Intelligent low-voltage control cabinet and air washing machine system
By designing wiring racks and wiring rings in intelligent low-voltage control cabinets, the wiring can be layered, separated, and arranged in an orderly manner, solving the problem of chaotic wiring layout and improving the efficiency of fault diagnosis and maintenance.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- 施朗智能科技(江苏)有限公司
- Filing Date
- 2025-05-28
- Publication Date
- 2026-06-26
AI Technical Summary
The existing intelligent low-voltage control cabinets have a chaotic wiring layout, which makes fault diagnosis difficult and maintenance costs high.
The wiring rack structure is designed with stepped wiring rings and limiting holes to separate the lines, and combined with springs and pull rods to achieve orderly arrangement of the lines.
It improves troubleshooting efficiency, reduces maintenance difficulty and cost, conforms to ergonomics, and enhances operational efficiency.
Smart Images

Figure CN224419103U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of control cabinet technology, and more specifically, to an intelligent low-voltage control cabinet and air washing machine system. Background Technology
[0002] An air cleaning system is a device that uses gas power to achieve cleaning functions and is widely used in industries such as industrialization, environmental protection, and food processing. Its core principle is to use compressed air, steam, or other gaseous media to blow away, peel off, or replace dust, oil, and impurities on the surface of a target object, achieving a cleaning effect. This system typically consists of an air source device (such as an air compressor), a gas filter assembly, a pipeline control system, a nozzle assembly, and an intelligent control unit.
[0003] The low-voltage electrical equipment in air washing machine systems is typically installed inside a low-voltage control cabinet. Currently, the wiring inside these intelligent low-voltage control cabinets is bundled together, with each row of low-voltage equipment's wiring bundled separately and then bundled together at the exit point. This bundled wiring layout is rather messy, hindering rapid fault diagnosis and significantly increasing maintenance difficulty and costs. Therefore, we propose an intelligent low-voltage control cabinet and air washing machine system. Utility Model Content
[0004] The purpose of this utility model is to overcome the shortcomings of the existing technology, adapt to the needs of reality, and provide an intelligent low-voltage control cabinet to solve the technical problem that the current control cabinet has a messy wiring layout after bundling, which is not conducive to quick fault diagnosis and greatly increases the difficulty and cost of maintenance.
[0005] To solve the above-mentioned technical problems, this utility model provides the following technical solution: an intelligent low-voltage control cabinet and air washing machine system, including a control cabinet body and a wiring rack installed inside the control cabinet body. The rear end of the control cabinet body is provided with a cable outlet hole. The control cabinet body is provided with a mounting plate. The mounting plate is provided with mounting holes evenly spaced. A circular opening is provided on the left side of the front end of the mounting plate. The wiring rack includes a fixing plate. The front end of the fixing plate is symmetrically provided with a second wiring ring and a first wiring ring. The side end of the fixing plate is provided with mounting rods at equal intervals. The front end of the mounting rods is provided with connecting rods at equal intervals. The end of the connecting rod is provided with a wiring ring.
[0006] Preferably, a front door is installed at the front end of the control cabinet body, and a side door is provided on one side of the control cabinet body. Both the front door and the side door are equipped with handles.
[0007] Preferably, the fixing plate is fixed to the mounting plate by screws, and a cable outlet tube is embedded in the fixing plate. The cable outlet tube is inserted into the circular opening, and the end of the cable outlet tube corresponds to the position of the cable outlet hole.
[0008] Preferably, the first routing ring is composed of three ring structures, the second routing ring is composed of two ring structures, and the ring diameter of the first routing ring is smaller than the ring diameter of the second routing ring.
[0009] Preferably, the wiring ring includes three fixing rings, and a fixing rod is connected between the three fixing rings. The fixing rod is in an upwardly curved arc shape, and the three fixing rings are arranged in an upward stepped manner along the long axis.
[0010] Preferably, a spring is provided inside the fixed ring, and a limiting ring is connected to the end of the spring. The limiting ring and the fixed ring form an annular structure. A pull rod that bends outward is provided at the end of the limiting ring, and a line limiting hole is formed between the pull rod and the fixed rod.
