Corded device and appliance
By setting first and second fixing slots in the wire fixing device, the pre-installation and fixing of flexible cords can be achieved, which solves the problem of difficult wire fixing in electrical equipment and improves installation efficiency and space utilization.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- QINGDAO HAIER NEW ENERGY ELECTRIC APPLIANCE
- Filing Date
- 2025-04-25
- Publication Date
- 2026-07-03
AI Technical Summary
In electrical equipment, the wiring fixing device requires adjusting the position of multiple flexible wires to avoid them being squeezed by the fixing plate, which makes wiring fixing quite difficult.
By setting a first fixing groove on the first fixing component and a second fixing groove on the second fixing component, and rotating the second fixing component onto the first fixing component, part of the cable to be fixed is fixed in the second fixing groove between the first fixing component and the second fixing component, while the remaining cable is accommodated in the first fixing groove, thus achieving pre-installation of the cable to be fixed and reducing the number of adjustments.
It reduces the number of cables that need to be adjusted during the installation of wiring fixtures, lowers the difficulty of wiring, improves installation efficiency, and increases space utilization.
Smart Images

Figure CN224459086U_ABST
Abstract
Description
Technical Field
[0001] This application belongs to the field of electrical equipment technology, specifically relating to a wiring device and electrical equipment. Background Technology
[0002] In electrical equipment, multiple flexible cords are usually used to connect to the internal electrical components, so a cord fixing device is needed to secure them.
[0003] In related technologies, the wire fixing device includes a fixing plate with multiple fixing slots. Flexible wires are placed one-to-one within each fixing slot, forming a cavity between the fixing slot and the mounting surface to secure the flexible wires. During installation, the positions of all flexible wires need to be adjusted to ensure that the wires remain within the fixing slots during screw fixing, ultimately achieving wire fixation.
[0004] However, when using screws, it is necessary to adjust the position of all flexible wires to prevent them from being squeezed by the fixing plate, making wire fixing quite difficult. Utility Model Content
[0005] This application provides a wire fixing device and electrical equipment to solve the problem that the wire fixing device needs to adjust the position of the flexible wires during the process of fixing multiple flexible wires, which makes the wire fixing difficult.
[0006] In a first aspect, this application provides a wire fixing device, comprising:
[0007] A first wire fixing component is used to connect with the component to be installed. The first wire fixing component has a first fixing groove for accommodating the cable to be fixed.
[0008] The second cable fixing component is rotatably connected to the first cable fixing component. The second cable fixing component has a second fixing groove, which fixes the cable to be fixed between the second cable fixing component and the first cable fixing component.
[0009] In one possible design, the wire fixing device further includes a first connector disposed on one of the first wire fixing member and the second wire fixing member, and connected to the other, so that the second wire fixing member can be rotated onto the first wire fixing member.
[0010] In one possible design, the first connector is a flexible connector.
[0011] In one possible design, the wire fixing device further includes a second connector disposed on one of the first wire fixing member and the second wire fixing member, and detachably connected to the other, wherein the second connector is located at the end of the first wire fixing member away from the first connector.
[0012] In one possible design, the second connector is a snap-fit.
[0013] In one possible design, the first fixing member includes a first limiting part and two first connecting parts, the two first connecting parts are respectively disposed at both ends of the first limiting part, the first fixing groove is disposed at the first limiting part, and the first connecting part is provided with a first mounting hole for connecting with the part to be installed.
[0014] In one possible design, multiple first fixing slots are provided, a first dividing part is provided on the first limiting part, the first dividing part is used to separate adjacent first fixing slots, and a second mounting hole is provided on the first dividing part.
[0015] In one possible design, the second wire fixing member includes a second limiting part and two second connecting parts, the two second connecting parts are respectively disposed at both ends of the second connecting part, the second fixing groove is disposed at the second limiting part and forms a hole with the first wire fixing member to engage the cable to be fixed, and a third mounting hole is provided on the second connecting part;
[0016] When the second fixing member is located on the first fixing member, the second connecting part is respectively disposed on the first connecting part, and the third mounting hole is coaxial with the corresponding first mounting hole.
