lockers

By designing pull-out electrical control components and sliding support parts, the problems of signal interference and maintenance difficulty caused by the inability to adjust the cable harness spacing were solved, enabling flexible adjustment and regular arrangement of cable spacing and improving the convenience of equipment maintenance.

CN224460290UActive Publication Date: 2026-07-03HISENSE RONSHEN GUANGDONG REFRIGERATOR

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
HISENSE RONSHEN GUANGDONG REFRIGERATOR
Filing Date
2025-08-07
Publication Date
2026-07-03

AI Technical Summary

Technical Problem

In storage devices such as refrigerators, the spacing between the wiring harnesses inside the electrical control box cannot be adjusted, which can easily cause signal interference between high-voltage and low-voltage cables. The wiring harnesses are also prone to stacking and tangling, increasing the difficulty of maintenance.

Method used

Design a pull-out electrical control component with a mounting bracket that can be pulled out relative to the outer casing. Multiple support components are slidably connected, and a locking structure is used to adjust the cable spacing to form a cable routing channel, thereby improving the flexibility and regularity of cable arrangement.

Benefits of technology

It enables flexible adjustment of cable spacing, reduces signal interference, improves the convenience of maintenance and the regularity of wire harness layout, and reduces the difficulty of maintenance.

✦ Generated by Eureka AI based on patent content.

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Abstract

This application relates to the field of storage technology, and more particularly to a storage cabinet. The storage cabinet of this application has an electrical control component comprising a housing, a mounting bracket, and multiple supporting members. The mounting bracket is retractable within the housing along a first direction, allowing the supporting members to move in and out relative to the housing via a pull-out mechanism, facilitating inspection and maintenance. The supporting members are constructed to form cable routing channels for cable routing and constraint. The multiple supporting members are slidable relative to the mounting bracket, facilitating adjustment of the spacing between adjacent supporting members, thereby facilitating adjustment of cable spacing, improving the flexibility of cable harness spacing adjustment, and reducing signal interference between cables. The supporting members are equipped with locking structures, allowing them to slide relative to the mounting bracket and also to be fixed relative to it, maintaining cable spacing and ensuring regular and orderly cable routing and arrangement, reducing maintenance difficulty.
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Description

Technical Field

[0001] This application relates to the field of storage technology, and more particularly to a storage cabinet. Background Technology

[0002] In storage devices such as refrigerators and smart wine cabinets, there is usually an electrical control box as an integrated mounting carrier for wiring harnesses and electrical components. The electrical components are electrically connected to the detection and execution mechanisms of the device through the wiring harness to control the normal operation of the device.

[0003] In related technologies, the electrical control box contains a bracket to support and fix the wiring harnesses and electrical components. However, the bracket's position is fixed, and the spacing between the wiring harnesses cannot be adjusted, especially between high-voltage and low-voltage cables, which can easily cause signal interference. Furthermore, the wiring harnesses may stack and become tangled, increasing the difficulty of maintenance. Utility Model Content

[0004] This application provides a locker to improve the flexibility of adjusting the spacing between wire harnesses.

[0005] This application provides a storage cabinet, which includes:

[0006] The box body is constructed to form a storage cavity;

[0007] A door, connected to the housing, is used to open or close the storage compartment;

[0008] An electronic control assembly is installed in the enclosure; the electronic control assembly includes:

[0009] The outer shell is constructed to form a receiving cavity with an opening on one side;

[0010] The mounting bracket is retractably installed inside the housing along the first direction;

[0011] Multiple support members are slidably connected to the mounting bracket, and the multiple support members are arranged in an array in a first plane; the first plane is perpendicular to the first direction;

[0012] Each support member is provided with a locking structure; when the locking structure is in the unlocked state, the support member is configured to slide relative to the mounting bracket to adjust the position of the support member in the first plane; when the locking structure is in the locked state, the support member is configured to be fixed relative to the mounting bracket.

[0013] The support member is provided with a wire-passing channel for threading wires; an electrical component is fixed to one end of the wire-passing channel on the support member.

[0014] The locker in this embodiment includes an electrical control component comprising a housing, a mounting bracket, and multiple support members. The mounting bracket is retractable within the housing along a first direction, allowing the support members to move in and out relative to the housing for easy inspection and maintenance. Each support member forms a cable routing channel for cable routing and constraint. Multiple support members are slidable relative to the mounting bracket, facilitating adjustment of the spacing between adjacent support members and consequently, the spacing between cables. This improves the flexibility of cable spacing adjustment and reduces signal interference between cables. A locking structure allows the support members to slide relative to the mounting bracket or be fixed thereto, maintaining cable spacing and ensuring regular and orderly cable routing and arrangement, reducing maintenance difficulty.

[0015] In some embodiments of this application, the plurality of support members extend along the first direction, and the plurality of support members are arranged at intervals along a second direction; the second direction is perpendicular to the first direction;

[0016] The support member is connected to the mounting bracket at both ends along the first direction, and the locking structure is disposed at one end of the support member and connected to the mounting bracket.

[0017] In this embodiment, multiple support members are arranged at intervals along the second direction, so that the sides of the multiple support members can be exposed, facilitating the adjustment of the cables of the support members. Moreover, the two ends of the support members along the first direction are respectively connected to the mounting bracket, so that the connection position between the support member and the mounting bracket avoids the cable passage.

[0018] In some embodiments of this application, the support member has a first end and a second end opposite to each other along the first direction, the first end of the support member being slidably connected to the mounting bracket; and the second end of the support member being provided with a first stud.

[0019] The mounting bracket is provided with sliding holes extending in the second direction;

[0020] The first stud passes through the sliding hole and is threadedly connected to the nut;

[0021] The locking structure includes a first stud and the nut.

