Wear-resistant tee joint
By incorporating a combination of wear-resistant structure, buffer plate, and inner lining plate into the tee joint, the problem of direct water flow abrasion is solved, achieving wear-resistant protection and improved structural stability, thus extending service life.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- JIANGXI SANHU HARDWARE MANUFACTURING CO LTD
- Filing Date
- 2025-07-10
- Publication Date
- 2026-06-23
AI Technical Summary
In the current use of tee fittings, the water flow directly contacts the inner wall of the horizontal fitting, causing wear and instability. Long-term use can easily lead to wear and structural instability.
A wear-resistant tee connector is designed, which adopts a combination structure of wear-resistant structure, buffer plate and inner lining plate. The grooves and protrusions on the wear-resistant plate disperse the water flow, and the combination of reinforcing ribs and wear-resistant ceramic inner lining plate reduces the impact force of water flow and enhances the overall stability.
It effectively reduces the wear of water flow on horizontal joints, improves the stability and service life of tee joints, and extends the service life of wear-resistant structures.
Smart Images

Figure CN224397410U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of tee connector technology, specifically a wear-resistant tee connector. Background Technology
[0002] A tee fitting is a pipe fitting or pipe connection. Also called a pipe tee or tee pipe fitting, it is used at branch points of a main pipeline. A tee fitting has three openings: one inlet and two outlets, or two inlets and one outlet.
[0003] Currently, during the use of tee fittings, water flowing down from the vertical fitting directly contacts the bottom of the inner wall of the horizontal fitting, which can easily cause wear to the horizontal fitting over time. Furthermore, the impact and collision of water flow over a long period of time can easily cause instability in the tee fitting. Therefore, it is necessary to propose a wear-resistant tee fitting to solve the above-mentioned problems. Utility Model Content
[0004] The purpose of this utility model is to provide a wear-resistant tee connector that can disperse water flow and reduce the impact of water flow, thereby achieving the effect of wear protection for the tee connector. Secondly, it can improve the overall stability of the tee connector and increase the service life of the wear-resistant structure.
[0005] To achieve the above objectives, this utility model provides the following technical solution: a wear-resistant tee connector, comprising a tee connector consisting of a vertical connector and two horizontal connectors connected to each other, wherein the bottom of the two horizontal connectors is provided with a wear-resistant structure, the wear-resistant structure comprising an integrally formed mounting plate and a wear-resistant plate, the mounting plate being located on the outer wall of the tee connector, the wear-resistant plate being located on the inner wall of the two horizontal connectors and aligned with the vertical connector, wherein multiple wear-resistant grooves are formed on the wear-resistant plate and multiple wear-resistant protrusions are integrally formed on the wear-resistant plate, the multiple wear-resistant grooves and multiple wear-resistant protrusions being spaced apart;
[0006] The wear-resistant plate has multiple equidistant reinforcing ribs fixedly connected inside.
[0007] In order to reduce the impact force of water flow contacting the horizontal joint, as a preferred wear-resistant tee joint of this utility model, the bottom of the inner wall of the two horizontal joints is provided with buffer plates that are fixedly connected to the wear-resistant structure and are located on the left and right sides of the wear-resistant structure respectively.
[0008] To protect the inner wall of the horizontal joints, as a preferred wear-resistant tee joint of this utility model, both of the inner walls of the horizontal joints are fitted with inner lining plates.
[0009] To enhance the hardness and wear resistance of the wear-resistant plate surface, as a preferred embodiment of the wear-resistant tee connector of this utility model, the outer wall of the wear-resistant plate is coated with a wear-resistant coating.
[0010] In order to disperse and mitigate the impact of water flow, the wear-resistant groove and wear-resistant protrusion of this utility model are preferably arc-shaped.
[0011] In order to extend the service life of the tee connector, the inner lining plate of the preferred wear-resistant tee connector of this utility model is made of wear-resistant ceramic.
