CN208296664U - Pipe wing monomer and heat exchanger, air conditioner with it - Google Patents

Abstract

The utility model discloses a kind of pipe wing monomer and heat exchanger, air conditioner with it, the pipe wing monomer includes: multiple pipe wing ontologies, each pipe wing ontology includes being formed as the ontology of plate structure and setting on the body and along at least one channel part that the length direction of the ontology extends, the channel part and the ontology are one of the forming part, the thickness of the ontology is less than the thickness of the channel part, the runner of both ends open is limited in the channel part, multiple pipe wing ontologies are sequentially connected in the width direction of the ontology.Pipe wing monomer according to the present utility model enhances the heat transfer efficiency between channel part and ontology by the way that the part that is one of the forming is arranged in channel part and ontology.Moreover, can preferably meet practical application by being sequentially connected multiple pipe wing ontologies in the width direction of ontology.When pipe wing monomer applications are when heat exchanger, the heat exchange efficiency of heat exchanger can be improved.

Description

Pipe wing monomer and heat exchanger, air conditioner with it

Technical field

The utility model relates to technical field of heat exchange, more particularly, to a kind of pipe wing monomer and heat exchanger, sky with it Adjust device.

Background technique

In the related technology, the heat exchanger of volume production includes finned tube exchanger and micro-channel heat exchanger, finned tube exchanger The flat tube of round tube or micro-channel heat exchanger is all made of the arrangement form of horizontal direction.Moreover, in order to obtain to leading on the outside of pipe Heat area, the finless parts for expanding heat-conducting area use the arrangement of vertical direction.In addition, pipe and fin pass through tube expansion Mode is combined together.

However, since caliber is larger, and using horizontal arrangement form, so that condensed water elimination is unsmooth, air side pressure Loss is big.Moreover, because pipe and fin tube expansion be combined together, manage fin between thermal contact resistance it is larger, fin efficiency compared with It is low.

Utility model content

The utility model aims to solve at least one of the technical problems existing in the prior art.For this purpose, the utility model mentions A kind of pipe wing monomer out, the heat transfer efficiency between the channel part and ontology of the pipe wing monomer are high.

According to the pipe wing monomer of the utility model first aspect embodiment, comprising: multiple pipe wing ontologies, each pipe wing Ontology includes being formed as the ontology of plate structure and setting on the body and extend at least along the length direction of the ontology One channel part, the channel part and the ontology are one of the forming part, and the thickness of the ontology is less than the thickness of the channel part Degree, limits the runner of both ends open in the channel part, multiple pipe wing ontologies in the width direction of the ontology according to Secondary connection.

Increased according to the pipe wing monomer of the utility model embodiment by the way that the part that is one of the forming is arranged in channel part and ontology Strong heat transfer efficiency between channel part and ontology.Moreover, by by multiple pipe wing ontologies in the width direction of ontology successively Connection, can preferably meet practical application.When pipe wing monomer applications are when heat exchanger, the heat exchange that heat exchanger can be improved is imitated Rate.

Some embodiments according to the present utility model are formed with the length direction extension along the ontology on the ontology At least one strip seam.

Some embodiments according to the present utility model are formed with the thickness direction perforation along the ontology on the ontology At least one first opening, first opening are equipped with connecting plate, and the both ends of the connecting plate are open with described first respectively The two side walls on the length direction of the ontology be connected, and the connecting plate is upper in the thickness direction of the ontology In the side of the ontology so that the side of the connecting plate is separated from each other with the corresponding wall surface of first opening to limit The strip seam out.

Some embodiments according to the present utility model, the connecting plate include: the first plate section, the first plate section with it is described The setting of ontology parallel interval；Two the second plate sections, one end of two the second plate sections both ends with the first plate section respectively It is connected, two sides on the length direction of the ontology of the other end of two the second plate sections and first opening Wall is connected.

Some embodiments according to the present utility model, the strip seam penetrate through described along the thickness direction of the ontology Body.

Some embodiments according to the present utility model, strip seam be it is multiple, multiple strips are sewn on described It is arranged in array on ontology.