[0022] In this embodiment, one end of the support member is provided with a first stud, and the mounting bracket is provided with a sliding hole. The support member slides against the mounting bracket through the cooperation of the first stud and the sliding hole. Furthermore, the support member is locked and unlocked through the connection of the nut and the first stud. The structure is simple and the operation is convenient. Moreover, the other end of the support member is fixed relative to the mounting bracket by the cooperation of a second stud and a threaded hole, which facilitates the fixation of the second stud and the nut, and is beneficial for the sliding operation and fixation of the support member.

[0023] In some embodiments of this application, the mounting bracket is provided with scale markings on the side of the sliding hole.

[0024] This design facilitates the indication of positional adjustments between adjacent support components, making positional adjustments more convenient and clear.

[0025] In some embodiments of this application, the support member includes:

[0026] The main body has a wire-passing groove on one side, and the wire-passing groove has an opening on the side.

[0027] A connecting portion is disposed at both ends of the main body and located on the other side of the main body; the connecting portion is connected to the mounting bracket;

[0028] A limiting component is detachably connected to the main body and faces the side opening of the threading groove to enclose and form the threading channel.

[0029] The support member in this embodiment has a main body with a cable pass-through groove. A limiting component is detachably connected to the main body, so that the limiting component faces the side opening of the cable pass-through groove to enclose and form a cable pass-through channel. The detachable connection between the limiting component and the main body facilitates opening and closing of the cable pass-through groove, thereby restricting the cable and facilitating cable adjustment and maintenance.

[0030] In some embodiments of this application, the limiting component includes a limiting rod and a locking block. One end of the limiting rod is rotatably connected to the main body, and the other end of the limiting rod is connected to the locking block. The limiting rod is opposite to the side opening of the threading groove.

[0031] The main body is provided with a slot, which engages with the card block.

[0032] In this embodiment, one end of the limiting rod is rotatably connected to the locking block, facilitating the connection and separation of the locking block from the locking slot. Even when the limiting rod opens the threading channel, it remains connected to the main body, reducing the possibility of loss.

[0033] In some embodiments of this application, the support extends in a horizontal plane, and a plurality of threading sleeves are arranged at intervals along the extension direction of the support, the threading sleeves forming the threading channel, and the threading channel extending along the height direction of the box.

[0034] The plurality of threading sleeves are configured to be slidably mounted on the support.

[0035] This allows for adjustment of the spacing between two adjacent cable channels, making the spacing between cables more flexible. Furthermore, since the support extends horizontally within the enclosure and the cable channels extend vertically along the enclosure, there is no need for additional cable sleeve limiting structures to maintain the spacing between adjacent cable sleeves.

[0036] In some embodiments of this application, the mounting bracket includes a first side plate, a second side plate, a third side plate, and a fourth side plate. The first side plate and the second side plate are arranged at intervals along the first direction, and the two ends of the support member are respectively connected to the first side plate and the second side plate.

[0037] The third side plate is fixed to the top of the first side plate and the second side plate, and the fourth side plate is fixed to the bottom of the first side plate and the second side plate.

[0038] Thus, the first side plate, the second side plate, the third side plate, and the fourth side plate together form a cavity with openings on both sides, which facilitates the installation and maintenance of internal electrical components.

[0039] In some embodiments of this application, the top surface of the third side plate is provided with two limiting blocks, the two limiting blocks extend along the first direction, and the two limiting blocks are arranged at intervals along a third direction to form a limiting groove; the third direction is perpendicular to the first direction.

[0040] The bottom surface of the fourth side plate is provided with a slider, which extends along the first direction;

[0041] The outer shell is provided with a limiting protrusion and a sliding groove, the limiting protrusion cooperating with the limiting groove; the sliding groove cooperating with the slider.

[0042] The engagement of the limiting protrusion and the limiting groove, and the engagement of the sliding groove and the slider, allows the mounting bracket to slide relative to the outer shell in the first direction. Furthermore, the engagement of the sliding groove and the slider between the base plate and the fourth side plate ensures the outer shell's support for the mounting bracket. Additionally, by setting two limiting blocks on the third side plate of the mounting bracket to form a limiting groove, the structural strength of the third side plate can be improved.

[0043] In some embodiments of this application, the electronic control component is installed at the bottom of the back side of the enclosure; the mounting bracket is pulled out along the front-rear direction of the enclosure; the enclosure is provided with an inspection door, which is opposite to the mounting bracket along the first direction.

[0044] This design facilitates the removal and installation of the bracket, improving the convenience of maintenance. Attached Figure Description

[0045] Figure 1 This application provides structural schematic diagrams of storage cabinets for some embodiments.

[0046] Figure 2 Schematic diagrams of the structure of the locker provided in other embodiments of this application;

[0047] Figure 3 Rear view of a locker provided for some embodiments of this application;

[0048] Figure 4 Schematic diagrams of the structure of the locker provided in some embodiments of this application;

[0049] Figure 5 This is a schematic diagram of the structure of the electronic control components provided in some embodiments of this application;

[0050] Figure 6 This is a schematic diagram of the structure of the electronic control component without its housing provided in some embodiments of this application;

[0051] Figure 7 This is a schematic diagram of the structure of the support rod provided in some embodiments of this application;

[0052] Figure 8 This is a partial structural schematic diagram of a support rod provided in some embodiments of this application;

[0053] Figure 9 for Figure 7 An enlarged schematic diagram of region P in the diagram;

[0054] Figure 10 This is a schematic diagram of the card block structure provided in an embodiment of this application.