[0017] In one possible design, the second fixing groove is provided in multiple ways, and the second limiting part is provided with a second dividing part, which is used to separate adjacent second fixing grooves.
[0018] The second partition is provided with a positioning part. When the second wire fixing member is located on the first wire fixing member, the positioning part is inserted into the second mounting hole.
[0019] Secondly, this application provides an electrical device, including an electrical device body and a wiring device disposed on the electrical device body.
[0020] The cable fixing device and electrical equipment provided in this application have a first fixing groove on a first cable fixing member and a second fixing groove on a second cable fixing member. The second cable fixing member is rotated onto the first cable fixing member, and a portion of the cable to be fixed is secured within the second fixing groove between the first and second cable fixing members. The remaining cable to be fixed is then accommodated within the first fixing groove, thus fixing the first cable fixing member to the installation component. This pre-installation of the cable to be fixed on the second cable fixing member reduces the number of cables to be fixed that need to be adjusted when the first cable fixing member is installed on the installation component, lowers the difficulty of cable fixing, and improves installation efficiency. Attached Figure Description
[0021] The accompanying drawings, which are incorporated in and form part of this specification, illustrate embodiments consistent with this application and, together with the description, serve to explain the principles of this application.
[0022] Figure 1 This is a schematic diagram of the wire fixing device provided in the embodiments of this application;
[0023] Figure 2 for Figure 1 A schematic diagram of the structure in which the second fixing component is erected on the first fixing component;
[0024] Figure 3 This is a schematic diagram of the structure from another angle in section 2.
[0025] Explanation of reference numerals in the attached figures:
[0026] 100. First fixing component; 110. First limiting part; 111. First fixing groove; 112. First dividing part; 113. Second mounting hole; 114. Arc-shaped segment; 120. First connecting part; 121. First mounting hole;
[0027] 200. Second fixing component; 210. Second limiting part; 211. Second fixing groove; 212. Arc-shaped groove; 213. Second partition part; 214. Positioning part; 215. Fourth mounting hole; 220. Second connecting part; 221. Third mounting hole;
[0028] 300. First connector;
[0029] 400. Second connector.
[0030] The accompanying drawings illustrate specific embodiments of this application, which will be described in more detail below. These drawings and descriptions are not intended to limit the scope of the concept in any way, but rather to illustrate the concept of this application to those skilled in the art through reference to particular embodiments. Detailed Implementation
[0031] To make the objectives, technical solutions, and advantages of this application clearer, the technical solutions of this application will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this application, not all embodiments. Based on the embodiments of this application, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of this application.
[0032] The terms "first," "second," "third," "fourth," etc. (if present) in the specification, claims, and accompanying drawings of this application are used to distinguish similar objects and are not necessarily used to describe a specific order or sequence. It should be understood that such data can be interchanged where appropriate so that the embodiments of this application described herein can be implemented in orders other than those illustrated or described herein.
[0033] In this application, the terms "exemplary" or "for example" are used to indicate examples, illustrations, or descriptions. Any embodiment or design described as "exemplary" or "for example" in this application should not be construed as being more preferred or advantageous than other embodiments or designs. Specifically, the use of terms such as "exemplary" or "for example" is intended to present the relevant concepts in a specific manner.
[0034] In electrical equipment, multiple flexible cords are typically used to connect to internal electrical components, thus requiring a cord securing device for fixation. In related technologies, the cord securing device includes a fixing plate with multiple fixing slots. Each flexible cord is placed in a corresponding slot, forming a cavity between the slot and the mounting surface to hold the cord in place. During installation, the position of all flexible cords needs to be adjusted to ensure that they remain within the fixing slots when secured with screws, ultimately achieving secure fixation of the flexible cords.
[0035] However, when using screws, it is necessary to adjust the position of all flexible wires to prevent them from being squeezed by the fixing plate, making wire fixing quite difficult.