Some embodiments according to the present utility model, the ontology are equipped with spaced multiple tilting structures, each The tilting structure is located at the side on the thickness direction of the ontology.

Some embodiments according to the present utility model are formed with the thickness direction perforation along the ontology on the ontology Multiple second openings, the plurality of tilting structure are respectively provided at multiple second openings, each tilting structure One end and it is corresponding it is described second opening side wall be connected, it is each it is described tilt structure the other end with the ontology described Setting is spaced on the thickness direction of ontology.

Some embodiments according to the present utility model, each tilting structure includes: the first tilting section, and described first sticks up It plays section and is formed as slab construction, described first tilts section and ontology parallel interval setting；Second tilts section, and described second sticks up The one end for playing section is connected with the first tilting section, and described second tilts the other end and the side wall phase of second opening of section Even.

Some embodiments according to the present utility model, each second opening is rectangular aperture, each tilting knot Described one end of structure is connected with a side wall of second opening, and the length of described described one end for tilting structure is less than institute State the length of a side wall of the second opening.

The structure of some embodiments according to the present utility model, multiple pipe wing ontologies is all the same.

Some embodiments according to the present utility model, each pipe wing ontology have a channel part.

Some embodiments according to the present utility model, the channel part are straight along the length direction of the corresponding pipe wing ontology Line and/or curve extend.

According to the heat exchanger of the utility model second aspect embodiment, comprising: multiple pipe wing monomers, each pipe wing list Body is the pipe wing monomer according to the above-mentioned first aspect embodiment of the utility model, and multiple pipe wing monomers are along the pipe wing monomer Thickness direction set gradually.

Some embodiments according to the present utility model are equidistantly arranged between the ontology of multiple pipe wing monomers.

According to the air conditioner of the utility model third aspect embodiment, comprising: shell；Heat exchanger, the heat exchanger are root According to the heat exchanger of the above-mentioned second aspect embodiment of the utility model, the heat exchanger is located in the shell, the heat exchanger The channel part is arranged along the vertical direction, and the angle between the surface and vertical plane of the ontology of the heat exchanger is α, wherein The α meets: 0 °≤α≤60 °.

Some embodiments according to the present utility model, the heat exchanger are arranged vertically in the shell.

The additional aspect and advantage of the utility model will be set forth in part in the description, partially will be from following description In become obvious, or recognized by the practice of the utility model.

Detailed description of the invention

The above-mentioned and/or additional aspect and advantage of the utility model from the description of the embodiment in conjunction with the following figures will Become obvious and be readily appreciated that, in which:

Fig. 1 is the schematic diagram according to the pipe wing ontology of the utility model embodiment；

Fig. 2 is the schematic diagram according to the pipe wing ontology of the utility model another embodiment；

Fig. 3 is the schematic diagram according to the pipe wing monomer of the utility model embodiment；

Fig. 4 is the perspective view according to the heat exchanger of the utility model embodiment；

Fig. 5 is the main view of heat exchanger shown in Fig. 4；

Fig. 6 is the side view of heat exchanger shown in Fig. 4；

Fig. 7 is the top view of heat exchanger shown in Fig. 4；

Fig. 8 is the perspective view according to the heat exchanger of the utility model another embodiment；

Fig. 9 is the main view of heat exchanger shown in fig. 8；

Figure 10 is the side view of heat exchanger shown in fig. 8；

Figure 11 is the perspective view according to the heat exchanger of the utility model further embodiment；

Figure 12 is the main view of heat exchanger shown in Figure 11；

Figure 13 is the sectional view of the line A-A along Figure 12；

Figure 14 is the left view of heat exchanger shown in Figure 12；

Figure 15 is the right view of heat exchanger shown in Figure 12；

Figure 16 is the top view according to the heat exchanger of the utility model another embodiment；

Figure 17 is the partial schematic diagram of heat exchanger shown in Figure 16；

Figure 18 is the heat exchanger and traditional finned tube exchanger and micro-channel heat exchanger according to the utility model embodiment Wind speed and heat output graph of relation；

Figure 19 is the heat exchanger and traditional finned tube exchanger and micro-channel heat exchanger according to the utility model embodiment Wind speed and the air side coefficient of heat transfer graph of relation；

Figure 20 is the heat exchanger and traditional finned tube exchanger and micro-channel heat exchanger according to the utility model embodiment Wind speed and air wide pre. drop graph of relation.