[0055] Explanation of reference numerals in the attached figures:

[0056] 100: Box body; 110: Storage cavity; 120: Drawer; 130: Back cover;

[0057] 200: Door body;

[0058] 300: Electronic control component; 310: Housing; 311: Top plate; 3111: Limiting protrusion; 312: Bottom plate; 313: Side plate; 320: Mounting bracket; 321: First side plate; 3211: Handle; 3212: Guide rail; 3213: Threaded hole; 322: Second side plate; 3221: Sliding hole; 323: Third side plate; 3231: Limiting block; 3232: Limiting groove; 324: Fourth side plate; 3241 330: Slider; 331: Support; 332: Main body; 333: Slot; 334: Connecting part; 335: Second stud; 336: Wire passage; 337: Wire groove; 338: Limiting component; 339: Limiting rod; 330: Locking block; 331: Locking part; 332: Connecting shaft; 3353: Limiting stop; 3354: Rotating hole; 340: Locking structure; 341: First stud; 342: Nut. Detailed Implementation

[0059] It should be noted that the brief descriptions of terms in this application are only for the convenience of understanding the embodiments described below, and are not intended to limit the embodiments of this application. Unless otherwise stated, these terms should be understood in their ordinary and common meaning.

[0060] The terms "first," "second," "third," etc., used in the specification, claims, and accompanying drawings of this application are used to distinguish similar or related objects or entities, and do not necessarily imply a specific order or sequence, unless otherwise specified. It should be understood that such terms are interchangeable where appropriate.

[0061] The terms “comprising” and “having”, and any variations thereof, are intended to cover but not exclude inclusion, for example, a product or device that includes a range of components is not necessarily limited to all of the components that are clearly listed, but may include other components that are not clearly listed or that are inherent to such product or device.

[0062] In storage devices such as refrigerators and smart wine cabinets, an electrical control box is typically installed as an integrated mounting carrier for wiring harnesses and electrical components. These electrical components are electrically connected to the device's detection and actuation mechanisms via the wiring harness to control the device's normal operation. The rationality of the wiring harness layout within the control box affects the device's maintenance, heat dissipation, and stability.

[0063] In related technologies, the electrical control box contains a bracket to support and fix the wiring harnesses and electrical components. However, the bracket's position is fixed, and the spacing between the wiring harnesses cannot be adjusted. This is especially problematic between high-voltage and low-voltage cables, which can easily lead to signal interference and poor heat dissipation. Furthermore, the wiring harnesses may become stacked and tangled, increasing the difficulty of maintenance and affecting the overall reliability and lifespan of the refrigerator.

[0064] In view of this, embodiments of this application provide a pull-out electronic control component. The mounting bracket of the electronic control component can be pulled out relative to the housing, improving the convenience of maintenance. Multiple support members are provided on the mounting bracket to support cables and electrical components; and the support members are configured to slide relative to the mounting bracket to adjust the spacing between adjacent cables, improving the flexibility of cable arrangement and the regularity of wire harness arrangement, further enhancing the convenience of maintaining the electronic control component.

[0065] The technical solutions of the embodiments 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, and 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.

[0066] This application provides a storage cabinet, which can be a refrigerator, wine cabinet, cigar cabinet, or other intelligent storage device. The accompanying drawings of this application embodiment use a refrigerator as an example.

[0067] Combination Figure 1 and Figure 2 The locker in this embodiment includes a cabinet 100, which is configured to form a storage cavity 110 for storing items.

[0068] Multiple storage cavities 110 can be provided to expand storage space. Depending on the storage temperature of the storage cavities 110, the storage cavities 110 may include at least one refrigerated compartment and at least one frozen compartment. The internal temperature of the refrigerated compartment can be maintained between approximately 0°C and 5°C for storing items in refrigeration mode; the internal temperature of the frozen compartment can be maintained between approximately -30°C and 0°C for storing items in freezing mode.

[0069] In some possible implementations, at least one of the storage cavities 110 may also be configured as a vacuum chamber or a variable temperature chamber, etc., which will not be described in detail in the embodiments of this application.

[0070] The cabinet 100 of this embodiment may include a cabinet liner and a cabinet shell. The cabinet liner may be configured to form a storage cavity 110 with a front opening, which serves as a retrieval opening. The cabinet shell may be attached to the outside of the cabinet liner to form the appearance of a refrigerator.

[0071] The cabinet 100 may also include a cabinet insulation layer, which may be disposed between the cabinet liner and the cabinet shell. The cabinet insulation layer can insulate the storage cavity 110 to minimize heat exchange between the storage cavity 110 and the outside of the refrigerator, which is beneficial to ensuring the cooling effect of the refrigerator.

[0072] The refrigerator of this embodiment may further include a refrigeration system for reducing the air temperature in the storage compartment 110. Exemplarily, the refrigeration system may be housed within the cabinet 100. The refrigeration system may include a compressor, condenser, expansion valve, and evaporator connected in a cycle.

[0073] During refrigeration system operation, the compressor compresses refrigerant vapor to generate high-temperature, high-pressure refrigerant vapor, which is then transported to the condenser. The condenser liquefies the high-temperature, high-pressure refrigerant vapor, generating high-temperature, low-pressure refrigerant liquid, which is then transported to the expansion valve. The expansion valve reduces the pressure of the refrigerant liquid, transforming the high-pressure, low-temperature refrigerant liquid into a low-pressure, low-temperature refrigerant liquid, which is then transported to the evaporator. The evaporator receives the low-pressure, low-temperature refrigerant liquid and boils it under isobaric conditions, absorbing heat and vaporizing to form refrigerant vapor, thereby lowering the temperature inside the storage chamber 110.

