A wiring device for electrical installation engineering construction
By introducing protective covers and limiting components into the wiring device, the problem of electric shock hazard caused by exposed wire connection ends is solved, and safe and reliable wiring fixation is achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- GUANGXI QUNXING ELECTRIC CO LTD
- Filing Date
- 2025-03-21
- Publication Date
- 2026-06-19
AI Technical Summary
When using existing wiring devices to fix wires of different specifications, the wire connection ends are exposed outside the limit slider, posing a risk of electric shock.
A wiring device is designed, comprising a wiring base, a wire slider, a protective cover, a limiting plate, a fixing component, an adjusting component, and a limiting component. The adjusting component drives the wire slider to approach, and after wiring is completed, the protective cover slides to cover the wire end, and the limiting component fixes the position of the protective cover to prevent exposure.
It effectively protects the wire terminals, prevents electric shock accidents for workers, and improves safety.
Smart Images

Figure CN224384930U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the field of power engineering technology, and in particular to a wiring device for power installation engineering construction. Background Technology
[0002] Existing wiring devices cannot fix wires of different specifications during use, thus making it impossible to connect wires of different specifications, resulting in poor universality.
[0003] The existing patent CN218732322U describes a wiring device for power engineering. Through a fixed mechanism, when a wire needs to be fixed, the wire is passed through the wiring hole, and a knob is turned. The knob's rotation drives a rotating rod, which in turn rotates a bevel gear. This rotation, in turn, rotates a bevel gear groove threaded onto it. The bevel gear groove then rotates a bevel gear, which in turn rotates a lead screw. This lead screw causes an extension rod threaded onto it to slide within a fixed sleeve, thereby moving the clamping blocks at the bottom. Multiple clamping blocks move closer together, clamping the wire passing through the wiring hole. This conveniently clamps the wire, facilitating wiring. Different knob rotation angles result in different movement distances of the clamping blocks, allowing for the clamping of wires of different specifications, thus facilitating wiring of various wire sizes.
[0004] However, when using the above method, after the two sets of wires fixed on the limit slider are connected, the connection ends of the wires will be exposed on the outside of the limit slider, which poses a risk of electric shock to the workers. Utility Model Content
[0005] The purpose of this utility model is to provide a wiring device for power installation engineering construction, which solves the problem that when two sets of wires fixed on the limiting slider in the aforementioned device are connected, the connection ends of the wires will be exposed on the outside of the limiting slider, which will cause workers to be at risk of electric shock.
[0006] To achieve the above objectives, this utility model provides a wiring device for power installation engineering, including a wiring base and a connecting device. The connecting device includes a wire slider, a protective cover, a limiting plate, a fixing component, an adjusting component, and a limiting component. A sliding groove is provided on one side of the wiring base. The wire slider is slidably mounted on the wiring base through the adjusting component. A wire hole is provided on the wire slider. The fixing component is disposed on the wire slider. A side groove is also provided on one side of the wire slider. The protective cover is slidably mounted on the wire slider and located in the side groove. The limiting component is disposed on the protective cover.
[0007] The limiting component includes a locking rod and a locking pad, wherein the locking rod is threaded through the protective slide cover; and the locking pad is fixedly installed on the locking rod.
[0008] The fixing component includes a movable pad and a fastening bolt. The fastening bolt is threaded through the wire slider and extends into the wire hole. The movable pad is fixedly installed on the fastening bolt.
[0009] The adjustment assembly includes an adjustment block, a double-ended lead screw, and a rotating component. The adjustment block is slidably mounted on the terminal base and located within the groove. The adjustment block is also fixedly connected to the wire slider. The double-ended lead screw is rotatably mounted on the terminal base via the rotating component and is threaded through the adjustment block.
[0010] The rotating component includes a rotating disk and a rotating block. The rotating disk is fixedly mounted on the double-ended lead screw, and the rotating block is fixedly mounted on the rotating disk.