Appended drawing reference:

100: pipe wing monomer；

1: pipe wing ontology；11: ontology；

111: the first openings；112: connecting plate；1121: the first plate sections；1122: the second plate sections；

113: strip seam；114: the second openings；

115: tilting structure；Tilt section at 1151: the first；Tilt section at 1152: the second；

12: channel part；121: runner；

200: heat exchanger.

Specific embodiment

The embodiments of the present invention are described below in detail, examples of the embodiments are shown in the accompanying drawings, wherein from beginning Same or similar element or element with the same or similar functions are indicated to same or similar label eventually.Below by ginseng The embodiment for examining attached drawing description is exemplary, and is only used for explaining the utility model, and should not be understood as to the utility model Limitation.

In the description of the present invention, it should be understood that term " center ", " longitudinal direction ", " transverse direction ", " length ", " width Degree ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside", " suitable The orientation or positional relationship of the instructions such as hour hands ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " is orientation based on the figure Or positional relationship, be merely for convenience of describing the present invention and simplifying the description, rather than the device of indication or suggestion meaning or Element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as the limit to the utility model System.In addition, defining " first ", the feature of " second " can explicitly or implicitly include one or more of the features. In the description of the present invention, unless otherwise indicated, the meaning of " plurality " is two or more.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, be also possible to be electrically connected；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition The concrete meaning of language in the present invention.

Below with reference to Fig. 1-Figure 20 description according to the pipe wing monomer 100 of the utility model embodiment.

As shown in Figure 1-Figure 3, according to the pipe wing monomer 100 of the utility model first aspect embodiment, including multiple pipe wings Ontology 1.

Referring to Figures 1 and 2, each pipe wing ontology 1 include be formed as plate structure ontology 11 and be located on ontology 11 and Along at least one channel part 12 that the length direction of ontology 11 extends.A channel part 12 is shown in Fig. 1, is shown in Fig. 2 Two channel parts 12 for illustration purposes, but those of ordinary skill after having read following technical solution, it is aobvious It is so understood that be applied to the program in the technical solution of three or more channel parts 12, this also falls into the utility model Protection scope within.

Channel part 12 and ontology 11 are one of the forming part.Wherein, the form with 11 one of ontology is set by channel part 12, For example, channel part 12 can be manufactured with 11 overall processing of ontology, channel part 12 is a part of ontology 11 at this time.Certainly, may be used First to process ontology 11, then channel part 12 is processed on ontology 11.

The runner 121 of both ends open is limited in channel part 12.For example, as shown in Figure 4-Figure 6, runner 121 can with it is logical The extending direction in road portion 12 is identical, and the both ends of runner 121 extend through the both ends on the length direction of channel part 12 at this time, that is, flows The both ends in road 121 extend through the both ends of the length direction along ontology 11 of channel part 12.When pipe wing ontology 1 is applied to heat exchanger When 200, refrigerant can flow in the runner 121 of channel part 12.

As a result, setting channel part 12 to use tube expansion with traditional pipe and fin with by way of 11 one of ontology Combined mode is compared, and the thermal contact resistance between channel part 12 and ontology 11 is small, so as to enhance channel part 12 with The channel for flowing through heat exchanger 200 can be improved when pipe wing ontology 1 is applied to heat exchanger 200 in heat transfer efficiency between ontology 11 The heat exchange efficiency of the 11 outer air-flow such as air of ontology of refrigerant and heat exchanger 200 in the runner 121 in portion 12 etc. promotes heat exchange Effect.Moreover, channel part 12 is not easy leakage of refrigerant, reliably by the way that the part that is one of the forming is arranged in channel part 12 and ontology 11 Property is more secure, and makes the manufacture of pipe wing ontology 1 simpler.