[0074] A compressor chamber is also formed between the inner liner and the outer shell of the housing 100, and a refrigeration system can be installed in the compressor chamber. For example, see reference... Figure 3 The bottom space at the rear of the housing 100 forms a compressor chamber, where the compressor, condenser, and other components of the refrigeration system are installed. The compressor chamber opens to the rear, facilitating the installation and maintenance of the internal structures. A rear cover 130 is detachably installed at the opening of the compressor chamber. On one hand, the rear cover 130 serves to shield and protect the internal structures of the compressor chamber; on the other hand, the rear cover 130 forms the exterior cover of the housing 100.

[0075] Continue to refer to Figure 1 The refrigerator in this embodiment may further include a door 200, which is connected to the cabinet 100 to open or close the storage compartment 110. Exemplarily, the door 200 and the cabinet 100 are rotatably connected by a hinge.

[0076] Each storage compartment 110 can be equipped with a corresponding door 200, such as Figure 2 As shown; or, one storage cavity 110 can be equipped with two doors 200, as shown. Figure 1 As shown, the two doors 200 can rotate in opposite directions to open or close the storage cavity 110.

[0077] In some embodiments of this application, a drawer 120 is provided in the storage cavity 110, and the outer end of the drawer 120 is configured to form a door 200, eliminating the need for an additional door 200. The drawer 120 is used to store food.

[0078] Combination Figure 4 The locker in this embodiment of the application also includes an electronic control component 300, which is installed in the locker body 100 and configured to control the operation of the locker. The electronic control component 300 is installed between the locker body and the locker liner of the locker body 100.

[0079] like Figure 4 As shown, in some embodiments of this application, the electronic control component 300 is installed at the bottom of the back side of the housing 100. For example, the electronic control component 300 is installed in the press chamber at the bottom of the back side of the housing 100, which not only facilitates maintenance, but also facilitates electrical connection with electrical components such as compressors and sensors in the press chamber.

[0080] Combination Figure 5 The electronic control assembly 300 includes a housing 310, which is configured to form a receiving cavity with an opening on one side. Figure 5 In this design, the outer casing 310 is a rectangular parallelepiped with a regular and compact structure, but this is not a limitation on the shape of the outer casing 310. The outer casing 310 can be a non-metallic component to avoid interference with the signal transmission of internal electrical components.

[0081] The housing 310 may include a top plate portion 311, a bottom plate portion 312, two side plate portions 313, and a back plate portion, wherein the top plate portion 311 and the bottom plate portion 312 are arranged along the height direction (corresponding to...). Figure 5 The two side plates 313 are arranged opposite each other and spaced apart in the Z-axis direction, and are arranged along the third direction (corresponding to the Z-axis direction). Figure 5 The top plate 311, bottom plate 312, and two side plate portions 313 are spaced apart and arranged opposite each other along the Y-axis to form a rectangular frame. The back plate is fixed to one end of the rectangular frame, and the other end of the rectangular frame is open. Thus, the top plate 311, bottom plate 312, two side plate portions 313, and back plate portion together form a receiving cavity with an opening on one side.

[0082] In some embodiments of this application, the outer casing 310 is provided with a wire hole so that cables inside the outer casing 310 can pass through to the outside of the outer casing 310 and be electrically connected to the electrical components of the locker. There can be multiple locations for the wire hole, such as a wire hole on the back panel or a wire hole on the side panel 313.

[0083] By providing a housing 310, the electronic control component 300 can both shield and protect its internal structure and form a modular electronic control component 300, which facilitates the overall installation and disassembly of the electronic control component 300 and makes maintenance easier.

[0084] The electronic control assembly 300 also includes a mounting bracket 320, which provides mounting positions for electrical components and cables within the electronic control assembly 300. The mounting distance in this embodiment is along a first direction (corresponding to...). Figure 5 The internal electrical components can be pulled out of the housing 310 in the X-axis direction, so that the internal electrical components can be removed as a whole by pulling out the mounting bracket 320, which improves the convenience of maintenance.

[0085] It should be noted that, since the mounting bracket 320 in this embodiment can be pulled out relative to the housing 310, the cable inside the housing 310 is reserved for pulling out. When the mounting bracket 320 is inside the housing 310, the cable is in a pleated or coiled state; when the mounting bracket 320 is pulled out relative to the housing 310, the cable can extend without obstructing the pulling out of the mounting bracket 320.

[0086] When the electronic control component 300 is installed at the bottom of the back side of the enclosure 100, the mounting bracket 320 is pulled out along the front-back direction of the enclosure 100, i.e., the first direction is the front-back direction of the enclosure 100. The enclosure 100 is equipped with an access door, which is opposite the mounting bracket 320 along the first direction. After removing the access door, the mounting bracket 320 can be pulled out, making the operation simple and convenient. The access door also prevents the mounting bracket 320 from being arbitrarily pulled out, improving the safety of the electronic control component 300. The access door can be... Figure 3 The rear cover plate is 130.

[0087] like Figure 6 As shown, the mounting bracket 320 includes a first side plate 321, a second side plate 322, a third side plate 323, and a fourth side plate 324. The first side plate 321 and the second side plate 322 are along a first direction (corresponding to...). Figure 6 (In the X-axis direction) spaced arrangement;

[0088] The third side plate 323 is fixed to the top of the first side plate 321 and the second side plate 322, and the fourth side plate 324 is fixed to the bottom of the first side plate 321 and the second side plate 322. The third side plate 323 and the fourth side plate 324 are respectively fixed to the two ends of the first side plate 321 and the second side plate 322 along a second direction, wherein the second direction is perpendicular to the first direction and corresponds to... Figure 6 In the Z-axis direction.

[0089] Thus, the first side plate 321, the second side plate 322, the third side plate 323 and the fourth side plate 324 enclose a cavity with openings on both sides, which facilitates the installation and maintenance of internal electrical components.