[0012] Compared with the prior art, the beneficial effects of this utility model are as follows:
[0013] This utility model firstly buffers the impact of water flow by setting a wear-resistant structure directly below the vertical connector, reducing the long-term wear of water flow on the bottom of the inner wall of the horizontal connector. Specifically, when water flows down from the vertical connector, the water flow comes into contact with multiple wear-resistant grooves and multiple wear-resistant protrusions on the wear-resistant plate. The multiple wear-resistant grooves and multiple wear-resistant protrusions can then disperse the water flow, reduce the impact of the water flow, and prevent the water flowing down from the vertical connector from directly contacting the bottom of the inner wall of the horizontal connector, thereby achieving the effect of wear-resistant protection for the tee connector.
[0014] Secondly, by setting reinforcing ribs inside the wear-resistant plate, the overall stability of the tee joint can be further improved, and the service life of the wear-resistant structure can be increased. Attached Figure Description
[0015] Figure 1 This is an overall structural diagram of the present invention;
[0016] Figure 2 This is a diagram of the wear-resistant structure of this utility model.
[0017] In the diagram: 1. Vertical joint; 101. Horizontal joint; 2. Wear-resistant structure; 201. Mounting plate; 202. Wear-resistant plate; 203. Wear-resistant protrusion; 204. Wear-resistant groove; 205. Reinforcing rib; 3. Buffer plate; 4. Inner lining plate. Detailed Implementation
[0018] Please see Figures 1 to 2 A wear-resistant tee connector includes a tee connector consisting of a vertical connector 1 and two horizontal connectors 101 that are interconnected. The bottom of the two horizontal connectors 101 is provided with a wear-resistant structure 2. The wear-resistant structure 2 includes an integrally formed mounting plate 201 and a wear-resistant plate 202. The mounting plate 201 is located on the outer wall of the tee connector, and the wear-resistant plate 202 is located on the inner wall of the two horizontal connectors 101 and is aligned with the vertical connector 1. Multiple wear-resistant grooves 204 and multiple wear-resistant protrusions 203 are formed on the wear-resistant plate 202. The multiple wear-resistant grooves 204 and multiple wear-resistant protrusions 203 are spaced apart.
[0019] The wear-resistant plate 202 has multiple equidistantly distributed reinforcing ribs 205 in its internal fixed connection.
[0020] In this embodiment: by setting a wear-resistant structure 2 directly below the vertical connector 1, the impact force of the water flow can be buffered, reducing the long-term wear of the water flow on the bottom of the inner wall of the horizontal connector 101. Specifically, when the water flows down from the vertical connector 1, the water flow comes into contact with multiple wear-resistant grooves 204 and multiple wear-resistant protrusions 203 on the wear-resistant plate 202. In turn, the multiple wear-resistant grooves 204 and multiple wear-resistant protrusions 203 can disperse the water flow, reduce the impact of the water flow, and prevent the water flowing down from the vertical connector 1 from directly contacting the bottom of the inner wall of the horizontal connector 101, thereby achieving the effect of wear-resistant protection for the tee connector.
[0021] Secondly, by setting reinforcing ribs 205 inside the wear-resistant plate 202, the overall stability of the tee joint can be further improved, and the service life of the wear-resistant structure 2 can be increased.
[0022] As a technical optimization of this utility model, the bottom of the inner wall of the two horizontal joints 101 is provided with buffer plates 3 that are fixedly connected to the wear-resistant structure 2 and are located on the left and right sides of the wear-resistant structure 2 respectively.
[0023] In this embodiment: by setting a buffer plate 3 at the bottom inside the two horizontal connectors 101, the impact force of the water flowing down from the vertical connector 1 will directly contact the bottom of the horizontal connector 101. Therefore, by setting the buffer plate 3, the impact force of the water flow contacting the horizontal connector 101 can be reduced.
[0024] As a technical optimization of this utility model, the inner walls of both horizontal joints 101 are equipped with inner lining plates 4.
[0025] In this embodiment, the inner wall of the horizontal joint 101 can be protected by the inner lining plate 4, thereby extending the service life of the horizontal joint 101.
[0026] As a technical optimization of this utility model, the outer wall of the wear-resistant plate 202 is coated with a wear-resistant coating.