[0036] To address the aforementioned problems, this application provides a cable fixing device and electrical equipment. The cable fixing device comprises a first fixing groove on a first cable fixing member and a second fixing groove on a second cable fixing member. The second cable fixing member is moved onto the first cable fixing member, and a portion of the cable to be fixed is secured within the second fixing groove between the first and second cable fixing members. The remaining cable to be fixed is then accommodated within the first fixing groove, thus fixing the first cable fixing member onto the installation component. This achieves pre-installation of the cable to be fixed on the second cable fixing member, thereby reducing the number of cables to be fixed that need adjustment when the first cable fixing member is installed on the installation component, reducing the difficulty of cable fixing, and improving installation efficiency.
[0037] The technical solutions of this application and how they solve the aforementioned technical problems are described in detail below with specific embodiments. These specific embodiments may exist independently or in combination with each other. Identical or similar concepts or processes may not be repeated in some embodiments. The embodiments of this application will now be described with reference to the accompanying drawings.
[0038] This application provides a wire fixing device, with reference to... Figure 1 The wire fixing device includes:
[0039] The first wire fixing component 100 is used to connect with the component to be installed. The first wire fixing component 100 has a first fixing groove 111 for accommodating the cable to be fixed.
[0040] The second cable fixing component 200 is rotatably connected to the first cable fixing component 100. The second cable fixing component 200 has a second fixing groove 211, which is used to fix the cable to be fixed between the second cable fixing component 200 and the first cable fixing component 100.
[0041] The second cable fixing component 200 is rotatably connected to the first cable fixing component 100, and a portion of the cable to be fixed is pre-installed between the second cable fixing component 200 and the first cable fixing component 100. This pre-installation of the cable to be fixed on the second cable fixing component 200 reduces the number of cables to be fixed when the first cable fixing component 100 is installed on the installation part, reducing the difficulty of cable fixing and improving installation efficiency. The cable to be fixed is accommodated by the first fixing groove 111 on the first cable fixing component 100 and the second fixing groove 211 on the second cable fixing component 200, respectively, to achieve double-layer installation of the cable to be fixed. This reduces the length of the cable fixing device, significantly improves space utilization, and is beneficial for fixing multiple wire harnesses in narrow spaces within electrical equipment, thus broadening the application scenarios.
[0042] For example, both the first fixing groove 111 and the second fixing groove 211 are U-shaped grooves. The first fixing groove 111 and the component to be installed form a limiting cavity for installing the cable to be fixed. The second fixing groove 211 and the top of the first wire fixing component 100 form a limiting cavity for installing the cable to be fixed.
[0043] For example, multiple first fixing slots 111 and multiple second fixing slots 211 are provided to facilitate fixing multiple cables to be fixed.
[0044] For example, the number of first fixing slots 111 and second fixing slots 211 are the same.
[0045] In other embodiments, the number of first fixing slots 111 may be greater than the number of second fixing slots 211, so that fewer cables need to be fixed on the upper layer, improving the aesthetics of the wiring.
[0046] In embodiments of this application, both the first fixing groove 111 and the second fixing groove 211 are provided in pairs. Exemplarily, the wire-fixing device further includes a fixing member for fixing the first wire-fixing member 100 and the second wire-fixing member 200 onto the component to be installed. The component to be installed can be an electrical device.
[0047] For example, the fastener can be a screw. The screw passes through the first fastener 100 and the second fastener 200 and is threadedly connected to the part to be installed, thereby securing the first fastener 100 and the second fastener 200.
[0048] In use, the cable to be secured is placed in the first securing groove 111 and the second securing groove 211 to restrict the position of the cable. Then, the first securing member 100 and the second securing member 200 are fixed to the mounting component using fasteners, thus securing the cable. Compared to directly drilling a hole in the first securing member 100 and passing the cable through the hole, the cable securing device of this application facilitates placing the cable into the first securing groove 111 and the second securing groove 211, avoiding the need for a structure installed at the end of the cable to secure it.
