An installation structure of an intelligent remote control switch

By adopting a mounting box structure in the intelligent remote control switch, the relay and control board are precisely positioned and fixed, solving the problem of installation complexity and improving installation efficiency and electrical connection reliability.

CN224366778UActive Publication Date: 2026-06-16YUEQING YIGUANG ELECTRONICS CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
YUEQING YIGUANG ELECTRONICS CO LTD
Filing Date
2025-06-25
Publication Date
2026-06-16

AI Technical Summary

Technical Problem

The installation process of intelligent remote control switches involves complex component connections, leading to inconvenience and low efficiency.

Method used

The installation box structure fixes the relay, control board and wiring piece in the slot or seat in the predetermined position, and achieves rigid connection through fixing blocks and fixing posts, which simplifies the wiring and installation process.

Benefits of technology

It improves installation speed and electrical connection reliability, reduces rework and failures, increases production yield and overall efficiency, and simplifies internal space layout.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224366778U_ABST
    Figure CN224366778U_ABST
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Abstract

The utility model provides a kind of installation structure of intelligent remote control switch, belong to switch technical field.It has solved the technical problem such as low installation efficiency of existing intelligent remote control switch.The installation structure of this intelligent remote control switch, including installation box, relay and control panel, installation box includes an installation base plate and two installation side plates, two installation side plates are located at the left and right ends of installation base plate, the front end of installation base plate is provided with front mounting groove, the rear end of installation base plate is provided with at least one rear mounting groove, and front fixed base is oppositely arranged with front mounting groove, and front fixed base is fixedly connected with front terminal lug, and front terminal lug is fixedly connected with relay, and rear fixed base is oppositely arranged with rear mounting groove, and rear fixed base is fixedly connected with rear terminal lug, and fixed block is arranged between front fixed base and rear fixed base, and control panel is fixedly connected on fixed block, and control panel is located between relay and rear terminal lug.The utility model improves the stability and installation efficiency of installation.
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Description

Technical Field

[0001] This utility model belongs to the field of switch technology, and specifically refers to an installation structure for an intelligent remote control switch. Background Technology

[0002] In scenarios such as agricultural irrigation, building water supply, industrial circulation and drainage, water pumps serve as core power equipment. Through intelligent remote control switches, water pumps can be remotely controlled, upgrading the water pump control system towards intelligence, networking, and unmanned operation. This enables real-time start and stop of water pumps across regions, responds to emergency dispatch, integrates water level sensors, flow meters, meteorological data, etc., to achieve adaptive operation, and can also formulate energy-saving operation strategies based on peak and off-peak electricity prices and load demand. Furthermore, it monitors parameters such as current, voltage, and temperature rise in real time to prevent risks such as motor burnout and dry running.

[0003] Intelligent remote control switches generally include a processor, relays, current transformers, etc., and each switch includes at least one relay. The processor, relays, current transformers, etc. are interconnected by wires. In order to better accommodate these connecting wires, the processor is usually integrated into a board and installed on the upper housing, and the relays are installed on the lower housing. Since the integrated board and relays need to be connected by wires, this makes the installation extremely inconvenient and reduces work efficiency. Summary of the Invention

[0004] To address the shortcomings of existing technologies, the purpose of this invention is to provide an installation structure for an intelligent remote control switch. The technical problem this invention aims to solve is how to make the installation of intelligent remote control switches more convenient and improve work efficiency.

