CN210399597U - Air conditioner and liquid separating component thereof - Google Patents

Abstract

The utility model belongs to the technical field of the air conditioner, specifically provide an air conditioner and divide liquid component thereof. The utility model discloses aim at solving current knockout and appear dividing the uneven problem of liquid easily. For this reason, the utility model discloses an air conditioner includes the heat exchanger, divides the liquid component setting in the upper reaches side of heat exchanger, the utility model discloses a be formed with spherical cavity in dividing the liquid component, be provided with feed liquor hole and a plurality of liquid hole on dividing the liquid component, feed liquor hole and a plurality of liquid hole all are linked together with spherical cavity, a plurality of liquid holes are central symmetric structure, and when dividing the liquid component assembly to the air conditioner on, a plurality of centers that go out the liquid hole are located same horizontal plane. The utility model discloses a divide the liquid component just reached the purpose that improves the reposition of redundant personnel effect only through the mode that changes the cavity shape, and the utility model discloses still further guarantee that every goes out the liquid hole and can have the same flow through setting up the center in a plurality of liquid holes on same horizontal plane to effectively guarantee to divide the liquid component and can evenly shunt.

Description

Air conditioner and liquid separating component thereof

Technical Field

The utility model belongs to the technical field of the air conditioner, specifically provide an air conditioner and divide liquid component thereof.

Background

Along with the continuous improvement of living standard of people, people also put forward higher and higher requirements on living environment. In order to maintain a comfortable ambient temperature, an air conditioner has become an indispensable equipment in human life. In recent years, technicians have begun to strive for improvements in various components of air conditioners in order to further improve the overall performance of the air conditioners, and dispensers have been listed as important improvements as important parts of air conditioners.

Particularly, when the liquid separator is applied to an air conditioner, the liquid separator is mainly used for uniformly dividing one path of heat exchange medium into multiple paths of heat exchange media and then circulating the heat exchange media. Generally, all be provided with multiunit heat exchange coil in the heat exchanger of air conditioner, the knockout sets up the upstream side at the heat exchanger to make heat transfer medium can flow through the knockout and equally divide the back and correspond respectively and get into among the multiunit heat exchange coil again, thereby effectively improve heat transfer medium's circulation speed, and then improve the heat transfer ability of heat exchanger. Meanwhile, if the liquid separator has the phenomenon of uneven liquid separation, the heat exchange capability of the air conditioner is seriously influenced; it can be understood that when the problem of liquid separation unevenness occurs in the liquid separator, the frosting phenomenon of the heat exchanger can be caused by excessive heat exchange media in part of the heat exchange coil pipes, and the heat transfer area of the heat exchanger can not be well utilized by only less heat exchange media in the other part of the heat exchange coil pipes, so that the problem of the heat exchange capacity of the heat exchanger can be caused.

The main body of the existing liquid separator is generally in a circular truncated cone shape, a liquid inlet pipeline of the liquid separator is connected with one end of the circular truncated cone-shaped main body, and a plurality of liquid outlet pipelines of the liquid separator are connected with the other end of the circular truncated cone-shaped main body; however, because the bottom surfaces of the truncated cone-shaped main bodies are not completely stressed, the existing liquid separator is easy to have the phenomenon of uneven liquid separation, thereby affecting the heat exchange efficiency of the air conditioner.

Accordingly, there is a need in the art for a new air conditioner and a liquid separating member thereof to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the above-mentioned problem among the prior art, for solve the uneven problem of liquid separation easily appears in current knockout promptly, the utility model provides a divide liquid component for air conditioner, the air conditioner includes the heat exchanger, it sets up to divide the liquid component the upstream side of heat exchanger, be formed with spherical cavity in dividing the liquid component, divide and be provided with feed liquor hole and a plurality of liquid holes on the liquid component, the feed liquor hole with a plurality of liquid holes all with spherical cavity is linked together, a plurality of liquid holes are central symmetric structure, works as divide the liquid component assembly extremely when on the air conditioner, the center in a plurality of liquid holes is located same horizontal plane.