[0090] The first side plate 321 also functions as a door. When the mounting bracket 320 is pushed into the receiving cavity, the first side plate 321 abuts against the open end of the outer shell 310, thus sealing the receiving cavity. Of course, to facilitate the pulling out of the mounting bracket 320, a handle 3211 is also formed on the surface of the first side plate 321 facing away from the outer shell 310.

[0091] To facilitate cable routing and arrangement, the second side plate 322 has a smaller area within the first plane, which is perpendicular to the first direction and corresponds to... Figure 6 The YZ plane. The second side plate 322 is along the third direction (corresponding to...) Figure 6The Y-axis dimension is smaller, thus providing a larger clearance space on both sides of the second side plate 322 along the third direction, reserving space for cable routing.

[0092] In this embodiment, the mounting bracket 320 is formed by setting a first side plate 321, a second side plate 322, a third side plate 323 and a fourth side plate 324 to form a frame structure with openings on both sides. This facilitates maintenance and repair of cables and electrical components on the mounting bracket 320 from both sides, and provides ample operating space, which improves the convenience of operation.

[0093] In some embodiments of this application, the third side plate 323 and the fourth side plate 324 are slidably connected to the housing 310, so that the mounting bracket 320 can be pulled out relative to the housing 310 in a first direction.

[0094] The top surface of the third side plate 323 is provided with two limiting blocks 3231. The two limiting blocks 3231 extend along the first direction and are arranged at intervals along the third direction to form a limiting groove 3232. The third direction is perpendicular to the first direction.

[0095] The bottom surface of the fourth side plate 324 is provided with a slider 3241, which extends along the first direction.

[0096] The outer casing 310 is provided with a limiting protrusion 3111 and a sliding groove. The limiting protrusion 3111 cooperates with the limiting groove 3232; the sliding groove cooperates with the slider 3241.

[0097] The top plate portion 311 of the outer shell 310 is provided with a limiting protrusion 3111 extending in the first direction, which cooperates with the limiting groove 3232; the bottom plate portion 312 of the outer shell 310 is provided with a sliding groove extending in the first direction, which cooperates with the slider 3241.

[0098] The engagement of the limiting protrusion 3111 and the limiting groove 3232, and the engagement of the sliding groove and the slider 3241, allows the mounting bracket 320 to slide relative to the outer shell 310 in the first direction. Furthermore, the engagement of the sliding groove and the slider 3241 between the bottom plate 312 and the fourth side plate 324 ensures the supporting function of the outer shell 310 for the mounting bracket 320. Moreover, by setting two limiting blocks 3231 on the third side plate 323 of the mounting bracket 320 to form the limiting groove 3232, the structural strength of the third side plate 323 can be improved.

[0099] Continue to refer to Figure 5 and Figure 6 The electrical control assembly 300 also includes multiple support members 330, which are used to limit the cable and fix the electrical components.

[0100] Multiple support members 330 are slidably connected to the mounting bracket 320, which facilitates the adjustment of the position of the support members 330.

[0101] Multiple support members 330 are arranged in an array within a first plane; the first plane is perpendicular to a first direction. The first plane corresponds to... Figure 5 and Figure 6 The YZ plane.

[0102] For example, multiple support members 330 are arranged along the second direction (corresponding to...) Figure 6 The supports 330 are spaced apart along the Z-axis direction; for example, multiple supports 330 are arranged along a third direction (corresponding to...) Figure 6 The arrangement of the support member 330 in a single row or column, with intervals along the Y-axis, simplifies the design of its sliding structure.

[0103] For example, multiple support members 330 are arranged at intervals along the second direction and at intervals along the third direction to form a multi-row and multi-column arrangement, which can provide more space for wire harness constraint.

[0104] In this embodiment, the support member 330 extends along a first direction, and both ends of the support member 330 are connected to the first side plate 321 and the second side plate 322 respectively, thereby connecting the support member 330 to the mounting bracket 320.

[0105] Reference Figures 7 to 9 The support member 330 is provided with a wire passage 334 for threading wires; an electrical component is fixed to one end of the wire passage 334 on the support member 330.

[0106] In some embodiments of this application, the support member 330 is provided with a plurality of cable passages 334, which are spaced apart along the extension direction of the support member 330. For example, the plurality of cable passages 334 are spaced apart along a first direction to provide more cable restraint positions, improve the regularity of cable arrangement, and thus facilitate the maintenance and repair of the electronic control component 300.

[0107] For example, the threading channel 334 can be along the second direction (corresponding to Figure 9 Extending along the Z-axis, the electrical component can be fixed to one end of the support 330 in the extending direction of the wiring channel 334. For example, the electrical component can be fixed below the wiring channel 334 to facilitate the connection between the cable and the electrical component.

[0108] The embodiments of this application do not limit the specific type of electrical components, which may be structures such as electrical control boards.

[0109] Continue to refer to Figure 7 In this embodiment of the application, each support member 330 is provided with a locking structure 340, which has an unlocked state and a locked state.

[0110] When the locking structure 340 is in the unlocked state, the support member 330 is configured to slide relative to the mounting bracket 320 to adjust the position of the support member 330 in the first plane; when the locking structure 340 is in the locked state, the support member 330 is configured to be fixed relative to the mounting bracket 320, thereby ensuring that the position of the support member 330 relative to the mounting bracket 320 is fixed, thus achieving position restriction and support for cables and electrical components.

[0111] With the above-described configuration, the storage cabinet of this embodiment includes an electrical control component 300 comprising a housing 310, a mounting bracket 320, and multiple support members 330. The mounting bracket 320 is retractably installed within the housing 310 along a first direction, allowing the support members 330 to move in and out of the housing 310 via a pull-out mechanism, facilitating inspection and maintenance. The support members 330 are configured to form a cable-passing channel 334 for cable routing and constraint. The multiple support members 330 are slidable relative to the mounting bracket 320, facilitating adjustment of the spacing between adjacent support members 330, thereby improving the flexibility of cable spacing adjustment and reducing signal interference between cables. The support members 330 are equipped with a locking structure 340, allowing them to slide relative to the mounting bracket 320 and also to be fixed relative to it, maintaining the spacing between cables and ensuring regular and orderly cable routing and arrangement, reducing maintenance difficulty.