[0005] The objective of this utility model can be achieved through the following technical solution: An installation structure for an intelligent remote control switch includes a mounting box, at least one relay, and a control board. The mounting box includes a mounting base plate and two mounting side plates perpendicular to the mounting base plate. The two mounting side plates are located at the left and right ends of the mounting base plate. The front end of the mounting base plate has at least one front mounting groove, and the rear end of the mounting base plate has at least one rear mounting groove. A front fixing seat is provided opposite to the front mounting groove, and a front connecting piece is fixedly connected to the front fixing seat. The front connecting piece is fixedly connected to the relay. A rear fixing seat is provided opposite to the rear mounting groove, and a rear connecting piece is fixedly connected to the rear fixing seat. A fixing block is provided between the front and rear fixing seats, and a control board is fixedly connected to the fixing block. The control board is located between the relay and the rear connecting piece. The mounting box is integrally molded. The space inside the mounting box is divided into a front relay area, a middle control board area, and a rear wiring area. Relays are precisely positioned and fixed using the front mounting slot and front mounting bracket, while rear wiring pieces are precisely positioned and fixed using the rear mounting slot and rear mounting bracket. The control board is securely installed using fixing blocks, making wiring easier. Each relay, front and rear wiring piece, and control board has its own independent, pre-designed fixing position and structure. During installation, simply placing the components into the corresponding slots or brackets allows for quick and accurate positioning, eliminating the need for repeated manual adjustments or temporary wiring path design, significantly simplifying the assembly process. This eliminates the tedious process of manually arranging, straightening, and bundling numerous connecting wires required in traditional methods, significantly reducing the number of connection points and operational complexity. Installation workers only need to fix the components in their predetermined positions, greatly improving assembly efficiency.

[0006] Furthermore, the fixing block is U-shaped, and the fixing block has a fixing hole, in which a fixing post is fixedly connected, and the fixing post is fixedly connected to the control plate.

[0007] Furthermore, there are three fixing blocks. These three fixing blocks and the fixing posts provide a stable and reliable mounting platform for the control board, effectively preventing vibration and displacement.

[0008] Furthermore, the front fixed seat includes two parallel front support plates and a front support block fixedly disposed at the front end of the front support plates. The front support block is shorter than the front support plates. The front support plates and the front support block form a front support groove. The front connector is fixed in the front support groove.

[0009] Furthermore, a front support column is provided behind the front support block. The front support column is located between two parallel front support plates. A front wiring hole is provided on the front wiring piece, and the front wiring hole is positioned opposite to the fixing hole two inside the front support column.

[0010] Furthermore, the rear fixing seat includes two parallel rear support plates and a rear support block fixedly disposed at the rear end of the rear support plates. The rear support block is shorter than the rear support plates, and the rear support plates and the rear support block form a rear support groove. The rear connector is fixed in the rear support groove.

[0011] Furthermore, a rear support column is provided in front of the rear support block, the rear support column is located between two parallel rear support plates, and a rear wiring hole is provided on the rear wiring piece, the rear wiring hole and the fixing hole in the rear support column are arranged opposite to each other.

[0012] Furthermore, the front end of the mounting base plate is provided with three front mounting slots, and a front partition post is provided between two adjacent front mounting slots. Each front mounting slot is provided with a front fixing seat, and a front wiring piece is fixedly connected to each front fixing seat. Each front wiring piece is fixedly connected to a relay.

[0013] Furthermore, a closed mounting groove is provided near one of the mounting side plates. The closed mounting groove is arranged in a straight line with the front mounting groove. An annular column is provided opposite to the closed mounting groove. A shorting piece is fixedly connected to the annular column. The shorting piece is connected to a relay.

[0014] Furthermore, the rear end of the mounting base plate is provided with three rear mounting slots, and a rear partition post is provided between two adjacent rear mounting slots. Each rear mounting slot is provided with a rear fixing seat, and a rear wiring piece is fixedly connected to each rear fixing seat.

[0015] Compared with existing technologies, the technical advantages of this utility model are as follows: First, the rigid connection method and stable support that separately fix the relay and control board not only improves the installation speed but also ensures the accurate positioning and reliable electrical connection of all components after installation. This reduces rework and malfunctions caused by improper installation or loose connections, thereby improving overall product quality and production yield, and increasing work efficiency. Second, the reasonable layout reduces the waste of internal space, making the overall structure more compact and the internal wiring simpler and shorter, further simplifying the assembly process. Attached Figure Description

[0016] Figure 1 This is the front view of this utility model.