In the preferable technical scheme of the liquid separating component for the air conditioner, the spherical cavity is a spherical cavity.

In the above preferred technical solution for a liquid separating member of an air conditioner, the liquid outlet holes are all circular holes, and a plane where a circle center of each liquid outlet hole is located passes through a sphere center of the spherical cavity.

In the above preferred technical solution of the liquid separating member for an air conditioner, the liquid separating member includes a spherical main body and a cylindrical body connected to the spherical main body, the spherical cavity is formed in the spherical main body, and the liquid inlet hole is disposed in the cylindrical body in a penetrating manner along an axial direction.

In the above-mentioned preferred technical solution of the liquid separating member for an air conditioner, the plurality of liquid outlet holes are uniformly formed on the spherical body in a circumferential direction.

In the above preferred technical solution of the liquid separating member for an air conditioner, the number of the liquid outlet holes is four.

In the above preferred technical solution of the liquid separating member for an air conditioner, the cross-sectional shape of the liquid inlet hole is circular.

In the above preferred embodiment of the liquid separating member for an air conditioner, the center of the spherical cavity is on an extension of the axis of the cylindrical body.

In the preferable technical scheme of the liquid separating component for the air conditioner, the spherical cavity is an ellipsoidal cavity.

The utility model also provides an air conditioner, air conditioner includes the heat exchanger, the upstream side of heat exchanger is provided with divides the liquid component, divide the liquid component be among the preferred technical scheme of above-mentioned arbitrary one divide the liquid component.

The technical scheme of the utility model wherein, the utility model discloses an among the technical scheme, the utility model discloses an air conditioner includes the heat exchanger, divide the liquid component to set up the upstream side of heat exchanger, the utility model discloses a be formed with spherical cavity in dividing the liquid component, divide to be provided with feed liquor hole and a plurality of liquid hole on the liquid component, the feed liquor hole with a plurality of liquid holes all with spherical cavity is linked together, a plurality of liquid holes are central symmetry structure, work as divide the liquid component assemble extremely when on the air conditioner, the center in a plurality of liquid holes is located same horizontal plane. The liquid separating component of the utility model effectively ensures that the liquid separating component can uniformly separate the liquid by arranging the spherical cavity, and can be understood that the stress condition of each point in the spherical cavity is also symmetrically distributed because the spherical cavity is centrosymmetric; and simultaneously, the utility model discloses still through with every play liquid hole has similar atress condition further to guarantee on the coplanar through the center setting in a plurality of liquid holes. After the heat exchange medium enters the spherical cavity through the liquid inlet holes, because the spherical cavity is internally provided with the smooth curved surface, the heat exchange medium cannot be influenced by concentrated stress in the spherical cavity, and the centers of the liquid outlet holes are positioned on the same horizontal plane, the pressure at each liquid outlet hole is consistent, namely the stress condition at each liquid outlet hole is similar, so that the heat exchange medium in the spherical cavity can uniformly flow out through the liquid outlet holes, and the liquid distributing component can be effectively ensured to be uniformly distributed, and the heat exchange efficiency of the air conditioner is effectively ensured.

Further, as an optimal technical scheme, the utility model discloses in spherical cavity be the ball cavity, can understand that the ball has good symmetry, consequently, each point inside the ball cavity all is the equality, will spherical cavity sets up to ball cavity and can guarantee to the at utmost divide the liquid component can evenly divide the reposition of redundant personnel, and then effectively guarantees the heat exchange efficiency of heat exchanger.

Further, as an optimal technical scheme, the utility model discloses in a plurality of liquid holes be the circular port, every go out the plane at the centre of a circle place of liquid hole and pass spherical cavity's centre of sphere, promptly the centre of a circle in a plurality of liquid holes all sets up on spherical cavity's the great circle, can understand that the great circle is the biggest circle in the spherical cavity, will the centre of a circle in a plurality of liquid holes sets up can make on spherical cavity's the great circle upper and lower two parts cavity that the centre of a circle place plane in a plurality of liquid holes is separated into also has the symmetry to further guarantee a plurality of liquid holes can be atress more even.

