a kind of radiator structure, including radiating tube group 10 and fins set 20.The radiating tube Group 10 includes multiple radiating straight tubes 110 being be arranged in parallel in a first direction on X.The fins set 20 is perpendicular to the first party There is a curved shape on to X section.The fins set 20 is provided with and the multiple radiating straight tube along the first direction X 110 one-to-one multiple first through hole 210, the multiple first through hole 210 is on the section of the first direction X Distribution shape it is corresponding with the curved shape.The multiple radiating straight tube 110 is arranged in the multiple first through hole respectively In 210.

Adjusted design thinking of the present invention, by designing the shape of fins set 20, and constrained by fins set 20 described more The arranged distribution shape of individual radiating straight tube 110, to make the radiator structure bending forming, so as to avoid the multiple radiating Straight tube 110 carries out the problem of size caused by resilience is big during overall bending forming is inconsistent along its length.

The first direction X is the length direction of the radiating straight tube 110.The multiple radiating straight tube 110 can be successively Connect and form a fluid passage.In one embodiment, each radiating straight tube 110 is respectively provided with relatively along the first direction X The first end of setting and the second end.The first end of the multiple radiating straight tube 110 may be contained within the same side of the radiator structure, Second end of the multiple radiating straight tube 110 may be contained within the opposite side of the radiator structure.The first of each radiating straight tube 110 First end of the end only with a radiating straight tube 110 adjacent thereto connects, and the second end is only and another radiating adjacent thereto is straight The second end connection of pipe 110, so that the multiple radiating straight tube 110 is sequentially communicated and forms a fluid passage.

Further, the radiating tube group 10 also includes multiple U-shaped connecting tubes 120, and each U-shaped connecting tube 120 is used for will The first end of two radiating straight tubes 110 is linked together, or the second end of two radiating straight tubes 110 is linked together.Another In one embodiment, the multiple radiating straight tube 110 and the multiple U-shaped connecting tube 120 can be integrally formed setting, specifically, can By a radiating house steward radiating tube group 10 is formed by repeatedly sinuous.

The fins set 20 is unlimited in the concrete shape of the curved shape on the section of the first direction X, can To be designed to different shapes according to specific space requirement to adapt to different space structures.The curved shape can be with It is the shape of rule or irregular shape.The curved shape can be ellipse, circle, S types, U-shaped, G types or L-type etc., such as the shape as shown in Fig. 3 A, Fig. 3 B and Fig. 3 C.

The fins set 20 may include multiple along the spaced fin (not shown) of the first direction X.Each fin It may be provided with the multiple and the multiple one-to-one multiple second through hole (not shown) of radiating straight tube 110.Each fin Every one second through hole is corresponding with second through hole of other any fins and is interconnected so as to form a first through hole 210.Each fin can be set perpendicular to the first direction X.The shape all same of each fin.The fin Shape can be corresponding with the curved shape.

Further, the radiator structure also includes two side plates 30.Described two side plates 30 can be along the first direction X It is arranged at the relative both sides of the radiator structure.It can be respectively arranged with described two side plates 30 and the multiple first through hole The 210 multiple third through-holes 310 being correspondingly arranged.The multiple U-shaped connecting tube 120 can pass through the multiple third through-hole respectively 310 are connected with the multiple radiating straight tube 110.In one embodiment, the both ends of the multiple U-shaped connecting tube 120 are each passed through Two third through-holes 310 with two it is described radiating straight tube 310 first end or the second end be connected.Described two side plates 30 can Set perpendicular to the first direction X.Described two side plates 30 can have and the curved shape identical shape.

Further, the radiator structure may also include fixed support 40, for the radiator structure to be fixed on into chassis Upper (not shown).The fixed support 40 is securable to (such as by fixed forms such as screw, riveting, welding) one of institute State on side plate 30.Preferably, the fixed support 40 protrudes from the length of the side plate 30 more than described along the first direction X U-shaped connecting tube 120 protrudes from the length of the side plate 30 along the first direction X, after causing the radiator structure to fix, institute Friction will not be contacted with the chassis and produce and split pipe phenomenon by stating U-shaped connecting tube 120.

The present invention also provides the installation method of above-mentioned radiator structure, including：The multiple radiating straight tube 110 is worn respectively In the multiple first through hole 210, tube expansion processing is carried out, you can the radiating tube group 10 is fixed with the fins set 20 and connect Connect.

The installation method of radiator structure provided by the invention, without carrying out bending process to the multiple radiating straight tube 110, The radiator structure with bending external form can be obtained, the dimensional uniformity of the radiator structure can not only be ensured, and simplify The installation procedure of radiator structure, substantially increases production efficiency, can realize automated production.

The installation method of the radiator structure can also further comprise：Institute is inserted at the both ends of the multiple U-tube respectively State in third through-hole structure 310 corresponding on side plate 30, carry out tube expansion processing, it is then that the multiple U-tube is right with it The radiating straight tube 110 answered is attached.