[0049] In one possible design, the wire fixing device further includes a first connector 300, which is disposed on one of the first wire fixing member 100 and the second wire fixing member 200 and connected to the other, so that the second wire fixing member 200 can be rotated onto the first wire fixing member 100.
[0050] For example, a first connector 300 is disposed on a first fixing member 100 and connected to a second fixing member 200 such that the second fixing member 200 is movable to the top of the first fixing member 100.
[0051] For example, the first connector 300 is disposed on the second fixing member 200 and connected to the first fixing member 100 so that the second fixing member 200 is movable to the top of the first fixing member 100.
[0052] In one possible design, the first connector 300 is a flexible connector. Further, the first connector 300 is a flexible plastic part.
[0053] The first wire fixing component 100 and the second wire fixing component 200 are connected by flexible plastic parts. The first wire fixing component 100 can be rotated to any angle as needed, and the adjustment is convenient and quick. In addition, the first wire fixing component 100, the second wire fixing component 200 and the first connector 300 can be integrally molded, which is convenient for manufacturing and saves production costs.
[0054] For example, both the first wire fastener 100 and the second wire fastener 200 are plastic parts.
[0055] For example, the first wire fixing member 100, the second wire fixing member 200, and the second connector 300 are integrally formed.
[0056] For example, the first connector 300 may also be a rotating shaft sleeve structure, with the rotating shaft located at the end of one of the first wire fixing member 100 and the second wire fixing member 200, and the sleeve fixed at the end of the other. The sleeve is rotatably sleeved on the rotating shaft so that the second wire fixing member 200 can be rotated to the top of the first wire fixing member 100.
[0057] In one possible design, refer to Figure 1 and Figure 2 The wire fixing device also includes a second connector 400, which is disposed on one of the first wire fixing member 100 and the second wire fixing member 200 and is detachably connected to the other. The second connector 400 is located at the end of the first wire fixing member 100 away from the first connector 300.
[0058] For example, the second connector 400 is a snap fastener, which is fixed to one of the first wire fastener 100 and the second wire fastener 200 and engages with the end of the other to achieve initial fixation between the first wire fastener 100 and the second wire fastener 200.
[0059] Reference Figure 1 and Figure 2 In the process of securing multiple cables, the upper-layer cables can be pre-installed: first, place the upper-layer cables into the second fixing slot 211, fold the second fixing member 200 180° to contact the first fixing member 100, and then lock it in place using the second connector 400. Then, place the lower-layer cables into the first fixing slot 111 and secure them to the mounting bracket using the fasteners. During the fixing process, only the cables in the first fixing slot 111 need to be kept in place, reducing the number of cables to be secured during installation and making the operation simpler and faster, greatly reducing the difficulty of securing the cables.
[0060] The buckle is located at the end of the first wire fastener 100 or the second wire fastener 200 that is away from the first connector 300.
[0061] In one possible design, refer to Figure 1 The first fixing member 100 includes a first limiting part 110 and two first connecting parts 120. The two first connecting parts 120 are respectively disposed at both ends of the first limiting part 110. A first fixing groove 111 is disposed in the first limiting part 110. The first connecting part 120 is provided with a first mounting hole 121 for connecting with the part to be installed.
[0062] The thickness of the first connecting part 120 is less than the thickness of the first limiting part 110, so as to reduce the amount of material used in the first connecting part 120, reduce costs, and also reduce the weight of the equipment.
[0063] For example, the first connecting portion 120 and the first limiting portion 110 are integrally formed.
[0064] In one possible design, refer to Figure 1 The first limiting part 110 is provided with a first dividing part 112, which is used to separate adjacent first fixing grooves 111. The first dividing part 112 is provided with a second mounting hole 113.
[0065] The bottom surface of the first partition 112 and the bottom surface of the first connecting part 120 are located on the same plane. During the fixing process, screws are inserted into the second mounting hole 113 to connect with the part to be installed, so as to fix both sides of the cable to be fixed and improve the fixing effect of the cable.