[0017] Figure 2 This is a perspective view of the utility model.

[0018] Figure 3 This is a perspective view of the mounting box of this utility model.

[0019] Drawing number markings: 1. Mounting box; 101. Mounting base plate; 102. Mounting side plate; 103. Front mounting slot; 104. Rear mounting slot; 105. Front mounting base; 1051. Front support plate; 1052. Front support block; 1053. Front support slot; 1054. Front support column; 1055. Fixing hole two; 106. Rear mounting base; 1061. Rear support plate; 1062. Rear support block; 1063. Rear support slot; 1064. Rear support column; 1065. Fixing hole three; 107. Fixing block; 108. Fixing hole one; 109. Front partition column; 110. Enclosed mounting slot; 111. Annular column; 112. Rear partition column; 2. Relay; 3. Control board; 4. Front wiring piece; 401. Front wiring hole; 5. Rear wiring piece; 501. Rear wiring hole; 6. Fixing column; 7. Shorting piece. Detailed Implementation

[0020] The following are specific embodiments of the present invention, which are described in conjunction with the accompanying drawings. However, the present invention is not limited to these embodiments.

[0021] It should be noted that the descriptions of directions such as "up," "down," "front," "back," "left," and "right" in this utility model are defined based on the orientation or positional relationships shown in the accompanying drawings. They are merely for the convenience of describing this utility model and for simplifying the description, and are not intended to indicate or imply that the device must be constructed and operated in a specific orientation. Therefore, they should not be construed as limitations on this utility model. This utility model is in accordance with the accompanying drawings. Figure 1 The directions shown distinguish the front, back, left, and right. Front refers to the direction of the front mounting slot, back refers to the direction of the rear mounting slot, and left and right refer to the directions of the two mounting side panels.

[0022] according to Figures 1 to 3As shown, an installation structure for an intelligent remote control switch includes a mounting box 1, at least one relay 2, and a control board 3. The mounting box 1 includes a mounting base plate 101 and two mounting side plates 102 perpendicular to the mounting base plate 101. The two mounting side plates 102 are located at the left and right ends of the mounting base plate 101. The front end of the mounting base plate 101 is provided with at least one front mounting groove 103, which is open at the front, rear, and top ends. The rear end of the mounting base plate 101 is provided with at least one rear mounting groove 104. The front, rear, and top ends of the mounting slot 104 are all open. A front mounting base 105 is provided opposite to the front mounting slot 103. A front connector 4 is fixedly connected to the front mounting base 105. The front connector 4 is fixedly connected to the relay 2. A rear mounting base 106 is provided opposite to the rear mounting slot 104. A rear connector 5 is fixedly connected to the rear mounting base 106. A fixing block 107 is provided between the front mounting base 105 and the rear mounting base 106. A control board 3 is fixedly connected to the fixing block 107. The control board 3 is located between the relay 2 and the rear connector 5. The mounting box 1 includes a mounting base plate 101, mounting side plate 102, front mounting groove 103, rear mounting groove 104, front fixing seat 105, front support plate 1051, front support block 1052, front support groove 1053, front support column 1054, fixing hole 2 1055, rear fixing seat 106, rear support plate 1061, rear support block 1062, rear support groove 1063, rear support column 1064, fixing hole 3 1065, fixing block 107, fixing hole 108, front partition column 109, closed mounting groove 110, annular column 111, and rear partition column 112, all integrally formed. The space within the mounting box 1 is divided into a front relay 2 area, a middle control board 3 area, and a rear wiring area. Relay 2 is precisely positioned and fixed using the front mounting slot 103 and front mounting base 105. Rear wiring 5 is precisely positioned and fixed using the rear mounting slot 104 and rear mounting base 106. Control board 3 is securely installed using fixing block 107, making wiring easier. Relay 2, front and rear wiring 5, and control board 3 each have their own independent, pre-designed fixing positions and structures. During installation, simply placing the components into the corresponding slots or bases allows for quick and accurate positioning, eliminating the need for repeated manual adjustments or temporary wiring path design, significantly simplifying the assembly process. This eliminates the tedious process of manually arranging, straightening, and bundling numerous connecting wires required in traditional methods, significantly reducing the number of connection points and operational complexity. Installation workers only need to fix the components in their predetermined positions, greatly improving assembly efficiency.

