A charging cabinet device
By setting up separate storage spaces and heat dissipation components in the main body of the charging cabinet, the problem of poor heat dissipation caused by the proximity of the circuit modules and charging components is solved, and efficient heat dissipation of the charging cabinet device is achieved.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- NINGBO SHANGYANG TECHNOLOGY CO LTD
- Filing Date
- 2025-06-13
- Publication Date
- 2026-06-16
AI Technical Summary
In existing charging cabinet devices, the circuit modules and charging components are close together, resulting in poor heat dissipation.
The charging cabinet body is provided with first and second accommodating spaces. The charging components are installed in the first accommodating space, and the circuit module is installed in the second accommodating space near the top. The circuit module is cooled by heat dissipation components, making full use of the top space of the charging cabinet body.
It improves the heat dissipation effect of the circuit module, avoids the problem of poor heat dissipation caused by the close proximity of the circuit module and the charging components, and enhances the heat dissipation performance of the charging cabinet device.
Smart Images

Figure CN224367566U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to the technical field of charging cabinet devices, and in particular to a charging cabinet device. Background Technology
[0002] With the development of technology, charging cabinet devices provide convenient and fast charging services for various electronic devices. In the existing technology, the existing charging cabinet device includes a charging cabinet body, charging components and circuit modules. The circuit modules and charging components are built into the charging cabinet body. However, the circuit modules and charging components are close to each other, resulting in poor heat dissipation of the circuit modules in the existing charging cabinet device. Utility Model Content
[0003] The purpose of this utility model is to provide a charging cabinet device. The charging cabinet body has a first accommodating space and a second accommodating space. The second accommodating space is located above the first accommodating space and is close to the top of the charging cabinet body. At least one charging component is installed in the charging cabinet body, and each charging component is located in the first accommodating space and is used to charge external devices. A circuit module is installed in the charging cabinet body and is located in the second accommodating space. The circuit module includes a circuit board, a charging module, and a display screen. The circuit board is electrically connected to each charging component. The charging module and the display screen are both electrically connected to the circuit board. The display screen is used to display the charging reading output by the charging module. The display screen is located on the front side wall of the charging cabinet body. A heat sink is installed in the charging cabinet body and arranged relative to the circuit module to dissipate heat from the circuit module. This heat dissipation method fully utilizes the top space of the charging cabinet body, avoids the circuit module and the charging component being close together, and improves the heat dissipation effect of the charging cabinet device on the circuit module.
[0004] To achieve the above objectives, this utility model provides the following technical solution: a charging cabinet device, comprising:
[0005] The charging cabinet body has a first accommodating space and a second accommodating space; the second accommodating space is located above the first accommodating space; the second accommodating space is close to the top of the charging cabinet body;
[0006] At least one charging component is installed in the main body of the charging cabinet, and each of the charging components is located in the first accommodating space and is used to charge external devices.
[0007] A circuit module is installed in the main body of the charging cabinet and located within the second accommodating space; the circuit module includes a circuit board, a charging module, and a display screen; the circuit board is electrically connected to each of the charging components; the charging module and the display screen are both electrically connected to the circuit board, and the display screen is used to display the charging reading output by the charging module; the display screen is located on the front side wall of the main body of the charging cabinet.
[0008] A heat sink is installed on the main body of the charging cabinet and arranged relative to the circuit module to dissipate heat from the circuit module.
[0009] Optionally, the circuit module includes a support box, which is installed on the main body of the charging cabinet and supports the circuit board and the charging module; the support box is located within the second accommodating space.
[0010] The support box is provided with heat dissipation holes, and the heat dissipation end of the heat sink faces the heat dissipation holes, and dissipates heat from the circuit board and the charging module inside the support box.
[0011] Optionally, each of the heat dissipation holes is located on a plurality of side walls of the support box;
[0012] Each of the aforementioned heat dissipation holes is connected to the inner cavity of the support box.
[0013] Optionally, the heat dissipation hole is an elongated hole;
[0014] The support box has heat dissipation holes on its upper side wall, left side wall, and right side wall; a plurality of heat dissipation holes are distributed around the circuit board and the charging module.
[0015] The heat dissipation component is arranged in the left-right direction and faces the support box in the left-right direction.
[0016] Optionally, the support box is located near the top of the charging cabinet body and is suspended relative to the top of the charging cabinet body.
[0017] The peripheral sidewall of the support box has a gap with the inner sidewall of the charging cabinet body, which is used for gas to pass through.
[0018] Optionally, the inner wall of the charging cabinet body is connected to multiple connectors. The multiple connectors are distributed at the same height of the charging cabinet body and are connected to the same support box in different directions, so that the support box is suspended relative to the top of the charging cabinet body.
[0019] Optionally, the second accommodating space is connected to the first accommodating space in the vertical direction;
[0020] The area of the second accommodating space is smaller than that of the first accommodating space.
[0021] Optionally, the upper side wall of the charging cabinet body is provided with a handle, which is arranged along the length or width of the charging cabinet body; the handle is for the user's hand to grip.
[0022] The lower side wall of the charging cabinet body is equipped with casters that roll relative to the ground.
[0023] Optionally, the handle portion is a groove, which is recessed downward from the upper side wall of the charging cabinet body.
[0024] Optionally, there are multiple charging components, all of which are located in the first accommodating space. Two adjacent charging components form a placement slot for placing external devices.