[0027] In this embodiment, by spraying a wear-resistant coating onto the outer wall of the wear-resistant plate 202, the hardness and wear resistance of the surface of the wear-resistant plate 202 can be enhanced.
[0028] As a technical optimization of this utility model, both the wear-resistant groove 204 and the wear-resistant protrusion 203 are arc-shaped structures.
[0029] In this embodiment, since both the wear-resistant groove 204 and the wear-resistant protrusion 203 are arc-shaped, they can better disperse and alleviate the impact force brought by the water flow.
[0030] As a technical optimization of this utility model, the inner lining plate 4 is made of wear-resistant ceramic.
[0031] In this embodiment, the inner lining plate 4 is made of wear-resistant ceramic, which has excellent wear resistance and can effectively extend the service life of the tee joint.
[0032] Working principle: First, by setting an inner lining plate 4 inside the horizontal connector 101, the inner wall of the horizontal connector 101 can be protected. By setting a buffer plate 3 at the bottom inside the two horizontal connectors 101, the impact force of the water flowing down from the vertical connector 1 will directly contact the bottom of the horizontal connector 101. Therefore, by setting a buffer plate 3, the impact force of the water flow in contact with the horizontal connector 101 can be reduced. By setting a wear-resistant structure 2 directly below the vertical connector 1, the impact force of the water flow can be buffered, reducing the wear of the water flow on the bottom of the inner wall of the horizontal connector 101 over a long period of time. Specifically, when the water flows down from the vertical connector 1, the water flow comes into contact with multiple wear-resistant grooves 204 and multiple wear-resistant protrusions 203 on the wear-resistant plate 202. In this way, the multiple wear-resistant grooves 204 and multiple wear-resistant protrusions 203 can disperse the water flow, reduce the impact of the water flow, and prevent the water flowing down from the vertical connector 1 from directly contacting the bottom inside of the horizontal connector 101, thereby achieving the effect of wear-resistant protection for the tee connector.
[0033] Secondly, by setting reinforcing ribs 205 inside the wear-resistant plate 202, the overall stability of the tee joint can be further improved, and the service life of the wear-resistant structure 2 can be increased.
[0034] The above are merely preferred embodiments of the present utility model and are not intended to limit the present utility model. Any modifications, equivalent substitutions, and improvements made within the spirit and principles of the present utility model should be included within the protection scope of the present utility model.
Claims
1. A wear-resistant tee connector, comprising a tee connector consisting of a vertical connector (1) and two horizontal connectors (101) connected to each other, characterized in that: The bottom of the two horizontal connectors (101) is provided with a wear-resistant structure (2). The wear-resistant structure (2) includes an integrally formed mounting plate (201) and a wear-resistant plate (202). The mounting plate (201) is located on the outer wall of the tee connector, and the wear-resistant plate (202) is located on the inner wall of the two horizontal connectors (101) and aligned with the vertical connector (1). Multiple wear-resistant grooves (204) and multiple wear-resistant protrusions (203) are formed on the wear-resistant plate (202). The multiple wear-resistant grooves (204) and multiple wear-resistant protrusions (203) are spaced apart. The wear-resistant plate (202) has multiple equidistantly distributed reinforcing ribs (205) fixedly connected inside.
2. The wear-resistant tee connector according to claim 1, characterized in that: The bottom of the inner wall of the two horizontal joints (101) is provided with buffer plates (3) that are fixedly connected to the wear-resistant structure (2) and located on the left and right sides of the wear-resistant structure (2).
3. The wear-resistant tee connector according to claim 1, characterized in that: The inner walls of both horizontal joints (101) are fitted with inner lining plates (4).
4. A wear-resistant tee connector according to claim 1, characterized in that: The outer wall of the wear-resistant plate (202) is coated with a wear-resistant coating.
5. A wear-resistant tee connector according to claim 1, characterized in that: Both the wear-resistant groove (204) and the wear-resistant protrusion (203) are arc-shaped.
6. A wear-resistant tee connector according to claim 3, characterized in that: The inner lining plate (4) is made of wear-resistant ceramic.