[0011] An air washing machine system includes the aforementioned intelligent low-voltage control cabinet.
[0012] Compared with the prior art, the beneficial effects of this utility model are:
[0013] 1. This utility model designs a wiring rack structure. The wiring rings on the wiring rack adopt three stepped fixed rings, combined with wiring limiting holes composed of springs, limiting rings, and pulling rods, which can separate different wires and avoid messy tangling. At the same time, the multiple ring structures of the first and second wiring rings further separate multiple wires into multiple strands, making the wires neat and orderly when laid out. This orderly wiring method allows staff to quickly locate the area of the faulty wire based on the wiring layout, which greatly improves the efficiency of fault diagnosis, effectively reduces the difficulty and cost of maintenance, and solves the technical problem that the current wiring layout after bundling in the control cabinet is relatively messy, which is not conducive to quick fault diagnosis and greatly increases the difficulty and cost of maintenance.
[0014] 2. This utility model also features a wiring ring structure. Three fixing rings are arranged in an upward stepped pattern along the long axis. This unique shape design allows for layered arrangement of different lines. The upper fixing ring is positioned higher, while the lower fixing ring is close to the mounting surface. This layered layout clearly distinguishes the lines, making the wiring process more orderly and allowing maintenance personnel to quickly identify the direction of each line during inspection, reducing the difficulty of troubleshooting caused by intersecting and chaotic lines. Furthermore, the fixing rod is curved upwards, providing a stable support structure for the fixing rings. The curved design also... The pull rod, which bends outward, forms a wiring limit hole for wiring layout, effectively increasing the number of wiring options. Finally, the pull rod bends outward to form a gripping area that is easy for fingers to apply force. When the operator presses the pull rod to open the fixing ring, the ergonomic curved shape makes the operation more effortless and precise. This shape design avoids the problem of finger slippage or inconvenience in applying force caused by a straight pull rod, allowing maintenance personnel to quickly and easily put or take out the wiring into or out of the fixing ring. Especially in scenarios where frequent operation of the wiring ring is required, it significantly improves work efficiency. Attached Figure Description
[0015] Figure 1 This is a front view structural diagram of the present utility model;
[0016] Figure 2 This is a schematic diagram of the rear view structure of this utility model;
[0017] Figure 3 This is a cross-sectional structural diagram of the present invention;
[0018] Figure 4 This is a schematic diagram of the wiring frame structure of this utility model;
[0019] Figure 5 This is a schematic diagram of the wiring ring structure of this utility model;
[0020] Figure 6 This is a cross-sectional view of the wiring ring of this utility model.
[0021] The following are the labels in the diagram: 101, Control cabinet body; 102, Front door; 103, Side door; 104, Cable outlet; 105, Mounting plate; 200, Wiring rack; 201, Fixing plate; 202, Cable outlet pipe; 203, Second cable routing ring; 204, First cable routing ring; 205, Mounting rod; 206, Connecting rod; 207, Cable routing ring; 2071, Fixing ring; 2072, Fixing rod; 2073, Spring; 2074, Limiting ring; 2075, Pull rod. Detailed Implementation
[0022] The present invention will be further described below with reference to the accompanying drawings and embodiments:
[0023] Example 1: An intelligent low-voltage control cabinet, see [link / reference] Figures 1 to 6 The system includes a control cabinet body 101 and a wiring rack 200 disposed within the control cabinet body 101. A cable outlet hole 104 is provided at the rear end of the control cabinet body 101. A mounting plate 105 is disposed within the control cabinet body 101, with mounting holes evenly distributed on the mounting plate 105. A circular opening is provided at the left front end of the mounting plate 105. The wiring rack 200 includes a fixing plate 201. A second wiring ring 203 and a first wiring ring 204 are symmetrically arranged at the front end of the fixing plate 201. Mounting rods 205 are equidistantly arranged on the side end of the fixing plate 201. Connecting rods 206 are equidistantly arranged at the front end of the mounting rods 205. A wiring ring 207 is provided at the end of the connecting rod 206. This utility model, through the unique structure of the wiring rack 200, achieves a neat and layered arrangement of wiring, greatly improving fault diagnosis efficiency. Simultaneously, the innovative wiring ring 207 design increases the amount of wiring that can be arranged, and the operation is ergonomic, significantly improving work efficiency and effectively reducing maintenance difficulty and cost.