[0066] In one possible design, refer to Figure 1 The end of the first limiting part 110 connected to the first connecting part 120 is an arc-shaped segment 114, and the second fixing member 200 is provided with an arc-shaped groove 212 that is adapted to the arc-shaped segment 114.
[0067] The end where the first limiting part 110 connects to the first connecting part 120 is an arc-shaped segment 114. Compared to a right-angle structure, the design of the arc-shaped segment 114 makes the transition between the first connecting part 120 and the first limiting part 110 smoother, reducing stress concentration points and improving the load-bearing capacity of the first fixing member 100. Furthermore, it also allows the second fixing member 200 to have an arc-shaped groove 212 adapted to the arc-shaped segment 114, preventing the second fixing member 200 from becoming too smooth, reducing stress concentration, and improving the load-bearing capacity of the second fixing member 200. The thickness of the second fixing member 200 at the arc-shaped groove 212 can also be increased, further improving the strength of the second fixing member 200.
[0068] In one possible design, refer to Figure 1 and Figure 3 The second wire fixing member 200 includes a second limiting part 210 and two second connecting parts 220. The two second connecting parts 220 are respectively provided at both ends of the second connecting part 220. The second fixing groove 211 is provided on the second limiting part 210 and forms a hole with the first wire fixing member 100 for receiving and fixing the cable. The second connecting part 220 is provided with a third mounting hole 221.
[0069] When the second wire fixing member 200 is mounted on the first wire fixing member 100, the second connecting part 220 is respectively provided on the first connecting part 120, and the third mounting hole 221 is coaxial with the corresponding first mounting hole 121.
[0070] During installation, the second fixing member 200 is rotatably mounted on the first fixing member 100, and the second connecting part 220 is provided on the top of the corresponding first connecting part 120, so that the third mounting hole 221 is coaxial with the corresponding first mounting hole 121, so that the same screw can be used to thread the screw through the third mounting hole 221 and the first mounting hole 121 to the part to be installed, thereby reducing the number of screws used, reducing the cost of use, and improving the installation efficiency.
[0071] In one possible design, the second limiting part 210 is provided with a second dividing part 213, which is used to separate adjacent second fixing grooves 211.
[0072] The second partition 213 is provided with a positioning part 214. When the second wire fastener 200 is mounted on the first wire fastener 100, the positioning part 214 is inserted into the second mounting hole 113.
[0073] The positioning part 214 on the second partition 213 is inserted into the second mounting hole 113 to position the first fixing member 100, which facilitates the subsequent installation of screws and makes the installation simpler and faster.
[0074] Furthermore, the second partition 213 has a fourth mounting hole 215, which passes through the second partition 213 and the positioning part 214. When the second fixing member 200 is placed on the first fixing member 100, the fourth mounting hole 215 is coaxial with the second mounting hole 113, so that the screw can pass through the fourth mounting hole 215 and the second mounting hole 113 to connect with the part to be installed.
[0075] For example, when there are four cables to be fixed, both the first fixing slot 111 and the second fixing slot 211 are set to two. The cable fixing device of this embodiment only requires three screws to fix the cables. Compared with the single-layer cable fixing device in the related art, which requires five screws, the installation efficiency is improved and the cost is reduced.
[0076] For example, both the first fixing groove 111 and the second fixing groove 211 are provided with limiting protrusions. Multiple limiting protrusions are evenly distributed along the cross-sectional direction of the cable to be fixed, in order to further fix the cable.
[0077] Furthermore, the first limiting part 110 is also provided with a limiting protrusion at the top of the second fixing groove 211.
[0078] For example, the limiting protrusion is a flexible insulating component, which can be made of plastic, rubber, etc.
[0079] This application also provides an electrical device, including an electrical device body and a wiring device disposed on the electrical device body.
[0080] The wiring device in this embodiment has the same structure as the wiring device provided in any of the above embodiments and can bring the same or similar technical effects. Therefore, it will not be described in detail here, but please refer to the description of the above embodiments for specific details. The electrical equipment can be an air conditioner, fan, refrigerator, range hood, etc.