[0023] The fixing block 107 is U-shaped and has a fixing hole 108. A fixing post 6 is fixedly connected to the fixing hole 108, and the fixing post 6 is fixedly connected to the control board 3. There are three fixing blocks 107. The three fixing blocks 107 and the fixing post 6 provide a stable and reliable mounting platform for the control board 3, effectively preventing vibration and displacement.

[0024] The front mounting bracket 105 includes two parallel front support plates 1051 and a front support block 1052 fixedly disposed at the front end of the front support plates 1051. The front support block 1052 is shorter than the front support plates 1051. The front support plates 1051 and the front support block 1052 form a front support groove 1053, and the front connector 4 is fixed in the front support groove 1053. A front support post 1054 is disposed behind the front support block 1052. The front support post 1054 is located between the two parallel front support plates 1051. The front connector 4 is provided with a front connector hole 401, which is opposite to the fixing hole 1055 in the front support post 1054.

[0025] The rear mounting base 106 includes two parallel rear support plates 1061 and a rear support block 1062 fixedly disposed at the rear end of the rear support plates 1061. The rear support block 1062 is shorter than the rear support plates 1061. The rear support plates 1061 and the rear support block 1062 form a rear support groove 1063, and the rear connector 5 is fixed in the rear support groove 1063. A rear support post 1064 is disposed in front of the rear support block 1062. The rear support post 1064 is located between the two parallel rear support plates 1061. The rear connector 5 is provided with a rear connector hole 501, which is opposite to the fixing hole 1065 in the rear support post 1064.

[0026] The front end of the mounting base plate 101 has three front mounting slots 103, or two front mounting slots 103, with the same installation effect. A front partition post 109 is provided between two adjacent front mounting slots 103. Each front mounting slot 103 is provided with a front fixing seat 105, and a front connecting piece 4 is fixedly connected to each front fixing seat 105. Each front connecting piece 4 is fixedly connected to a relay 2. A closed mounting slot 110 is provided near one of the mounting side plates 102. The closed mounting slot 110 has only openings at the top and rear ends. The closed mounting slot 110 is arranged in a straight line with the front mounting slots 103. An annular post 111 is provided opposite the closed mounting slot 110. A short connecting piece 7 is fixedly connected to the annular post 111. The short connecting piece 7 is connected to the relay 2. Two annular posts 111 can be provided, one at the front and one at the back, and each short connecting piece 7 is fixed to the relay 2. The rear end of the mounting base plate 101 has three rear mounting slots 104, or two. A rear spacer post 112 is provided between two adjacent rear mounting slots 104. Each rear mounting slot 104 has a corresponding rear mounting bracket 106, and a rear connecting piece 5 is fixedly connected to each rear mounting bracket 106. The relays 2 involved are not distinguished here; in actual use, different models and functions of relays 2 can be used.

[0027] The rigid connection and stable support that securely fixes relay 2 and control board 3 not only improves installation speed but also ensures accurate positioning and reliable electrical connections for all components after installation. This reduces rework and malfunctions caused by improper installation or loose connections, thereby improving overall product quality and production yield, and increasing work efficiency. The rational layout reduces wasted internal space, making the overall structure more compact and allowing for simpler, shorter internal wiring, further simplifying assembly steps.

[0028] The above embodiments are merely preferred embodiments of the present utility model and are not intended to limit the scope of protection of the present utility model. Therefore, all equivalent changes made to the structure, shape, and principle of the present utility model should be covered within the scope of protection defined by the claims of the present utility model.