The thickness of ontology 11 is less than the thickness of channel part 12.For example, in the example of fig. 1 and 2, ontology 11 is in upper and lower Upward thickness is less than thickness of the channel part 12 in the up and down direction of ontology 11, and channel part 12 can protrude ontology 11 at this time An at least side surface on thickness direction.As a result, by the way that the thickness of ontology 11 is configured relatively thin, ontology can be further improved 11 heat transfer efficiency.Pipe wing ontology 1 according to the present utility model avoids wing it is to be understood that being arranged on fin (i.e. ontology 11) The channel part 12 with runner 121 of piece low efficiency, high fin efficiency available in this way.

Multiple pipe wing ontologies 1 are sequentially connected in the width direction of ontology 11.For example, as shown in figure 3, by multiple pipe wing sheets Body 1 is sequentially connected along the width direction of ontology 11, obtains pipe wing monomer 100.Multiple ontologies 11 of multiple pipe wing ontologies 1 can at this time To be located in same level.Optionally, multiple pipe wing ontologies 1 can be attached using modes such as welding, bondings.But it is unlimited In this.Pipe wing monomer 100 is constituted by using multiple pipe wing ontologies 1 as a result, since pipe wing ontology 1 can be produced in batches, is constituted The particular number of the pipe wing ontology 1 of pipe wing monomer 100 can determine according to actual needs, so as to preferably meet reality Using.

When being applied to heat exchanger 200 according to the pipe wing monomer 100 of the utility model embodiment,

According to the theory of thermal conduction study:

Q=KA₀·ΔT

h_o=(Ap+ η Af)/A_o×h_a

Wherein, Q is heat exchange amount, and K is overall heat-transfer coefficient, h_oFor the air side coefficient of heat transfer,

A_oFor air side heat-conducting area, Δ T is temperature difference,

A_pFor 12 heat-conducting area of channel part, A_piFor refrigerant side heat-conducting area, h_wFor refrigerant side pyroconductivity, h_cFor this The contact conductivity of body 11 and channel part 12, A_coFor the contact area of ontology 11 and channel part 12, η is 11 efficiency of ontology, A_fFor 11 heat-conducting area of ontology, h_aFor 11 partial air side conductivity of ontology.

When wind speed is higher, as shown in figure 18, according to the heat exchanger with pipe wing monomer 100 of the utility model embodiment 200 heat output is greater than the heat output of traditional micro-channel heat exchanger, and the heat output of traditional micro-channel heat exchanger is greater than tradition Finned tube exchanger heat output；As shown in figure 19, according to the heat exchange with pipe wing monomer 100 of the utility model embodiment The air side coefficient of heat transfer of device 200 is greater than the air side coefficient of heat transfer of traditional micro-channel heat exchanger, traditional Thermal Performance of Micro Channels The air side coefficient of heat transfer of device is greater than the air side coefficient of heat transfer of traditional finned tube exchanger.It can be seen from the above, in same item Under part, according to the heat output and the air side coefficient of heat transfer of the heat exchanger 200 with pipe wing monomer 100 of the utility model embodiment It is greater than traditional micro-channel heat exchanger and finned tube exchanger, shows that pipe wing monomer is had according to the utility model embodiment 100 heat exchanger 200 has more excellent exchange capability of heat.

As shown in figure 20, according to the air side pressure of the heat exchanger 200 with pipe wing monomer 100 of the utility model embodiment Drop is between the air wide pre. drop of traditional micro-channel heat exchanger and the air wide pre. drop of traditional finned tube exchanger, and root Air wide pre. drop according to the heat exchanger 200 with pipe wing monomer 100 of the utility model embodiment is slightly above traditional microchannel The air wide pre. drop of heat exchanger.It follows that under equal conditions, it is practical according to this compared with traditional micro-channel heat exchanger The air wide pre. drop of the heat exchanger 200 with pipe wing monomer 100 of new embodiment is although slightly higher, but is not much different；With tradition Finned tube exchanger compare, according to the windage performance of the heat exchanger 200 with pipe wing monomer 100 of the utility model embodiment With apparent advantage, air side pressure loss opposite can be reduced.

