KR20240025015A - Three-way pipe and air conditioning system using the three-way pipe - Google Patents

Abstract

A three-way pipe (100) and an air conditioning system (200) using the three-way pipe are provided. The three-way tube includes a three-way body (10) and a connecting member (20). The three-way body is connected to the external pipe through a connecting member. The three-way body is a stainless steel three-way, and the connecting member is a copper pipe or aluminum pipe. The three-way tube uses a stainless steel three-way main body, which increases the strength of the three-way tube and reduces production costs. Additionally, the service life of the three-way pipe can be extended.

Description

Three-way pipe and air conditioning system using the three-way pipe

This application claims priority to a Chinese patent application filed on July 7, 2021, the application number of which is 202121540428.7, and the title of the invention is "Three-way pipe and air conditioning system using the three-way pipe." It is incorporated in its entirety into this application.

This application relates to the field of air conditioning technology, and more specifically, to a three-way pipe and an air conditioning system using the three-way pipe.

In the air conditioning field, three-way pipes are widely used. Copper three-way pipe is widely used as a heat exchange pipe in general air conditioners, but copper three-way pipe has relatively low strength. Additionally, due to limitations in the processing process, stress may be concentrated at corner points where the cross-sectional shape of the copper triangular tube changes rapidly. The wall thickness at this point becomes thin, making the copper triangular tube easily damaged under fluid impact.

The three-way pipe of some large air conditioning devices consists of pipe members made of two different materials. In this case, welding of dissimilar metals is complicated, and production costs are relatively high.

According to various embodiments of the present application, a three-way pipe and an air conditioning system using the three-way pipe are provided.

The three-way tube includes a three-way body and a connecting member. The three-way main body is connected to the external pipe through the connecting member. The three-way body is a stainless steel three-way, and the connecting member is a copper pipe or aluminum pipe.

In one embodiment, the connecting member is provided with a positioning portion that matches the three-way body in a radial direction at one end connected to the three-way body. The other end is connected to an external pipe. The positioning portion is used to limit the connection length between the connecting member and the three-way main body.

In one embodiment, the connecting member is connected to be inserted into the three-way main body, and the positioning portion is a necking section formed by contracting the connecting member in the radial direction. Alternatively, the connecting member is connected to cover the three-way main body, and the positioning portion is a flaring section formed by expanding the connecting member in the radial direction.

In one embodiment, the three-way body includes a first connector, a second connector, and a third connector. The second connector and the third connector are installed coaxially. The connecting member includes a first connecting member, a second connecting member, and a third connecting member. The first connector, the second connector, and the third connector are connected to the first connection member, the second connection member, and the third connection member, respectively.

In one embodiment, the wall thickness t1 of the first connector, the wall thickness t2 of the second connector, and the wall thickness t3 of the third connector satisfy the relationship t1<t2. Here t2=t3.

In one embodiment, the inner diameter D1 of the first connector, the inner diameter D2 of the second connector, and the inner diameter D3 of the third connector satisfy the relational expression D1≤D2. Here D2=D3.

In one embodiment, a connection part is installed at a connection point between the first connector and the second connector and/or a connection point between the first connector and the third connector. The connection part is a fillet transition connection part.

In one embodiment, the first connector and the first connection member are connected by welding. Additionally/or the second connector and the second connection member are connected by welding. Additionally/or the third connector and the third connection member are connected by welding.

In one embodiment, the inner diameter of the first connecting member is greater than or equal to the inner diameter of the first connector. Additionally/or the inner diameter of the second connecting member is greater than or equal to the inner diameter of the second connector. Additionally/or the inner diameter of the third connecting member is greater than or equal to the inner diameter of the third connecting member.

The present application further provides an air conditioning system including any of the above-described three-way pipes.

Details of one or more embodiments according to the present application are provided in the accompanying drawings and description below. Other features, objects and advantages of the present application are clearly described through the specification, accompanying drawings and claims.

To better describe and interpret embodiments and/or examples of the invention disclosed herein, reference may be made to one or more accompanying drawings. Additional details or examples used in the accompanying drawing description should not be construed as limiting the scope of any of the disclosed invention, the presently described embodiments and/or examples and the most preferred forms of the invention as currently understood.
1 is a structural diagram of a three-way tube according to one or more embodiments of the present application.
Figure 2 is a structural diagram of the three-way main body in the three-way tube shown in Figure 1.
3 is a structural diagram of a three-way pipe according to one or more embodiments.
Figure 4 is a partial enlarged view at point A of the three-way tube shown in Figure 3.
5 is a schematic diagram of a three-way pipe and an air conditioning system including the three-way pipe according to one or more embodiments.
Symbol Description of Component
100-three-way pipe, 10-three-way main body, 11-first connector, 12-second connector, 13-third connector, 14-connector, 20-connection member, 21-first connection member, 22-second connection Member, 23-third connecting member, 24-positioning portion, 20a-connecting member, 21a-first connecting member, 22a-second connecting member, 23a-third connecting member, 24a-positioning portion, 200-air conditioning system.
The present application will be described in more detail with reference to the accompanying drawings and specific implementation methods along with explanations of the symbols for the above major components.