[0011] This utility model discloses a wiring device for power installation engineering. In use, two sets of wires are passed through the wire holes on the wire sliders on both sides. Then, the fastening bolts are tightened, causing the movable pads to move downwards and fix the wires in place. Next, the rotating disc is rotated, causing the double-ended lead screw to rotate. The double-ended lead screw engages with the adjusting blocks on both sides, causing the adjusting blocks to bring the wire sliders on both sides closer together. The wires are then wired. After wiring, the protective cover is slid towards the right side of the wire slider, covering the wire connection end. Then, the locking rod is tightened, causing the locking pad to abut against the wiring base, thus fixing the position of the protective cover. This protective cover protects the wire connection end, preventing electric shock accidents to workers. Attached Figure Description
[0012] To more clearly illustrate the technical solutions in the embodiments of this application or the prior art, the accompanying drawings used in the description of the embodiments or the prior art will be briefly introduced below.
[0013] Figure 1 This is a schematic diagram of the overall structure of a wiring device for power installation engineering construction according to this utility model.
[0014] Figure 2 This is a schematic diagram of the limiting component of this utility model.
[0015] In the diagram: 101-Connecting base, 102-Wire slider, 103-Protective cover, 104-Limiting plate, 105-Slide groove, 106-Wire hole, 107-Side groove, 108-Locking rod, 109-Locking pad, 110-Modible pad, 111-Fastening bolt, 112-Adjusting block, 113-Double-ended lead screw, 114-Rotating disc, 115-Swivel block. Detailed Implementation
[0016] The embodiments of the present invention are described in detail below. Examples of the embodiments are shown in the accompanying drawings. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain the present invention, but should not be construed as limiting the present invention.
[0017] The first embodiment of this application is as follows:
[0018] Please see Figure 1 and Figure 2 , Figure 1 This is a schematic diagram of the overall structure of a wiring device for power installation engineering construction according to the first embodiment of this utility model. Figure 2 This is a schematic diagram of the limiting component of this utility model.
[0019] This utility model provides a wiring device for power installation engineering construction: it includes a wiring base 101 and a connecting device. The connecting device includes a wire slider 102, a protective cover 103, a limiting plate 104, a fixing component, an adjusting component, and a limiting component. The limiting component includes a locking rod 108 and a locking pad 109. The fixing component includes a movable pad 110 and a fastening bolt 111. The adjusting component includes an adjusting block 112, a double-ended lead screw 113, and a rotating component. The rotating component includes a rotating disk 114 and a rotating block 115. The above solution solves the problem that when two sets of wires fixed on the limiting slider in the above device are connected, the connection ends of the wires are exposed outside the limiting slider, which poses a risk of electric shock to workers. The above solution can be used in the scenario of wiring protection in power installation engineering.
[0020] In this embodiment, the protective cover 103 protects the wire terminals, thus preventing electric shock accidents to workers.
[0021] The wiring base 101 has a sliding groove 105 on one side. The wire slider 102 is slidably mounted on the wiring base 101 via the adjusting assembly. The wire slider 102 has a wire hole 106. The fixing assembly is disposed on the wire slider. The wire slider 102 also has a side groove 107 on one side. The protective cover 103 is slidably mounted on the wire slider 102 and located within the side groove 107. The limiting assembly is disposed on the protective cover 103. The wire sliders 102 are distributed on both sides of the wiring base 101. The bottom of the protective cover 103 protrudes towards the center. The limiting plate 104 is welded to the end of the protective cover 103. The fixing component can fix the wires, the adjusting component can drive the wire sliders 102 to move in opposite directions, and the limiting component can limit the protective cover 103. In use, after the two sets of wires are passed through the wire sliders 102 on both sides, the fixing component fixes the wires on the wire sliders 102. The adjusting component drives the guide sliders on both sides to move closer to each other, and then wiring is performed. After the wiring is completed, the protective cover 103 is slid so that the protective cover 103 covers the wire terminals, and the limiting component fixes the position of the protective cover 103, thereby protecting the wire terminals and preventing electric shock accidents to workers.
[0022] Secondly, the locking rod 108 is threaded through the protective slide cover 103; the locking pad 109 is fixedly installed on the locking rod 108. The locking rod 108 is threaded, and the end of the locking rod 108 is a disc-shaped structure. The locking pad 109 is made of rubber. By rotating the locking rod 108, the locking rod 108 causes the locking pad 109 to abut against the wiring base 101, thereby fixing the protective slide cover 103.
[0023] Furthermore, the fastening bolt 111 is threaded through the wire slider 102 and extends into the wire hole 106; the movable pad 110 is fixedly installed on the fastening bolt 111. Each set of wire sliders 102 is provided with a set of fastening bolts 111. The movable pad 110 is fixed to the end of the fastening bolt 111 by adhesive. In use, by rotating the fastening bolt 111, the fastening bolt 111 drives the movable pad 110 to move towards the center of the wire hole 106, thereby fixing the wire with the movable pad 110.