According to the pipe wing monomer 100 of the utility model embodiment, by the way that channel part 12 and the setting of ontology 11 are integrated into Shape part enhances the heat transfer efficiency between channel part 12 and ontology 11.Moreover, by by multiple pipe wing ontologies 1 in ontology 11 It is sequentially connected in width direction, can preferably meet practical application.It, can be with when pipe wing monomer 100 is applied to heat exchanger 200 Improve the heat exchange efficiency of heat exchanger 200.

Some embodiments according to the present utility model, the length direction being formed on ontology 11 along ontology 11 extend at least One strip seam 113.As a result, by the way that the strip seam 113 extended along the length direction of ontology 11 is arranged on ontology 11, when It, can be with breakdown speed side during air-flow such as air flows through ontology 11 when pipe wing monomer 100 is applied to heat exchanger 200 Interlayer, temperature boundary layer, play the role of enhanced heat exchange, to further enhance heat transfer effect.It is understood that strip The specific size (for example, length, width etc.) of shape seam 113 can be specifically arranged according to actual requirement, preferably be strengthened with reaching Heat transfer effect.

Some specific embodiments according to the present utility model referring to Fig. 8 and combine Fig. 9 and Figure 10, are formed on ontology 11 At least one first opening 111 penetrated through along the thickness direction of ontology 11, first is open at 111 equipped with connecting plate 112, connecting plate 112 both ends are connected with the two side walls on the length direction of ontology 11 of the first opening 111 respectively, and connecting plate 112 Positioned at the side of ontology 11 so that the corresponding wall of the side of connecting plate 112 and the first opening 111 on the thickness direction of ontology 11 Face is separated from each other to limit strip seam 113.Such as in the example of Fig. 8-Figure 10, the first opening 111 can be for along this The oblong openings that the length direction of body 11 extends, both ends on the length direction of connecting plate 112 respectively with the first opening 111 Two side walls on length direction are connected, and the both ends in the width direction of connecting plate 112 are open in 111 width direction with first Two side walls be staggered respectively on the thickness direction of ontology 11 to limit two strips seam 113.Strip seam 113 at this time It can be formed by the way of punching press.Strip seam 113 is formed by using the form of above-mentioned connecting plate 112 as a result, is being strengthened While heat exchange, can also be guaranteed by connecting plate 112 the two neighboring pipe wing monomer 100 of heat exchanger 200 ontology 11 that This is spaced apart, so that air-flow such as air etc. can successfully flow through heat exchanger 200.

Further, as Figure 8-Figure 10, connecting plate 112 includes: the first plate section 1121 and two the second plate sections 1122, First plate section 1121 is arranged with 11 parallel interval of ontology, and the length of the first plate section 1121 is less than the length of the first opening 111, and two One end of a second plate section 1122 is connected with the both ends of the first plate section 1121 respectively, the other end and of two the second plate sections 1122 The two side walls on the length direction of ontology 11 of one opening 111 are connected.As a result, by using it is above-mentioned include the first plate section 1121 and two the second plate sections 1122 connecting plate 112, have the advantages of simple structure and easy realization.

Certainly, the utility model is without being limited thereto, other specific embodiments according to the present utility model, strip seam 113 Along the thickness direction perforation ontology 11 (not shown go out) of ontology 11.Strip seam 113 can be for along the thickness side of ontology 11 at this time To the elongate holes of perforation.Enhanced heat exchange equally can be well realized as a result, and this kind of strip seam 113 is simple.

Optionally, strip seam 113 is multiple, and multiple strip seams 113 are arranged in array on ontology 11, such as Fig. 8-figure Shown in 9.Certainly, multiple strip seams 113 can also be arranged in other ways on ontology 11, such as staggered etc..

Further embodiment according to the present utility model, as shown in Figure 11-Figure 15, ontology 11 is equipped with spaced more A tilting structure 115, each tilting structure 115 are located at the side on the thickness direction of ontology 11.As a result, by the way that multiple stick up is arranged Structure 115 is played, the two neighboring pipe wing monomer 100 of heat exchanger 200 can be spaced apart well, make air-flow such as air etc. can Successfully to flow through heat exchanger 200 and exchange heat with the refrigerant in the channel part of heat exchanger 200 12.