[0081] The electrical equipment provided in this application uses a wire fixing device to rotate the second wire fixing member 200 onto the first wire fixing member 100. The first fixing groove 111 on the first wire fixing member 100 and the second fixing groove 211 on the second wire fixing member 200 respectively hold and fix the cable, thereby realizing the double-layer installation of the cable to be fixed. This reduces the length of the wire fixing device, significantly improves space utilization, and is beneficial for fixing multiple wire bundles in narrow spaces inside the electrical equipment.
[0082] The technical solutions of this application have been described above with reference to the preferred embodiments shown in the accompanying drawings. However, it is readily understood by those skilled in the art that the scope of protection of this application is obviously not limited to these specific embodiments. The above embodiments are only used to illustrate the technical solutions of this application and are not intended to limit them. Although this application has been described in detail with reference to the foregoing embodiments, those skilled in the art should understand that modifications can still be made to the technical solutions described in the foregoing embodiments, or equivalent substitutions can be made to some or all of the technical features therein. These modifications or substitutions do not cause the essence of the corresponding technical solutions to deviate from the scope of the technical solutions of the embodiments of this application.
Claims
1. A corded device, characterized by, include: A first wire fixing member (100) is used to connect with the part to be installed. The first wire fixing member (100) has a first fixing groove (111) for accommodating the cable to be fixed. The second wire fixing component (200) is rotatably connected to the first wire fixing component (100). The second wire fixing component (200) has a second fixing groove (211) which fixes the cable to be fixed between the second wire fixing component (200) and the first wire fixing component (100).
2. The corded device of claim 1, wherein, It also includes a first connector (300), which is disposed on one of the first fixing member (100) and the second fixing member (200) and connected to the other, so that the second fixing member (200) can be rotated onto the first fixing member (100).
3. The corded device of claim 2, wherein, The first connector (300) is a flexible connector.
4. The corded device of claim 2, wherein, It also includes a second connector (400), which is disposed on one of the first wire fixing member (100) and the second wire fixing member (200) and is detachably connected to the other. The second connector (400) is located at the end of the first wire fixing member (100) away from the first connector (300).
5. The corded device of claim 4, wherein, The second connector (400) is a snap fastener.
6. The corded device of claim 1, wherein, The first fixing member (100) includes a first limiting part (110) and two first connecting parts (120). The two first connecting parts (120) are respectively disposed at both ends of the first limiting part (110). The first fixing groove (111) is disposed at the first limiting part (110). The first connecting part (120) is provided with a first mounting hole (121) for connecting with the part to be installed.
7. The corded device of claim 6, wherein, The first fixing groove (111) is provided in multiple ways, and the first limiting part (110) is provided with a first dividing part (112). The first dividing part (112) is used to separate adjacent first fixing grooves (111), and the first dividing part (112) is provided with a second mounting hole (113).
8. The corded device of claim 7, wherein, The second wire fixing member (200) includes a second limiting part (210) and two second connecting parts (220). The two second connecting parts (220) are respectively disposed at both ends of the second connecting part (220). The second fixing groove (211) is disposed on the second limiting part (210). The second connecting part (220) is provided with a third mounting hole (221). When the second wire fixing member (200) is located on the first wire fixing member (100), the second connecting part (220) is respectively provided on the first connecting part (120), and the third mounting hole (221) is coaxial with the corresponding first mounting hole (121).
9. The corded device of claim 8, wherein, The second fixing groove (211) is provided in multiple ways, and the second limiting part (210) is provided with a second dividing part (213), which is used to separate adjacent second fixing grooves (211); The second partition (213) is provided with a positioning part (214). When the second wire fixing member (200) is located on the first wire fixing member (100), the positioning part (214) is inserted into the second mounting hole (113).
10. An electrical appliance characterized by It includes an electrical equipment body and a wiring device as described in any one of claims 1-9 disposed on the electrical equipment body.