[0112] In some embodiments of this application, the support member 330 is configured to slide relative to the mounting bracket 320 in a single direction to adjust the spacing between adjacent support members 330. Exemplarily, the support member 330 is configured to slide relative to the mounting bracket 320 in a second direction; exemplarily, the support member 330 is configured to slide relative to the mounting bracket 320 in a third direction. The sliding connection structure between the support member 330 and the mounting bracket 320 is simple and easy to implement.

[0113] In other embodiments of this application, the support member 330 is configured to slide relative to the mounting bracket 320 along two intersecting directions. Exemplarily, the support member 330 is configured to slide relative to the mounting bracket 320 along a second direction and a third direction. Guide strips are slidably connected to both ends of the support member 330 along the first direction. These guide strips extend along the second direction, and sliding the support member 330 along the guide strips adjusts its position along the second direction. The guide strips are slidably connected to the mounting bracket 320 and are configured to slide relative to the mounting bracket 320 along the third direction, thereby causing the support member 330 to slide along the third direction. This configuration allows for more flexible adjustment of the support member 330's position.

[0114] Continue to refer to Figure 5 and Figure 6 In some possible implementations of this application, a plurality of support members 330 extend along a first direction and are spaced apart along a second direction; the second direction is perpendicular to the first direction.

[0115] The two ends of the support member 330 along the first direction are respectively connected to the mounting bracket 320, and the locking structure 340 is disposed at one end of the support member 330 and connected to the mounting bracket 320.

[0116] The support member 330 is connected to the first side plate 321 and the second side plate 322 at both ends along the first direction. Since the first side plate 321 also serves as the door of the outer shell 310, the locking structure 340 can be set at the end where the support member 330 is connected to the second side plate 322, with sufficient space for arrangement.

[0117] In this embodiment, multiple support members 330 are arranged at intervals along the second direction, so that the sides of the multiple support members 330 can be exposed, which facilitates the adjustment of the cables of the support members 330. Moreover, the two ends of the support members 330 along the first direction are respectively connected to the mounting bracket 320, so that the connection position between the support member 330 and the mounting bracket 320 avoids the cable passage 334.

[0118] In some embodiments, the two ends of the support member 330 are slidably connected to the mounting bracket 320, thereby realizing stepless adjustment of the position of the support member 330.

[0119] In other embodiments, one end of the support member 330 is slidably connected to the mounting bracket 320, and the other end of the support member 330 has multiple connection points with the mounting bracket 320, with these multiple connection points spaced apart along the sliding direction of the support member 330. This arrangement simplifies the connection structure between the support member 330 and the mounting bracket 320, making the position of the support member 330 relative to the mounting bracket 320 more stable and reliable.

[0120] Continue to refer to Figure 6 In some embodiments of this application, the support member 330 has a first end and a second end opposite to each other along a first direction. The first end of the support member 330 is slidably connected to the mounting bracket 320. The second end of the support member 330 is provided with a first stud 341.

[0121] The mounting bracket 320 is provided with a sliding hole 3221 extending along the second direction. The second side plate 322 of the mounting bracket 320 is provided with a sliding hole 3221, which penetrates through the thickness direction of the second side plate 322.

[0122] The first stud 341 passes through the sliding hole 3221 and is threadedly connected to the nut 342. When the nut 342 is tightened and abuts against the second side plate 322, the second end of the support member 330 is fixed to the mounting bracket 320, and the locking structure 340 is in a locked state. When the nut 342 is loosened and there is a gap between the first stud 341 and the second side plate 322 along the axial direction, the second end of the support member 330 can slide along the extension direction of the sliding hole 3221, and the locking structure 340 is in an unlocked state.

[0123] The locking structure 340 includes a first stud 341 and a nut 342.

[0124] The first end of the support member 330 can be connected to the mounting bracket 320 via a guide rail 3212. For example, the first end of the support member 330 is provided with a sliding engagement part, and the mounting bracket 320 is provided with a guide rail 3212 extending in a second direction. The sliding connection between the first end of the support member 330 and the mounting bracket 320 is realized through the engagement of the sliding part and the guide rail 3212.

[0125] In some possible implementations, the first end of the support member 330 is connected to a second stud 333, and the guide rail 3212 is provided with a plurality of threaded holes 3213, which are spaced apart along a second direction. The second helix can be selectively threadedly connected to one of the threaded holes 3213, thereby fixing the first end of the support member 330 to the mounting bracket 320.

[0126] The support member 330 may have a main body 331 and connecting portions 332. The main body 331 is configured to form a wire-passing channel 334 and extends along a first direction. The connecting portions 332 are disposed at both ends of the extending direction of the main body 331, and the connecting portions 332 are located on one side of the main body 331, for example, on one side of the main body 331 along a third direction. The two connecting portions 332 are respectively connected to the first side plate 321 and the second side plate 322 of the mounting bracket 320 to achieve connection with the mounting bracket 320. One connecting portion 332 is slidably connected to the mounting bracket 320, and the other connecting portion 332 is provided with a first stud 341.

[0127] In this embodiment, one end of the support member 330 is provided with a first stud 341, and the mounting bracket 320 is provided with a sliding hole 3221. The support member 330 and the mounting bracket 320 can slide by the cooperation of the first stud 341 and the sliding hole 3221. Furthermore, the support member 330 can be locked and unlocked by the connection of the nut 342 and the first stud 341. The structure is simple and the operation is convenient.