Specifically, 1 and combining Figure 12 and Figure 13 referring to Fig.1, the thickness direction being formed on ontology 11 along ontology 11 is passed through Logical multiple second openings 114, plurality of tilting structure 115 are respectively provided at multiple second openings 114, each tilting structure 115 one end (for example, left end in Figure 13) is connected with the side wall of corresponding second opening 114, each to tilt the another of structure 115 One end (for example, right end in Figure 13) and ontology 11 are spaced setting on the thickness direction of ontology 11.Each tilting structure at this time The 115 above-mentioned other end is hanging.Each other end for tilting structure 115 is suitable for and another adjacent pipe wing monomer 100 as a result, Surface contact, is separated two adjacent pipe wing monomers 100 with realizing.Moreover, the setting of the second opening 114, to a certain degree On also can achieve the purpose of enhanced heat exchange.

Optionally, each tilting structure 115 includes: that the first tilting section 1151 and second tilts section 1152, and first tilts section 1151 are formed as slab construction, and first tilts section 1151 and the setting of 11 parallel interval of ontology, another adjacent to support well Pipe wing monomer 100, one end (for example, right end in Figure 13) of the second tilting section 1152 tilts section 1151 with first and is connected, the The other end (for example, left end in Figure 13) of two tilting sections 1152 is connected with the side wall of the second opening 114.For example, referring to Figure 10- Figure 13, each second opening 114 can be formed as rectangular aperture, and first tilts section 1151 and 114 faces of corresponding second opening Arrangement, the second tilting section 1152 are connected between the first tilting section 1151 and a side wall of the second opening 114.Pass through as a result, Using it is above-mentioned include that the first tilting section 1151 and second tilt the tilting structure 115 of section 1152, facilitate pipe wing ontology 1 plus Work reduces costs.Wherein, the first tilting section 1151 and the second tilting section 1152 can be along perpendicular to air-flow such as air etc. Flow direction extend, with realize well two neighboring pipe wing monomer 100 is separated on the basis of, allow air-flow successfully It flows through, reduces windage.

Optionally, each second opening 114 is rectangular aperture, each above-mentioned one end for tilting structure 115 and the second opening 114 side wall is connected, and the length of above-mentioned one end of tilting structure 115 is less than the said one side wall of the second opening 114 Length.For example, tilting two sides and pair of the second opening 114 of above-mentioned one end of structure 115 as shown in Figure 11-Figure 15 It answers side to be separated from each other, the feelings of stress concentration can occur in this way to avoid the junction for tilting structure 115 and the second opening 114 Condition improves the bonding strength for tilting structure 115 and ontology 11.

The structure of some embodiments according to the present utility model, multiple pipe wing ontologies 1 is all the same.For example, as shown in Figure 1, Each pipe wing ontology 1 has a channel part 12, and in the width direction of ontology 11, ontology 11 from two sides of channel part 12 to The length of outer extension is certain.Each pipe wing ontology 1 can be manufactured by one set of die at this time.Multiple mutually isostructural pipe wing sheets Body 1 together constitutes pipe wing monomer 100.

Certainly, the utility model is without being limited thereto, other embodiments according to the present utility model, in multiple pipe wing ontologies 1 At least two structure it is different.For example, at least one of multiple pipe wing ontologies 1 can be to have one shown in Fig. 1 The pipe wing ontology 1 of channel part 12 can also be the pipe wing ontology 1 of channel part 12 there are two tools shown in Fig. 2, at this time pipe wing list Body 100 can be collectively formed by the pipe wing ontology 1 of above two different structure.

Optionally, channel part 12 extends along the length direction straight line and/or curve of corresponding pipe wing ontology 1.For example, as schemed 4, shown in Fig. 5, Fig. 8-Fig. 9 and Figure 11, channel part 12 is along the length direction linear extension of pipe wing ontology 1, and the processing is simple as a result, It is at low cost.Certainly, channel part 12 can also extend (not shown go out) along the length direction curve of pipe wing ontology 1, for example, wave Line, camber line etc. further improve heat exchange efficiency thus, it is possible to extend the development length of runner 121.Alternatively, channel part 12 is also It S-shaped can extend (not shown go out), channel part 12 is collectively formed by straight line and curve at this time.It is understood that channel part 12 specific extension shape can be specifically arranged according to actual requirement, preferably to meet practical application.