Further, as an optimal technical scheme, in the utility model liquid hole and/or the cross sectional shape in feed liquor hole be circular, because the circular port is more convenient for the flow of liquid, consequently, will liquid hole and/or the feed liquor hole sets up the resistance that the circular port can reduce heat transfer medium and receive at the flow in-process to effectively guarantee the patency that flows.

Further, as a preferred technical solution, the liquid separating member in the present invention includes a spherical main body and a cylindrical body connected to the spherical main body, the spherical cavity is formed in the spherical main body, the liquid inlet hole is disposed in the cylindrical body along the axial direction, and the center of the spherical cavity is on the extension line of the axial line of the cylindrical body; the utility model discloses a main part that will divide the liquid component sets up to guarantee for the sphere each part of spherical main part all has the same wall thickness to avoid striking the heat transfer medium because of the wall thickness is different bring different influence during the different parts in the spherical cavity.

Further, as an optimal technical scheme, the utility model discloses in a plurality of play liquid holes form uniformly along the circumferencial direction in the spherical main part, pass through as heat transfer medium when a plurality of play liquid holes flow out, heat transfer medium is in the atress condition in the spherical cavity also can change thereupon, consequently, will a plurality of play liquid holes evenly set up along the circumferencial direction can guarantee more effectively the inside atress condition of spherical cavity can be the symmetry and change, so that effectively guarantee heat transfer medium in the spherical cavity can pass through a plurality of play liquid holes evenly flow out. Preferably, the number of the liquid outlet holes is four.

Further, as an optimal technical scheme, the utility model discloses in spherical cavity be the ellipsoid cavity, can understand that the ellipsoid shape also has better symmetry, consequently, will spherical cavity sets up to the ellipsoid cavity and also can effectively guarantee divide the liquid component can evenly divide the reposition of redundant personnel, and then effectively guarantees the heat exchange efficiency of heat exchanger.

Drawings

Fig. 1 is a schematic view of the overall structure of the liquid separating member of the present invention.

Reference numerals: 11. a spherical body; 12. a columnar body; 13. a liquid inlet hole; 14. and a liquid outlet hole.

Detailed Description

Preferred embodiments of the present invention will be described below with reference to the accompanying drawings. It should be understood by those skilled in the art that these embodiments are only for explaining the technical principle of the present invention, and are not intended to limit the scope of the present invention. And can be adjusted as needed by those skilled in the art to suit particular applications. For example, although the present invention has been described in connection with the case where the liquid separating member is applied to a heat exchanger, the liquid separating member of the present invention can be obviously applied to other parts of the air conditioner as long as the liquid separating member can perform a flow separating function. Such changes in the applied objects do not depart from the basic principle of the present invention, and therefore, all will fall within the scope of the present invention.

It should be noted that in the description of the present invention, the terms "upper", "lower", "left", "right", "center", "vertical", "horizontal", "inner", "outer", etc. indicate directions or positional relationships based on those shown in the drawings, which are merely for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "coupled" are to be construed broadly and may, for example, be fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