[0128] Furthermore, the other end of the support member 330 is fixed relative to the mounting bracket 320 by the cooperation of the second stud 333 and the threaded hole 3213, which facilitates the fixing of the second stud 333 and the nut 342, and facilitates the sliding operation and fixing of the support member 330.

[0129] In some possible implementations of this application, the mounting bracket 320 has scale markings on the side of the sliding hole 3221. For example, scale markings are provided on the second side plate 322, with the scale markings located on the sliding side. This arrangement facilitates indication of positional adjustments between adjacent support members 330, making positional adjustments more convenient and clear.

[0130] In some embodiments of this application, combined with Figure 8 The main body 331 of the support member 330 is provided with a wire-passing groove 3341 on one side, and the side opening of the wire-passing groove 3341 is provided. The wire-passing groove 3341 and the connecting part 332 are respectively located on both sides of the main body 331 along a third direction, so that the connection between the support member 330 and the mounting bracket 320 does not affect the fixing of the cable.

[0131] The support member 330 also includes a limiting component 335, which is detachably connected to the main body 331 and is opposite to the side opening of the threading groove 3341, forming a threading channel 334.

[0132] The support member 330 of this application embodiment has a main body 331 with a wire-passing groove 3341. A limiting component 335 is detachably connected to the main body 331, so that the limiting component 335 faces the side opening of the wire-passing groove 3341 to enclose and form a wire-passing channel 334. The detachable connection between the limiting component 335 and the main body facilitates the opening and closing of the wire-passing groove 3341, restricting the cable and thus facilitating cable adjustment and maintenance.

[0133] Reference Figure 10 In some embodiments of this application, the limiting component 335 includes a limiting rod 3351 and a locking block 3352. One end of the limiting rod 3351 is rotatably connected to the main body 331, and a connecting shaft is provided at one end of the limiting rod 3351, which is rotatably connected to the main body 331. The other end of the limiting rod 3351 is connected to the locking block 3352, and the limiting rod 3351 is opposite to the side opening of the wire threading groove 3341.

[0134] The main body 331 is provided with a slot 3311, which engages with the card block 3352.

[0135] Remove the locking block 3352 from the slot 3311 and rotate the limiting rod 3351 so that the limiting rod 3351 can rotate relative to the main body 331, thereby causing the limiting rod 3351 to be misaligned with the side opening of the wire threading groove 3341, and adjusting the cable in the wire threading groove 3341.

[0136] In some embodiments, the main body 331 is provided with a plurality of wire-passing grooves 3341 spaced apart along its length, and a limiting component 335 is connected between two adjacent wire-passing grooves 3341. In order to provide sufficient arrangement space for the limiting component 335, the rotatable connection end of one of the two adjacent limiting rods 3351 is located below the snap-fit ​​end of the other limiting rod 3351, thereby making the limiting rods 3351 inclined.

[0137] One end of the limiting rod 3351 is rotatably connected to the locking block 3352, facilitating the connection and separation of the locking block 3352 and the locking slot 3311. Figure 10 In some embodiments of this application, the locking block 3352 includes a locking portion 3353, a connecting shaft portion 3354, and a limiting stop 3355. The locking portion 3353 cooperates with the locking groove 3311. Figure 10 The locking part 3353 is L-shaped, but this is not a limitation on its shape; it can also be elongated or rectangular. The connecting shaft 3354 is connected to one end of the locking part 3353, and the connecting shaft 3354 engages with the rotating hole 3356 on the limiting rod 3351, allowing the locking block 3352 to rotate relative to the limiting rod 3351. The limiting stop 3355 is connected to the end of the connecting shaft 3354 opposite to the locking part 3353, and the diameter of the limiting stop 3355 is larger than the diameter of the connecting shaft 3354. The limiting stop 3355 and the locking part 3353 are located on different sides of the limiting rod 3351, and the limiting stop 3355 abuts against the limiting rod 3351 to prevent the connecting shaft 3354 from dislodging from the rotating hole 3356.

[0138] In some embodiments, the rotating hole 3356 on the limiting rod 3351 is an oblong hole, and the rotating hole 3356 extends along the length direction of the limiting rod 3351. Thus, the connecting shaft 3354 can slide along the rotating hole 3356, making it easier for the snap-fit ​​part 3353 to snap into the slot 3311, avoiding difficulties in disassembling and assembling the snap-fit ​​part 3353 and the slot 3311 due to machining errors, installation errors, etc.

[0139] In some embodiments of this application, the support member 330 extends in a horizontal plane, which can be understood as the support member 330 being arranged parallel to the horizontal plane. Multiple cable guide sleeves are arranged at intervals along the extension direction of the support member 330, forming cable guide channels 334, which extend along the height direction of the housing 100. With this arrangement, the cable extends along the height direction of the housing 100 within the cable guide channels 334.

[0140] Multiple cable guide sleeves are configured to be slidably mounted on the support 330, thereby allowing adjustment of the spacing between adjacent cable guide channels 334, making the spacing between cables more flexible. Furthermore, since the support 330 extends horizontally within the housing 100 and the cable guide channels 334 extend vertically along the housing 100, no additional limiting structure for the cable guide sleeves is required to maintain the spacing between adjacent cable guide sleeves.

[0141] Of course, this is not a limitation on the installation direction of the electronic control component 300 in the embodiments of this application. For example, the support member 330 may also extend in the vertical plane of the housing 100.