Traditional bending type radiator structure it is general first by fins set and the tube expansion processing of radiating straight tube group it is fixed after, then along described The length direction of radiating straight tube carries out overall bending, and this mode not only cannot be guaranteed that the size of the radiator structure is consistent Property, and during bending, original fin interval can be made to become big in bending place, so as to make the radiating in the bending place Straight tube is exposed, and can not only reduce the radiating efficiency of radiating straight tube, and the outward appearance of the radiator structure is also unsightly.This hair The installation method of bright radiator structure, due to eliminating the step of carrying out overall bending forming to radiator structure, so as to avoid Radiate the exposed phenomenon of straight tube.

The present invention also provides a kind of condenser, including above-mentioned radiator structure.

Radiator structure, condenser and its installation method provided by the invention, by using lean mentality of designing integrated optimization Processing mode, it is proposed that the bending type radiator structure and condenser of new construction and new processing mode.By by the shape of fins set Make bending shape, and the arranged distribution shape of radiating straight tube limited by the shape of fins set, without to radiator structure and Condenser carries out overall bending forming technique, you can the radiator structure and condenser of bending type is obtained, so as to without considering radiating Resilience is big after straight tube bending, the problem of causing compact dimensions to be difficult to ensure card, and reveals the problem of appearance of copper pipe after bending.Further, since The cancellation of bending process, the production process of radiator structure and condenser is optimized, improves production efficiency, automated for realizing Processing has excellent basis.

Each technical characteristic of embodiment described above can be combined arbitrarily, to make description succinct, not to above-mentioned reality Apply all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, the scope that this specification is recorded all is considered to be.

Embodiment described above only expresses the several embodiments of the present invention, and its description is more specific and detailed, but simultaneously Can not therefore it be construed as limiting the scope of the patent.It should be pointed out that come for one of ordinary skill in the art Say, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the protection of the present invention Scope.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (10)

1. A kind of 1. radiator structure, it is characterised in that including：

   Radiating tube group (10), including multiple radiating straight tubes (110) being be arranged in parallel in a first direction on X；

   Fins set (20), there is a curved shape on the section of the first direction X, the fins set (20) is along institute State first direction X be provided with the multiple one-to-one multiple first through hole (210) of radiating straight tube (110), it is the multiple First through hole (210) is corresponding with the curved shape in the distribution shape on the section of the first direction X；

   The multiple radiating straight tube (110) is arranged in the multiple first through hole (210) respectively.
2. 2. radiator structure according to claim 1, it is characterised in that the multiple radiating straight tube (110) is sequentially communicated simultaneously Form a fluid passage.
3. 3. radiator structure according to claim 2, it is characterised in that each radiating straight tube (110) is along the first direction X The first end being oppositely arranged and the second end are respectively provided with, the radiator structure has first be oppositely arranged along the first direction X Side and the second side, the first end of the multiple radiating straight tube (110) may be contained within the first side of the radiator structure, the multiple Second end of radiating straight tube (110) may be contained within the second side of the radiator structure；The first of each radiating straight tube (110) First end of the end only with a radiating straight tube 110 adjacent thereto connects, the second end of each radiating straight tube (110) Only the second end with another radiating straight tube (110) adjacent thereto connects.
4. 4. radiator structure according to claim 3, it is characterised in that the radiating tube group (10) further comprises multiple U Type connecting tube (120), each U-shaped connecting tube (120) are used to the first end of two radiating straight tubes (110) being connected to Together, or by the second end of two radiating straight tubes (120) link together.
5. 5. radiator structure according to claim 4, it is characterised in that also including two side plates (30), be respectively arranged at institute The first side and the second side of radiator structure are stated, is respectively arranged with described two side plates (30) and the multiple radiating straight tube (110) one-to-one multiple third through-holes (310), the multiple U-shaped connecting tube (120) pass through the multiple threeway respectively Hole (310) is connected with the multiple radiating straight tube (110).
6. 6. radiator structure according to claim 5, it is characterised in that also include the fixation being fixed on the side plate (30) Support (40), the length that the fixed support (40) protrudes from the side plate (30) along the first direction X are more than the U-shaped company Adapter (120) protrudes from the length of the side plate (30) along the first direction X.
7. 7. radiator structure according to claim 1, it is characterised in that the fins set (20) includes multiple described first Spaced fin on the X of direction, each fin are each perpendicular to the first direction X and set, the shape of each fin Shape all same.
8. 8. the installation method of a kind of radiator structure as described in claim 1 to 7 any one, it is characterised in that including following Step：

   The multiple radiating straight tube (110) is arranged in multiple first through hole (210) in the fins set respectively, and carried out Tube expansion processing.
9. 9. a kind of installation method according to claim 8, it is characterised in that also including step：

   The both ends of multiple U-shaped connecting tubes (120) are arranged in the third through-hole (310) of corresponding side plate (30), gone forward side by side The processing of row tube expansion；And

   By radiating straight tube (110) connection of each U-shaped connecting tube (120) and corresponding two.
10. 10. a kind of condenser, including the radiator structure as described in any one of claim 1 to 7.