In order to more clearly explain the purpose, technical solutions and advantages of the present application, the present application will be described in more detail below with reference to the accompanying drawings and specific implementation methods. Please note that the specific implementation methods described herein are only for illustrating the present application and do not limit the scope of protection of the present application.

Note that when a component is described as being “mounted” to another component, it may be mounted directly on the other component or there may be an intermediate component. When a component is described as being "installed" on another component, it may be installed directly on the other component, or it may be installed concurrently with an intermediate component. When one component is described as being “fixed” to another component, it may be directly fixed to the other component or may have concurrent components in between. As used herein, the terms “vertical,” “horizontal,” “left,” “right,” and similar expressions are for descriptive purposes only and do not imply a specific mode of practice.

Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by a person skilled in the art to which this application pertains. The terms used in the specification of the present application herein are for describing specific implementation methods and are not intended to limit the present application. As used herein, the term “or/and” includes any and all combinations of one or more associated listed items.

Referring to Figures 1 and 2, Figure 1 is a structural diagram of the three-way tube 100 provided by the present application. FIG. 2 is a structural diagram of the three-way main body 10 shown in FIG. 1.

This application provides a three-way tube (100). It is mainly used to connect to external pipes and is a very important component widely used in the refrigeration field. It can be understood that the three-way pipe 100 can also be used in other pipes.

The three-way pipe 100 includes a three-way body 10 and a connecting member 20. The three-way main body 10 is connected to the external pipe through a connecting member 20. The three-way body 10 is used to communicate external pipes, for example, heat exchange pipes of an air conditioning system. The connecting member 20 is used to connect the connector of the three-way main body 10 to the external pipe.

In the air conditioning field, three-way pipes are widely used. Copper three-way pipe is widely used as a heat exchange pipe in general air conditioners, but copper three-way pipe has relatively low strength. Additionally, due to limitations in the processing process, stress may be concentrated at corner points where the cross-sectional shape of the copper trigonal tube changes rapidly. The wall thickness at this point becomes thin, making the copper triangular tube easily damaged under fluid impact.

The three-way pipe of some large air conditioning devices consists of pipe members made of two different materials. In this case, welding of dissimilar metals is complicated, and production costs are relatively high.

The three-way body 10 is made of stainless steel three-way and has relatively high strength. Additionally, the cost of stainless steel three-way is lower than that of copper three-way. Additionally, the connecting member 20 is a copper pipe or an aluminum pipe. This can make it easy to connect to external pipes, especially copper pipes, aluminum pipes, or other pipes in air conditioning systems. Therefore, the difficulty of connecting the stainless steel three-way directly to the external pipe can be effectively lowered. In particular, when the three-way pipe is damaged, the difficulty of repairing the three-way pipe within the air conditioning system can be reduced.

In one embodiment, the cross-section of the three-way body 10 is generally “T” shaped. The three-way body 10 is mainly used to connect to external pipes and change the direction of fluid. The three-way main body 10 includes a first connector 11, a second connector 12, and a third connector 13 for connecting to the connecting member 20. The connectors of the first connector 11, the second connector 12, and the third connector 13 are all hollow structures. The second connector 12 and the third connector 13 are installed coaxially.

It is understood that in other implementations, the three-way body 10 may have other structures, such as a three-way body 10 with a “Y”-shaped cross-section. This is as long as the three connectors can communicate with each other. In addition, the second connector 12 and the third connector 13 may be installed on different axes. It only needs to be able to meet machining process requirements and facilitate the flow of fluids.

Additionally, the first connector 11 is installed in the pipe section between the second connector 12 and the third connector 13. Through the flanging process, the pipe section between the second connector 12 and the third connector 13 is extended in the radial direction to form the first connector 11. According to the deformation characteristics of the flanging process, the material thickness of the first connector 11 is too thin and the outward protruding length must be controlled within a certain range to prevent hidden cracks from occurring. Through this, connection with the first connection member 21 is facilitated.