[0024] Specifically, a front-opening door 102 is installed at the front end of the control cabinet body 101, and a side-opening door 103 is provided on one side of the control cabinet body 101. Both the front-opening door 102 and the side-opening door 103 are equipped with handles. When installing, maintaining, or repairing the equipment inside the control cabinet body 101, both the front-opening door 102 and the side-opening door 103 can be opened, providing a larger space for installation and maintenance. Furthermore, the mounting plate 105 can be directly exposed, further improving the efficiency of installation and maintenance.
[0025] Furthermore, the fixing plate 201 is fixed to the mounting plate 105 with screws. A cable outlet pipe 202 is embedded in the fixing plate 201, and the cable outlet pipe 202 is inserted into the circular opening. The end of the cable outlet pipe 202 corresponds to the position of the cable outlet hole 104. The cable outlet pipe 202 is not only used for cable routing but also for positioning the wiring rack 200. In use, when the cable is finally discharged, it passes through the cable outlet pipe 202 and then exits from the cable outlet hole 104 into the control cabinet.
[0026] It is worth noting that the first cable routing ring 204 consists of three ring structures, while the second cable routing ring 203 consists of two ring structures. The diameter of the first cable routing ring 204 is smaller than that of the second cable routing ring 203. The cables of the top and bottom rows of low-voltage equipment are routed through the first and second cable routing rings 204 and 203, while the cables of the middle two rows are routed through the second cable routing ring 203. The multiple ring structures of the first and second cable routing rings 204 and 203 can separate multiple cables, forming multiple strands, which are then bundled together for easy cable inspection.
[0027] It is worth mentioning that the wiring ring 207 includes three fixing rings 2071, which are connected by fixing rods 2072. The fixing rods 2072 are curved upwards, and the three fixing rings 2071 are arranged in an upward stepped manner along their long axis. During wiring, different lines can be located within different fixing rings 2071, thus separating the lines. Furthermore, the stepped arrangement of the fixing rings 2071 facilitates the arrangement of lines and makes line inspection easier during maintenance and repair.
[0028] It is worth noting that a spring 2073 is installed inside the fixing ring 2071. The end of the spring 2073 is connected to a limiting ring 2074. The limiting ring 2074 and the fixing ring 2071 form a ring structure. The end of the limiting ring 2074 is provided with an outwardly bent pull rod 2075. The pull rod 2075 and the fixing rod 2072 form a line limiting hole. The upwardly bent arc of the fixing rod 2072 and the outwardly bent pull rod 2075 can form a line limiting hole for line layout, effectively increasing the number of lines that can be laid. By manually pressing the pull rod 2075, the spring 2073 can be compressed, causing the limiting ring 2074 to retract into the fixing ring 2071. At this time, the fixing ring 2071 and the line limiting hole can be opened, which makes it convenient for staff to install the line and to remove the line during inspection and maintenance.
[0029] Example 2: An air washing machine system, including the above-mentioned intelligent low-voltage control cabinet.