Claims

1. An installation structure for an intelligent remote control switch, comprising a mounting box (1), at least one relay (2), and a control board (3), characterized in that: The mounting box (1) includes a mounting base plate (101) and two mounting side plates (102) perpendicular to the mounting base plate (101). The two mounting side plates (102) are located at the left and right ends of the mounting base plate (101). The front end of the mounting base plate (101) is provided with at least one front mounting groove (103), and the rear end of the mounting base plate (101) is provided with at least one rear mounting groove (104). A front fixing seat (105) is provided opposite to the front mounting groove (103). A front connector (4) is fixedly connected to the front connector (4), which is fixedly connected to the relay (2). A rear mounting base (106) is provided opposite to the rear mounting slot (104). A rear connector (5) is fixedly connected to the rear mounting base (106). A fixing block (107) is provided between the front mounting base (105) and the rear mounting base (106). A control board (3) is fixedly connected to the fixing block (107). The control board (3) is located between the relay (2) and the rear connector (5).

2. The installation structure of an intelligent remote control switch according to claim 1, characterized in that: The fixing block (107) is U-shaped and has a fixing hole (108). A fixing post (6) is fixedly connected in the fixing hole (108), and the fixing post (6) is fixedly connected to the control plate (3).

3. The installation structure of an intelligent remote control switch according to claim 2, characterized in that: There are three fixing blocks (107).

4. The installation structure of an intelligent remote control switch according to claim 1, characterized in that: The front mounting base (105) includes two parallel front support plates (1051) and a front support block (1052) fixedly disposed at the front end of the front support plate (1051). The front support block (1052) is shorter than the front support plate (1051). The front support plate (1051) and the front support block (1052) form a front support groove (1053). The front connector (4) is fixed in the front support groove (1053).

5. The installation structure of an intelligent remote control switch according to claim 4, characterized in that: A front support column (1054) is provided behind the front support block (1052). The front support column (1054) is located between two parallel front support plates (1051). A front wiring hole (401) is provided on the front wiring piece (4). The front wiring hole (401) is opposite to the fixing hole (1055) in the front support column (1054).

6. The installation structure of an intelligent remote control switch according to claim 1, characterized in that: The rear fixing seat (106) includes two parallel rear support plates (1061) and a rear support block (1062) fixedly disposed at the rear end of the rear support plate (1061). The rear support block (1062) is shorter than the rear support plate (1061). The rear support plate (1061) and the rear support block (1062) form a rear support groove (1063). The rear connector (5) is fixed in the rear support groove (1063).

7. The installation structure of an intelligent remote control switch according to claim 6, characterized in that: A rear support column (1064) is provided in front of the rear support block (1062). The rear support column (1064) is located between two parallel rear support plates (1061). A rear wiring hole (501) is provided on the rear wiring piece (5). The rear wiring hole (501) is opposite to the fixing hole (1065) in the rear support column (1064).

8. The installation structure of an intelligent remote control switch according to any one of claims 1 to 7, characterized in that: The mounting base plate (101) has three front mounting slots (103) at its front end. A front partition post (109) is provided between two adjacent front mounting slots (103). Each front mounting slot (103) is provided with a front fixing seat (105) opposite to each other. A front connecting piece (4) is fixedly connected to each front fixing seat (105). A relay (2) is fixedly connected to each front connecting piece (4).

9. The installation structure of an intelligent remote control switch according to claim 8, characterized in that: A closed mounting groove (110) is provided on one side of one of the mounting side plates (102). The closed mounting groove (110) is arranged in a straight line with the front mounting groove (103). An annular post (111) is provided opposite to the closed mounting groove (110). A shorting piece (7) is fixedly connected to the annular post (111). The shorting piece (7) is connected to the relay (2).

10. The installation structure of an intelligent remote control switch according to any one of claims 1 to 7, characterized in that: The mounting base plate (101) has three rear mounting slots (104) at its rear end. A rear partition post (112) is provided between two adjacent rear mounting slots (104). Each rear mounting slot (104) is provided with a rear fixing seat (106) and a rear connecting piece (5) is fixedly connected to each rear fixing seat (106).