[0142] In some specific implementations, the support component 330 is provided in two forms, such as... Figure 5 and Figure 6 As shown, the two support members 330 are along the second direction (corresponding to...) Figure 6 The cables are arranged at intervals along the Z-axis, and two support members 330 slide relative to the mounting bracket 320 along the second direction. One support member 330 is used to fix the high-voltage cable, and the other support member 330 is used to fix the low-voltage cable, so that the high-voltage cable and the low-voltage cable can be fixed to different support members 330 respectively, and the interval between the two support members 330 can be adjusted to reduce interference between the high-voltage cable and the low-voltage cable.

[0143] Furthermore, the multiple support members 330 are arranged at intervals along the second direction, so that each of the multiple support members 330 can be opposite to the openings on both sides of the mounting bracket 320 along the third direction (corresponding to the Y-axis direction in the figure), which facilitates the adjustment of the cable.

[0144] Finally, it should be noted that 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. Such 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.

[0145] For ease of explanation, the above description has been provided in conjunction with specific embodiments. However, the above exemplary discussion is not intended to be exhaustive or to limit the embodiments to the specific forms disclosed above. Various modifications and variations can be obtained based on the above teachings. The selection and description of the above embodiments are for the purpose of better explaining the principles and practical applications, thereby enabling those skilled in the art to better utilize the described embodiments and various different variations of embodiments suitable for specific use considerations.

Claims

1. A storage cabinet, characterized in that, include: A housing (100) is configured to form a storage cavity (110); A door (200) is connected to the box (100) to open or close the storage cavity (110); An electronic control assembly (300) is installed in the housing (100); the electronic control assembly (300) includes: The outer shell (310) is constructed to form a receiving cavity with an opening on one side; The mounting bracket (320) is retractably installed inside the housing (310) along the first direction; Multiple support members (330) are slidably connected to the mounting bracket (320), and the multiple support members (330) are arranged in an array in a first plane; the first plane is perpendicular to the first direction; Each support member (330) is provided with a locking structure (340); when the locking structure (340) is in the unlocked state, the support member (330) is configured to slide relative to the mounting bracket (320) to adjust the position of the support member (330) in the first plane; when the locking structure (340) is in the locked state, the support member (330) is configured to be fixed relative to the mounting bracket (320); The support member (330) is provided with a wire passage (334) for threading wires; an electrical component is fixed to one end of the wire passage (334) of the support member (330).

2. The cabinet of claim 1, wherein, The plurality of support members (330) extend along the first direction, and the plurality of support members (330) are arranged at intervals along a second direction; the second direction is perpendicular to the first direction; The support member (330) is connected to the mounting bracket (320) at both ends along the first direction, and the locking structure (340) is disposed at one end of the support member (330) and connected to the mounting bracket (320).

3. The cabinet of claim 2, wherein, The support member (330) has a first end and a second end opposite to each other along the first direction. The first end of the support member (330) is slidably connected to the mounting bracket (320). The second end of the support member (330) is provided with a first stud (341). The mounting bracket (320) is provided with a sliding hole (3221) extending along the second direction; The first stud (341) passes through the sliding hole (3221) and is threadedly connected to the nut (342); The locking structure (340) includes a first stud (341) and a nut (342).

4. The cabinet of claim 3, wherein, The mounting bracket (320) has scale markings on the side of the sliding hole (3221).

5. The cabinet according to any of claims 1-4, characterized in that The support member (330) includes: The main body (331) has a wire groove (3341) on one side, and the wire groove (3341) has an opening on the side. A connecting part (332) is provided at both ends of the main body part (331) and located on the other side of the main body part (331); the connecting part (332) is connected to the mounting bracket (320); A limiting component (335) is detachably connected to the main body (331) and is opposite to the side opening of the threading groove (3341) to enclose and form the threading channel (334).

6. The storage cabinet according to claim 5, characterized in that, The limiting component (335) includes a limiting rod (3351) and a locking block (3352). One end of the limiting rod (3351) is rotatably connected to the main body (331), and the other end of the limiting rod (3351) is connected to the locking block (3352). The limiting rod (3351) is opposite to the side opening of the threading groove (3341). The main body (331) is provided with a slot (3311), which engages with the card block (3352).

7. The cabinet according to any of claims 1-4, characterized in that The support member (330) extends in a horizontal plane, and a plurality of wire sleeves are arranged at intervals along the extension direction of the support member (330). The wire sleeves are configured to form the wire channel (334), and the wire channel (334) extends along the height direction of the box (100). The plurality of threading sleeves are configured to be slidably mounted on the support (330).

8. The cabinet according to any one of claims 1-4, characterized in that The mounting bracket (320) includes a first side plate (321), a second side plate (322), a third side plate (323), and a fourth side plate (324). The first side plate (321) and the second side plate (322) are arranged at intervals along the first direction, and the two ends of the support member (330) are respectively connected to the first side plate (321) and the second side plate (322). The third side plate (323) is fixed to the top of the first side plate (321) and the second side plate (322), and the fourth side plate (324) is fixed to the bottom of the first side plate (321) and the second side plate (322).

9. The cabinet of claim 8, wherein, The top surface of the third side plate (323) is provided with two limiting blocks (3231), the two limiting blocks (3231) extend along the first direction, and the two limiting blocks (3231) are arranged at intervals along the third direction to form a limiting groove (3232); the third direction is perpendicular to the first direction; The bottom surface of the fourth side plate (324) is provided with a slider (3241), which extends along the first direction; The outer shell (310) is provided with a limiting protrusion (3111) and a sliding groove. The limiting protrusion (3111) cooperates with the limiting groove (3232); the sliding groove cooperates with the slider (3241).

10. The storage cabinet of any of claims 1-4, wherein, The electronic control component (300) is installed at the bottom of the back side of the housing (100); the mounting bracket (320) is pulled out along the front-back direction of the housing (100); the housing (100) is provided with an inspection door, which is opposite to the mounting bracket (320) along the first direction.