In one embodiment, considering the overall mechanical properties of the three-way main body 10, the three-way tube 100 must be replaced in advance to prevent premature damage to thin and weak parts under fluid impact. In this case, the wall thickness of the three-way body 10 is the same. Specifically, the wall thickness t1 of the first connector 11, the wall thickness t2 of the second connector 12 and the wall thickness t3 of the third connector 13 satisfy the relation t1<t2, where t2=t3. . Additionally, due to limitations in the location, structure, and flanging processing technology of installing the first connector 11, the inner diameter of the first connector 11 should not be too large. Specifically, the inner diameter D1 of the first connector 11, the inner diameter D2 of the second connector 12, and the inner diameter D3 of the third connector 13 satisfy the relationship D1≤D2, where D2=D3. Through this installation, it is possible to effectively prevent phenomena such as the wall thickness being too thin or even cracking occurring when processing the first connector 11, and improving the product quality of the three-way main body 10. In addition, when using the three-way pipe 100, flow restriction phenomenon can be effectively prevented.

In one embodiment, the three-way main body 10 includes a connection portion 14 installed between the first connector 11 and the second connector 12, and/or the first connector 11 and the third connector 13. It further includes a connection part 14 installed therebetween. The connection portion 14 adopts a relatively large fillet transition and has a uniform wall thickness. The connector 14 is used to smoothly transition between the first connector 11 and the second connector 12. Also/or the connecting portion 14 is used to smoothly transition between the first connecting portion 11 and the third connecting portion 13. Through this installation, there is no part in the overall structure of the three-way pipe 100 whose shape changes drastically, so the stress concentration in the connection portion 14 is effectively lowered. Therefore, when the three-way pipe 100 changes the fluid direction, the connection portion 14 is easily damaged under the impact of the fluid, so there is no need to replace the three-way pipe 100 in advance. Additionally, the three-way pipe 100 is easier to process.

The connecting member 20 includes a first connecting member 21, a second connecting member 22, and a third connecting member 23 for connecting the three-way main body 10 with an external pipe. The first connecting member 21, the second connecting member 22, and the third connecting member 23 are all hollow structures. The first connecting member 21 is connected to the first connector 11, and the second connecting member 22 is connected to the second connector 12. The third connection member 23 is connected to the third connector 13. In addition, the cross-sectional shape of the connecting member 20 should be substantially the same as the cross-sectional shape of the three-way main body 10 connector. Through this, the first connector 11 and the first connection member 21 are connected, the second connector 12 and the second connection member 22 are connected, and the third connector 13 and the third connection member 23 are connected. Reduce connection difficulty.

In one embodiment, the inner diameter of the first connecting member 21 is greater than or equal to the inner diameter of the first connecting piece 11 of the three-way main body 10. Additionally, the inner diameter of the second connecting member 22 is greater than or equal to the inner diameter of the second connecting piece 12 of the three-way main body 10. Additionally, the inner diameter of the third connecting member 23 is greater than or equal to the inner diameter of the third connecting piece 13 of the three-way main body 10. Through this installation, the flow of liquid flowing through the three-way tube 100 is not restricted.

Referring to Figures 3 and 4, Figure 3 is a structural diagram of a three-way pipe according to another embodiment of the present application. Figure 4 is a partial enlarged view at point A of the three-way tube shown in Figure 3.

Another embodiment of the three-way tube 100 has a generally identical structure to the three-way tube 100 of the above-described embodiment, and the main improvements are as follows. That is, the connecting member 20a is provided with a positioning portion 24a that matches the three-way main body 10 in the radial direction of one end connected to the three-way main body 10. The other end is connected to an external pipe. For example, the other end of the positioning unit 24a is connected to the original copper pipe, aluminum pipe, or other pipe of the air conditioning system.

Additionally, the connecting member 20a is connected to be inserted into the three-way main body 10, and the positioning portion 24a is a necking section formed by contracting the connecting member 20a in the radial direction. The outer end surfaces of the first connector 11, the second connector 12, and the third connector 13 are the necking of the first connection member 21a, the second connection member 22a, and the third connection member 23a, respectively. It comes into contact with the step surface on the section. Alternatively, the connecting member 20a is connected to cover the three-way main body 10, and the positioning portion 24a is a flaring section formed by expanding the connecting member 20a in the radial direction. The outer end surfaces of the first connector 11, the second connector 12, and the third connector 13 are the flares of the first connection member 21a, the second connection member 22a, and the third connection member 23a, respectively. It contacts the step surface on the ring section. The main function of the positioning unit 24a is to determine the position to facilitate connection between the connecting member 20a and the three-way main body 10 and to limit the connection length between the connecting member 20a and the three-way main body 10. . If the length is relatively short, airtightness between the connected three-way main body 10 and the connecting member 20a cannot be effectively ensured. If the length is relatively long, material of the connecting member 20a is wasted, which does not help reduce production costs. Therefore, if the depth is reasonably controlled, the connection strength and sealing properties of the connector between the connecting member 20a and the three-way main body 10 can be better ensured and the production cost of the three-way pipe 100 can be reduced.