For example, the cross-sectional shape of runner 121 is circle, the exhausted big portion of circular flow channel 121 in the example of Fig. 1-Fig. 3 Point protrude from the side surface on the thickness direction of ontology 11, the sub-fraction of circular flow channel 121 is towards the thickness side of ontology 11 Upward another side surface is recessed.In the example of Figure 14 and Figure 15, the cross-sectional shape of runner 121 be it is trapezoidal, it is trapezoidal at this time The long side of runner 121 can be with the side flush on the thickness direction of ontology 11, and the short side of trapezoidal runner 121 is from ontology 11 Thickness direction on an above-mentioned side surface outwardly protrude, to enhance heat transfer effect.Certainly, the cross-sectional shape of runner 121 is also It can be other shapes, for example, ellipse, oblong, other polygons except trapezoidal etc..

As shown in Fig. 4-Figure 17, according to the heat exchanger 200 of the utility model second aspect embodiment, including multiple pipe wing lists Body 100.Each pipe wing monomer 100 is the pipe wing monomer 100 according to the above-mentioned first aspect embodiment of the utility model.

Specifically, multiple pipe wing monomers 100 are set gradually along the thickness direction of pipe wing monomer 100.Two neighboring pipe wing 11 part of at least ontology of monomer 100 is separated from each other, so that air-flow such as air etc. can pass through two neighboring pipe wing monomer Space between 100, sufficiently to carry out heat exchange with the refrigerant in the runner 121 of pipe wing monomer 100, as shown in Figure 7.

It can by using above-mentioned pipe wing monomer 100 according to the heat exchanger 200 of the utility model second aspect embodiment To improve the heat exchange efficiency of heat exchanger 200, to promote the overall performance of heat exchanger 200.

Some embodiments according to the present utility model, referring to Fig. 4-Figure 15, between the ontology 11 of multiple pipe wing monomers 100 etc. Spacing arrangement.The assembly between multiple pipe wing monomers 100 is facilitated as a result, and it is more uniform to exchange heat.

According to the air conditioner of the utility model third aspect embodiment, including shell and heat exchanger 200.Heat exchanger 200 is According to the heat exchanger 200 of the above-mentioned second aspect embodiment of the utility model.

Specifically, heat exchanger 200 is located in shell, and the channel part 12 of heat exchanger 200 is arranged along the vertical direction, heat exchanger Angle between the surface and vertical plane of 200 ontology 11 is α, and wherein α meets: 0 °≤α≤60 °.Heat exchanger 200 can be used as Evaporator uses.Certainly, heat exchanger 200 is also used as condenser use.As a result, the runner 121 in channel part 12 can more than Lower placement, as evaporator in use, the drainage performance of condensed water is excellent.

Sky is improved by using above-mentioned heat exchanger 200 according to the air conditioner of the utility model third aspect embodiment Adjust the overall performance of device.

Some embodiments according to the present utility model, heat exchanger 200 are arranged vertically in shell.At this point, heat exchanger 200 Angle α=0 ° between the surface of ontology 11 and above-mentioned vertical plane.The condensed water generated in heat transfer process as a result, can be more suitable Freely it is discharged.

It is constituted and is operated general for this field according to other of the heat exchanger 200 of the utility model embodiment and air conditioner All be for logical technical staff it is known, be not detailed herein.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ", The description of " example ", " specific example " or " some examples " etc. means specific features described in conjunction with this embodiment or example, knot Structure, material or feature are contained at least one embodiment or example of the utility model.In the present specification, to above-mentioned art The schematic representation of language may not refer to the same embodiment or example.Moreover, description specific features, structure, material or Person's feature can be combined in any suitable manner in any one or more of the embodiments or examples.

While there has been shown and described that the embodiments of the present invention, it will be understood by those skilled in the art that: These embodiments can be carried out with a variety of variations, modification, replacement in the case where not departing from the principles of the present invention and objective And modification, the scope of the utility model are defined by the claims and their equivalents.