Referring first to fig. 1, the overall structure of the liquid separating member of the present invention is schematically shown. It should be noted that, in this preferred embodiment, the utility model discloses an air conditioner includes the heat exchanger, the heat exchanger includes multiunit heat exchange coil, divide the liquid component to set up the upstream side of heat exchanger, the heat transfer medium in the circulation circuit flows through divide the liquid component to divide the back and then enter into different groups's heat exchange coil respectively to play the effect of reposition of redundant personnel. Specifically, as shown in fig. 1, a spherical cavity is formed in the liquid separating member of the present invention, a liquid inlet hole 13 and four liquid outlet holes 14 are provided on the liquid separating member, the liquid inlet hole 13 and the liquid outlet holes 14 are both communicated with the spherical cavity, the four liquid outlet holes 14 are of a central symmetrical structure, the heat exchange medium in the air conditioner circulation loop enters the spherical cavity through the liquid inlet hole 13, and then is divided into four paths through the four liquid outlet holes 14 to flow out into four heat exchange coil pipes, and the four paths flow into four groups of heat exchange coil pipes respectively; when the liquid distributing member is assembled to the air conditioner, i.e. when the air conditioner is completely assembled in place, the centers of the four liquid outlet holes 14 are located on the same horizontal plane. As will be understood by those skilled in the art, the centers of the four liquid outlet holes 14 are located on the same horizontal plane, which means that when the liquid distribution member is assembled to the air conditioner, the centers of the four liquid outlet holes 14 are located at the same height, so that the centers of the four liquid outlet holes 14 can be located on the same horizontal plane, thereby ensuring that the pressures applied to the four liquid outlet holes 14 are the same.

In addition, it can be understood by those skilled in the art that the present invention does not impose any limitation on the specific shape of the liquid separation member as long as the liquid separation member is formed with a spherical cavity; it should be noted that the spherical cavity may be a spherical cavity or an ellipsoidal cavity, and a technician may set the specific shape and size of the spherical cavity according to actual use requirements. Meanwhile, although the liquid separating member in the preferred embodiment is provided with only one liquid inlet hole 13 and four liquid outlet holes 14, it is obvious for a skilled person to set the specific number of the liquid inlet holes 13 and the liquid outlet holes 14 according to the actual use requirement, for example, the number of the liquid inlet holes 13 may also be multiple. In addition, technical personnel can also set the concrete shape and the setting position of liquid inlet hole 13 and liquid outlet hole 14 by oneself according to the actual use demand, as long as when divide the liquid component assembly to when the air conditioner is last, the center of a plurality of liquid outlet holes 14 is located same horizontal plane can.

Further, in the preferred embodiment, the liquid separating member of the present invention comprises a spherical main body 11 and a column 12 connected to the spherical main body 11, and the center of the sphere of the spherical cavity is on the extension line of the axis of the column 12, wherein the spherical cavity is disposed in the spherical main body 11, and the liquid inlet hole 13 is disposed in the column 12 along the axis direction. That is, when the axis of the cylindrical body 12 is in the vertical direction, the extension of the axis of the cylindrical body 12 coincides with the rotation axis of the spherical cavity; in the preferred embodiment, the liquid inlet 13 is a long circular hole, and the center line of the liquid inlet 13 is exactly the axis of the column 12, and the heat exchange medium in the circulation loop enters the spherical cavity through the liquid inlet 13 arranged on the column 12 for liquid separation.

It can be understood by those skilled in the art that, although the liquid separating member in the preferred embodiment is composed of the spherical body 11 and the column 12, it is obvious that the liquid separating member can also be composed of only the spherical body 11, that is, the liquid inlet hole 13 is directly disposed on the spherical body 11; meanwhile, the main body of the liquid separation member may obviously be in other shapes, such as a cubic shape, etc., as long as the liquid separation member is formed with a spherical cavity. The utility model does not limit the concrete shape and connection relationship of the column 12 and the liquid inlet 13, as long as the heat exchange medium in the circulation loop can flow into the spherical cavity through the liquid inlet 13 arranged on the column 12; preferably, the cylinder 12 is a cylinder and the liquid inlet hole 13 is a circular through hole, although the description of this particular shape is not limiting. In addition, the utility model does not limit the connection relationship between the spherical main body 11 and the column body 12, and the technical personnel can set the connection relationship according to the actual use requirement; for example, the cylindrical body 12 may be connected to the spherical body 11 at a certain inclination angle.