In this embodiment, the positioning portion 24a is a netting section or flaring section of the connecting member 20a. In another embodiment, the positioning portion 24a may be a concave ring or a convex ring installed along the radial direction of the connecting member 20a. It can be understood that it is only necessary to be able to determine and limit the position of the connection length of the connection member 20a and the three-way body 10.

In one embodiment, in order to ensure the solidity and airtightness of the connection between the connecting member and the three-way main body 10, the first connecting member 11 and the first connecting member 21a are connected by welding. The second connector 12 and the second connection member 22a are connected by welding, and the third connector 13 and the third connection member 23a are connected by welding. In addition, the gap between each connector of the positioning portion 24a and the three-way main body 10 must be reasonably installed. This can better meet welding requirements and ensure welding quality.

In another implementation method, the connection member 20a may be connected to the connector of the three-way main body 10 through a flange, thread, etc. It can be understood that it is only necessary to be able to realize the robustness and confidentiality of the connection point. The connection of the first connection member 21a and the first connector 11, the second connection member 22a and the second connector 12, and the third connection member 23a and the third connector 13 of the present application are Different connection methods can be adopted. This is largely determined by the working environment and usage requirements.

The three-way tube provided in one implementation method of the present application replaces the copper three-way tube with a stainless steel three-way tube, thereby increasing the strength of the three-way tube and lowering the production cost. Additionally, the service life of the three-way pipe can be extended. In addition, in the present application, the connecting member is used to connect the three-way main body and the external pipe. The connecting member is a copper pipe or an aluminum pipe. This not only facilitates connection to external pipes, but also further lowers production costs.

This application provides an air conditioning system 200 using the three-way pipe 100 (see FIG. 5). The air conditioning system 200 has better overall performance and lower production costs. In addition, the application prospects are extensive.

The technical features of the above-described embodiments can be arbitrarily combined. For the sake of concise description, all possible combinations of technical features according to the above-described embodiments have not been described, but as long as there is no contradiction in the combination of technical features, all of them should be considered within the scope described in this specification.

The above examples express several implementation methods of the present application, and the description is relatively specific and detailed, but should not be understood as limiting the scope of the patent application. It should be noted that a person skilled in the art to which the present invention pertains may make modifications and improvements without departing from the spirit of the present application, and these all fall within the protection scope of the present application. Therefore, the scope of protection of the present application patent is based on the appended claims.

Claims (10)

In the three-way view,
It includes a three-way body and a connecting member, wherein the three-way body is connected to an external pipe through the connecting member, the three-way body is a stainless steel three-way, and the connecting member is a copper pipe or an aluminum pipe. , three-sided view. According to paragraph 1,
The connecting member is provided with a positioning portion matching the three-way main body in a radial direction of one end connected to the three-way main body, the other end of the connecting member is connected to an external pipe, and the positioning portion is connected to the connecting member and the three-way main body. Three-way tube, used to limit the connection length of the directional body. According to paragraph 2,
The connecting member is connected to be inserted into the three-way main body, and the positioning portion is a necking section formed by contracting the connecting member in the radial direction; The connecting member is connected to cover the three-way main body, and the positioning portion is a flaring section formed by expanding the connecting member in the radial direction. According to paragraph 1,
The three-way main body includes a first connector, a second connector, and a third connector, the second connector and the third connector are installed coaxially, and the connecting member includes a first connecting member, a second connecting member, and A three-way pipe comprising a third connecting member, wherein the first connecting member, the second connecting member, and the third connecting member are connected to the first connecting member, the second connecting member, and the third connecting member, respectively. According to paragraph 4,
The wall thickness t1 of the first connector, the wall thickness t2 of the second connector, and the wall thickness t3 of the third connector are:
A trigonal tube that satisfies the relation t1<t2 and t2=t3. According to paragraph 4,
The inner diameter D1 of the first connector, the inner diameter D2 of the second connector, and the inner diameter D3 of the third connector are,
A three-way tube that satisfies the relationship D1≤D2 and D2=D3. According to paragraph 4,
A connection part is installed at a connection point between the first connector and the second connector and/or a connection point between the first connector and the third connector, and the connector is a fillet transition connector. According to paragraph 4,
The first connector and the first connection member are connected by welding; and/or
The second connector and the second connecting member are connected by welding; and/or
The third connector and the third connecting member are connected by welding. According to paragraph 4,
The inner diameter of the first connecting member is greater than or equal to the inner diameter of the first connector; and/or,
The inner diameter of the second connecting member is greater than or equal to the inner diameter of the second connector; and/or,
The inner diameter of the third connecting member is greater than or equal to the inner diameter of the third connecting member. An air conditioning system, characterized in that it includes a three-way pipe according to any one of claims 1 to 9.