Claims (17)

1. a kind of pipe wing monomer characterized by comprising

Multiple pipe wing ontologies, each pipe wing ontology include being formed as the ontology of plate structure and setting on the body and edge At least one channel part that the length direction of the ontology extends, the channel part and the ontology are one of the forming part, described The thickness of ontology is less than the thickness of the channel part, and the runner of both ends open, multiple pipe wings are limited in the channel part Ontology is sequentially connected in the width direction of the ontology.

2. pipe wing monomer according to claim 1, which is characterized in that be formed with the length along the ontology on the ontology At least one strip seam that direction extends.

3. pipe wing monomer according to claim 2, which is characterized in that be formed with the thickness along the ontology on the ontology Direction perforation at least one first opening, first opening be equipped with connecting plate, the both ends of the connecting plate respectively with institute The two side walls on the length direction of the ontology for stating the first opening are connected, and the connecting plate is in the thickness of the ontology Spend direction on be located at the ontology side so that the side of the connecting plate with it is described first be open corresponding wall surface to each other It separates to limit the strip seam.

4. pipe wing monomer according to claim 3, which is characterized in that the connecting plate includes:

First plate section, the first plate section and the ontology parallel interval are arranged；

Two the second plate sections, one end of two the second plate sections is connected with the both ends of the first plate section respectively, described in two The other end of second plate section is connected with the two side walls on the length direction of the ontology of first opening.

5. pipe wing monomer according to claim 2, which is characterized in that thickness direction of the strip seam along the ontology Penetrate through the ontology.

6. pipe wing monomer according to claim 2, which is characterized in that the strip seam is multiple, multiple strips Shape seam is arranged in array on the body.

7. pipe wing monomer according to claim 1 to 6, which is characterized in that the ontology is equipped with interval setting Multiple tilting structures, each tilting structure is located at the side on the thickness direction of the ontology.

8. pipe wing monomer according to claim 7, which is characterized in that be formed with the thickness along the ontology on the ontology Multiple second openings of direction perforation, the plurality of tilting structure are respectively provided at multiple second openings, Mei Gesuo State tilt structure one end with it is corresponding it is described second opening side wall be connected, it is each it is described tilting structure the other end with it is described Ontology is spaced setting on the thickness direction of the ontology.

9. pipe wing monomer according to claim 8, which is characterized in that each tilting structure includes:

First tilts section, and the first tilting section is formed as slab construction, and described first tilts section and the ontology parallel interval Setting；

Second tilts section, and one end of the second tilting section is connected with the first tilting section, and described second tilts the another of section It holds and is connected with the side wall of second opening.

10. pipe wing monomer according to claim 8, which is characterized in that each second opening is rectangular aperture, each Described described one end for tilting structure is connected with a side wall of second opening, and described described one end for tilting structure Length is less than the length of a side wall of second opening.

11. pipe wing monomer according to claim 1, which is characterized in that the structure of multiple pipe wing ontologies is all the same.

12. pipe wing monomer according to claim 1, which is characterized in that each pipe wing ontology is described logical with one Road portion.

13. pipe wing monomer according to claim 1, which is characterized in that the channel part is along the corresponding pipe wing ontology Length direction straight line and/or curve extend.

14. a kind of heat exchanger characterized by comprising

Multiple pipe wing monomers, each pipe wing monomer be according to pipe wing monomer of any of claims 1-13, it is more A pipe wing monomer is set gradually along the thickness direction of the pipe wing monomer.

15. heat exchanger according to claim 14, which is characterized in that between the ontology of multiple pipe wing monomers etc. Spacing arrangement.

16. a kind of air conditioner characterized by comprising

Shell；

Heat exchanger, the heat exchanger be according to right want 14 or 15 described in heat exchanger, the heat exchanger is located in the shell, The channel part of the heat exchanger is arranged along the vertical direction, between the surface and vertical plane of the ontology of the heat exchanger Angle is α, wherein the α meets: 0 °≤α≤60 °.

17. air conditioner according to claim 16, which is characterized in that the heat exchanger is arranged vertically in the shell.