[0024] Furthermore, the adjusting block 112 is slidably mounted on the terminal base 101 and located within the slide groove 105. The adjusting block 112 is also fixedly connected to the wire slider 102. The double-ended lead screw 113 is rotatably mounted on the terminal base 101 via the rotating member and threaded through the adjusting block 112. The adjusting block 112 is located on both sides of the slide groove 105. The adjusting block 112 has threaded holes inside. The threads at both ends of the double-ended lead screw 113 have opposite directions. The rotating member facilitates driving the double-ended lead screw 113 to rotate. By driving the double-ended lead screw 113 to rotate, the double-ended lead screw 113 causes the adjusting blocks 112 on both sides to move towards or away from each other along the slide groove 105. The movement of the adjusting blocks 112 further drives the wire slider 102 to move.
[0025] Finally, the rotating disk 114 is fixedly installed on the double-ended lead screw 113; the rotating block 115 is fixedly installed on the rotating disk 114, the rotating disk 114 is welded to the end of the double-ended lead screw 113, the rotating block 115 has an arc-shaped structure and is distributed in a ring on the outer wall of the rotating disk 114. The rotating block 115 can play a role in preventing slippage. By rotating the rotating block 115 and the rotating disk 114, the double-ended lead screw 113 will rotate.
[0026] In this embodiment, during use, two sets of wires are passed through the wire holes 106 on the wire sliders 102 on both sides, and then the fastening bolts 111 are tightened, causing the fastening bolts 111 to move the movable pads 110 downwards, thus fixing the wires. Then, the rotating disk 114 is rotated, causing the double-ended lead screw 113 to rotate. The double-ended lead screw 113 engages with the adjusting blocks 112 on both sides through threaded contact, causing the adjusting blocks 112 to move the wire sliders 102 on both sides closer together. Then, the wires are wired. After the wiring is completed, the protective cover 103 is slid towards the wire slider 102 on the right side, so that the protective cover 103 covers the wire terminals. Then, the locking rod 108 is tightened, causing the locking rod 108 to move the locking pad 109 to abut against the wiring base 101, thereby fixing the position of the protective cover 103. Thus, the protective cover 103 protects the wire terminals, preventing electric shock accidents to workers.
[0027] The above-disclosed embodiments are merely one or more preferred embodiments of this application and should not be construed as limiting the scope of this application. Those skilled in the art will understand that all or part of the processes for implementing the above embodiments and equivalent variations made in accordance with the claims of this application are still within the scope of this application.
Claims
1. A wiring device for power installation engineering construction, comprising a wiring base, characterized in that, It also includes a connecting device; The connecting device includes a wire slider, a protective cover, a limiting plate, a fixing component, an adjusting component, and a limiting component. A sliding groove is provided on one side of the wiring base. The wire slider is slidably mounted on the wiring base through the adjusting component. A wire hole is provided on the wire slider. The fixing component is disposed on the wire slider. A side groove is also provided on one side of the wire slider. The protective cover is slidably mounted on the wire slider and located in the side groove. The limiting component is disposed on the protective cover.
2. The wiring device for power installation engineering construction as described in claim 1, characterized in that, The limiting component includes a locking rod and a locking pad, wherein the locking rod is threaded through the protective slide cover; and the locking pad is fixedly installed on the locking rod.
3. The wiring device for power installation engineering construction as described in claim 1, characterized in that, The fixing assembly includes a movable pad and a fastening bolt, the fastening bolt being threaded through the wire slider and extending into the wire hole; the movable pad is fixedly mounted on the fastening bolt.
4. The wiring device for power installation engineering construction as described in claim 1, characterized in that, The adjustment assembly includes an adjustment block, a double-ended lead screw, and a rotating component. The adjustment block is slidably mounted on the terminal base and located within the groove. The adjustment block is also fixedly connected to the wire slider. The double-ended lead screw is rotatably mounted on the terminal base via the rotating component and is threaded through the adjustment block.
5. The wiring device for power installation engineering construction as described in claim 4, characterized in that, The rotating component includes a rotating disk and a rotating block. The rotating disk is fixedly mounted on the double-ended lead screw, and the rotating block is fixedly mounted on the rotating disk.