[0030] Working Principle: This embodiment provides an intelligent low-voltage control cabinet and air washing machine system. First, the low-voltage equipment is installed on the mounting plate 105 inside the control cabinet body 101, and fixed by the evenly spaced mounting holes on the mounting plate 105. For the layout of the low-voltage equipment wiring, different rows of wires are arranged according to the design route. During the wiring process, the wiring ring 207 plays an important role. Its three stepped fixing rings 2071 and the wire limiting holes can separate different wires, facilitating personnel deployment and subsequent maintenance and troubleshooting. When placing the cable into the fixing ring 2071 and the cable limiting hole, manually press the pull rod 2075 to compress the spring 2073, causing the limiting ring 2074 to retract into the fixing ring 2071. Open the fixing ring 2071 and the cable limiting hole, and the worker can then place the cable inside. After completing the wiring, release the pull rod 2075. Under the action of the spring 2073, the limiting ring 2074 and the fixing ring 2071 form a ring structure, fixing the cable. Then, the top and bottom rows of low-voltage equipment cables pass through the first cable routing ring 2 when being discharged. 04. The second wiring ring 203, since the first wiring ring 204 consists of three ring structures and the second wiring ring 203 consists of two ring structures with different ring diameters, can separate multiple wires into multiple strands, facilitating subsequent troubleshooting. The middle two rows of low-voltage equipment wires are separated by the second wiring ring 203. After being separated by the above steps, the multiple strands of wires are finally bundled together and discharged from the control cabinet body 101 through the outlet pipe 202 and outlet hole 104, achieving an orderly layout of low-voltage equipment wires, which is beneficial for maintenance and inspection. During the repair process, if a line fault occurs, the lines are reasonably separated and arranged through the wiring rings and cabling rings 207, allowing staff to easily and quickly locate the faulty line area based on the line layout. At the same time, opening the front door 102 and the side door 103 provides a large operating space, exposing the mounting plate 105 and further improving repair efficiency. When it is necessary to remove the faulty line, press the pull rod 2075 again to open the fixing ring 2071 and the line limiting hole, and the line can be easily removed for repair or replacement.
[0031] The embodiments disclosed herein are preferred embodiments, but are not limited thereto. Those skilled in the art can readily grasp the spirit of this utility model based on the above embodiments and make different extensions and variations. However, as long as they do not depart from the spirit of this utility model, they are all within the protection scope of this utility model.
Claims
1. An intelligent low-voltage control cabinet, characterized in that, The system includes a control cabinet body (101) and a wiring rack (200) installed inside the control cabinet body (101). The control cabinet body (101) has a cable outlet hole (104) at its rear end. The control cabinet body (101) has a mounting plate (105) installed inside its interior. The mounting plate (105) has evenly spaced mounting holes and a circular opening at the left front end of the mounting plate (105). The wiring rack (200) includes a fixing plate (201). The front end of the fixing plate (201) has a second wiring ring (203) and a first wiring ring (204) symmetrically arranged. The side end of the fixing plate (201) has mounting rods (205) equidistantly arranged. The front end of the mounting rods (205) has connecting rods (206) equidistantly arranged. The end of the connecting rods (206) has a wiring ring (207).
2. The intelligent low-voltage control cabinet according to claim 1, characterized in that, The front end of the control cabinet body (101) is equipped with a front door (102), and a side door (103) is provided on one side of the control cabinet body (101). Both the front door (102) and the side door (103) are equipped with handles.
3. The intelligent low-voltage control cabinet according to claim 2, characterized in that, The fixing plate (201) is fixed to the mounting plate (105) by screws. A cable outlet tube (202) is embedded in the fixing plate (201). The cable outlet tube (202) is inserted into the circular opening. The end of the cable outlet tube (202) corresponds to the position of the cable outlet hole (104).
4. The intelligent low-voltage control cabinet according to claim 3, characterized in that, The first routing ring (204) is composed of three ring structures, and the second routing ring (203) is composed of two ring structures. The ring diameter of the first routing ring (204) is smaller than the ring diameter of the second routing ring (203).
5. The intelligent low-voltage control cabinet according to claim 4, characterized in that, The wiring ring (207) includes a fixing ring (2071), and there are three fixing rings (2071). A fixing rod (2072) is connected between the three fixing rings (2071). The fixing rod (2072) is an upwardly curved arc. The three fixing rings (2071) are arranged in an upward stepped manner along the long axis.
6. The intelligent low-voltage control cabinet according to claim 5, characterized in that, A spring (2073) is provided inside the fixed ring (2071). The end of the spring (2073) is connected to a limiting ring (2074). The limiting ring (2074) and the fixed ring (2071) form an annular structure. The end of the limiting ring (2074) is provided with an outwardly bent pull rod (2075). The pull rod (2075) and the fixed rod (2072) form a line limiting hole.
7. An air-washing machine system, characterized in that, The invention includes an intelligent low-voltage control cabinet as described in any one of claims 1 to 6.