With continued reference to fig. 1, in the preferred embodiment, the liquid outlet holes 14 are also all circular through holes, and the centers of all the liquid outlet holes 14 are located in the same plane, which passes through the center of the sphere of the spherical cavity and is perpendicular to the center line of the liquid inlet hole 13; the four liquid outlet holes 14 are uniformly formed on the spherical body 11 along the circumferential direction, that is, the included angle between the center lines of two adjacent liquid outlet holes 14 is 90 degrees. Those skilled in the art will understand that although the spherical body 11 is described in the preferred embodiment with only four exit holes 14; however, it is obvious for the skilled person that the number of exit holes 14 can be set by himself or herself according to the actual requirements of use. Meanwhile, it should be noted that the position relationship among the different liquid outlet holes 14 and the specific arrangement position of the liquid outlet holes 14 on the spherical body 11 are also not limited, that is, the technical staff can set the positions according to the actual use requirement.

Finally, it should be noted that, although the liquid outlet holes 14 described in the preferred embodiment are uniform in size and are uniformly formed on the spherical body 11 along the circumferential direction, and the plane where the centers of the four liquid outlet holes 14 are located is perpendicular to the center line of the liquid inlet hole 13; however, the number, shape, size and specific arrangement positions of the liquid inlet holes 13 and the liquid outlet holes 14 are obviously not restrictive, and when the number and specific arrangement positions of the liquid inlet holes 13 and the liquid outlet holes 14 are changed, a technician can adjust the shapes and sizes of the liquid inlet holes 13 and the liquid outlet holes 14 to enable each liquid outlet hole 14 to have the same flow rate, that is, only the heat exchange medium can uniformly flow out through the plurality of liquid outlet holes 14. For example, although only one liquid inlet hole 13 is provided in the preferred embodiment, it is obvious to a skilled person that another liquid inlet hole may be provided at a position opposite to the liquid inlet hole 13, that is, two liquid inlet holes 13 are provided on the spherical body 11, and the two liquid inlet holes 13 are respectively provided at the upper and lower ends of the spherical body 11; meanwhile, four liquid outlet holes 14 are arranged in the middle of the spherical main body 11.

So far, the technical solution of the present invention has been described with reference to the accompanying drawings, but it is easily understood by those skilled in the art that the scope of the present invention is obviously not limited to these specific embodiments. Without departing from the principle of the present invention, a person skilled in the art can make equivalent changes or substitutions to the related technical features, and the technical solutions after these changes or substitutions will fall within the protection scope of the present invention.

Claims (10)

1. A liquid separating member for an air conditioner including a heat exchanger, the liquid separating member being disposed on an upstream side of the heat exchanger,

it is characterized in that a spherical cavity is formed in the liquid separating component, a liquid inlet hole and a plurality of liquid outlet holes are arranged on the liquid separating component, the liquid inlet hole and the plurality of liquid outlet holes are communicated with the spherical cavity,

the liquid outlet holes are of a central symmetrical structure, and when the liquid distribution member is assembled on the air conditioner, the centers of the liquid outlet holes are positioned on the same horizontal plane.

2. A liquid separating member according to claim 1 wherein said spherical cavity is a spherical cavity.

3. A liquid separating member according to claim 2, wherein each of the liquid outlet holes is a circular hole, and a plane where the center of each liquid outlet hole is located passes through the center of the spherical cavity.

4. A liquid separating member according to any of claims 1 to 3, characterized in that it comprises a spherical body and a cylindrical body connected to said spherical body,

the spherical cavity is formed in the spherical main body, and the liquid inlet hole penetrates through the columnar body along the axis direction.

5. A liquid separating member according to claim 4, wherein said plurality of liquid outlet holes are formed uniformly in the circumferential direction on said spherical body.

6. A liquid separating member according to claim 5, wherein the number of liquid outlet holes is four.

7. A liquid separating member according to claim 4 wherein the cross-sectional shape of the liquid inlet hole is circular.

8. A liquid separating member according to claim 7 wherein the spherical center of said spherical cavity is on the extension of the axis of said cylindrical body.

9. A liquid separating member according to claim 1 wherein said spherical cavity is an ellipsoidal cavity.

10. An air conditioner comprising a heat exchanger, the upstream side of which is provided with a liquid separating member, characterized in that the liquid separating member is the liquid separating member according to any one of claims 1 to 9.

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