[0025] Compared with the prior art, the beneficial effects of this utility model are:
[0026] This utility model provides a charging cabinet device. The charging cabinet body has a first accommodating space and a second accommodating space. The second accommodating space is located above the first accommodating space and is close to the top of the charging cabinet body. At least one charging component is installed in the charging cabinet body, and each charging component is located in the first accommodating space and is used to charge external devices. A circuit module is installed in the charging cabinet body and is located in the second accommodating space. The circuit module includes a circuit board, a charging module, and a display screen. The circuit board is electrically connected to each charging component. The charging module and the display screen are both electrically connected to the circuit board, and the display screen is used to display the charging reading output by the charging module. The display screen is located on the front side wall of the charging cabinet body. A heat sink is installed in the charging cabinet body and arranged relative to the circuit module to dissipate heat from the circuit module. This heat dissipation method fully utilizes the top space of the charging cabinet body, avoids the circuit module and charging components being close together, and improves the heat dissipation effect of the charging cabinet device on the circuit module. Attached Figure Description
[0027] To more clearly illustrate the technical solutions in the embodiments of this application, the accompanying drawings used in the description of the embodiments will be briefly introduced below. Obviously, the accompanying drawings described below are only some embodiments of this application. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.
[0028] To gain a more complete understanding of this application and its beneficial effects, the following description will be provided in conjunction with the accompanying drawings. In the following description, the same reference numerals denote the same parts.
[0029] Figure 1 A schematic diagram of a charging cabinet device according to an embodiment of this application is shown.
[0030] Figure 2 A cross-sectional view of a charging cabinet device according to an embodiment of this application is shown.
[0031] Figure 3 A schematic diagram of the internal structure of a charging cabinet device according to an embodiment of this application is shown.
[0032] Figure 4 A schematic diagram of another state of the internal structure of a charging cabinet device according to an embodiment of this application is shown.
[0033] Figure 5 A schematic diagram of the circuit module of a charging cabinet device according to an embodiment of this application is shown.
[0034] Attached Figure
[0035] 100. Charging cabinet device;
[0036] 10. Charging cabinet body; 10a. First storage space; 10b. Second storage space; 11. Connector; 12. Handle; 13. Casters;
[0037] 20. Charging component; 20a. Placement slot
[0038] 30. Circuit module; 31. Circuit board; 32. Charging module; 33. Display screen; 34. Support box; 34a. Heat dissipation holes;
[0039] 40. Heat sink components. Detailed Implementation
[0040] 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 a part of the embodiments of this application, and not all of them. All other embodiments obtained by those skilled in the art based on the embodiments of this application without creative effort are within the scope of protection of this application.
[0041] Please refer to the attached document. Figures 1-5 This application provides a charging cabinet device 100 for charging external devices.
[0042] Please refer to the attached document. Figures 1-5In this embodiment, the charging cabinet device 100 includes a charging cabinet body 10, at least one charging component 20, a circuit module 30, and a heat dissipation component 40. The charging cabinet body 10 has a first accommodating space 10a and a second accommodating space 10b; the second accommodating space 10b is located above the first accommodating space 10a and is close to the top of the charging cabinet body 10; at least one charging component 20 is installed in the charging cabinet body 10, and each charging component 20 is located within the first accommodating space 10a and is used to charge external devices; the circuit module 30 is installed in the charging cabinet body 10 and is located within the second accommodating space 10b; the circuit module 30 includes... The charging cabinet 10 includes a circuit board 31, a charging module 32, and a display screen 33. The circuit board 31 is electrically connected to each charging component 20. Both the charging module 32 and the display screen 33 are electrically connected to the circuit board 31. The display screen 33 displays the charging readings output by the charging module 32. The display screen 33 is located on the front side wall of the charging cabinet body 10. A heat sink 40 is installed on the charging cabinet body 10 and positioned relative to the circuit module 30 to dissipate heat from the circuit module 30. This heat dissipation method fully utilizes the top space of the charging cabinet body 10, preventing the circuit module 30 from being too close to the charging components 20 and improving the heat dissipation effect of the charging cabinet 100 on the circuit module 30. Optionally, the charging cabinet body 10 includes an IC card reader, which is located on one side of the display screen 33 and used for card reading.
[0043] Please refer to the attached document. Figures 1-5 In this embodiment of the application, the charging cabinet body 10 serves as a supporting component of the charging cabinet device 100. The charging cabinet body 10 is used to support at least one charging component 20, a circuit module 30, and a heat dissipation component 40.
[0044] The charging cabinet body 10 is provided with a first accommodating space 10a and a second accommodating space 10b; both the first accommodating space 10a and the second accommodating space 10b serve as the internal space of the charging cabinet body 10, and the second accommodating space 10b is located above the first accommodating space 10a; the second accommodating space 10b is close to the top of the charging cabinet body 10.
[0045] At least one charging component 20 is installed in the main body 10 of the charging cabinet, and each charging component 20 is located in the first accommodating space 10a, so that at least one charging component 20 can make full use of the first accommodating space 10a. Each charging component 20 is used to charge external devices, thereby improving the charging convenience of external devices.
[0046] The circuit module 30 is installed in the main body 10 of the charging cabinet and is located in the second accommodating space 10b. The circuit module 30 includes a circuit board 31, a charging module 32 and a display screen 33. The circuit board 31 is electrically connected to each charging component 20. The charging module 32 and the display screen 33 are both electrically connected to the circuit board 31. The display screen 33 is used to display the charging reading output by the charging module 32. The display screen 33 is located on the front side wall of the main body 10 of the charging cabinet. The heat sink 40 is installed in the main body 10 of the charging cabinet and is arranged relative to the circuit module 30 to dissipate heat from the circuit module 30. This heat dissipation of the circuit module 30 makes full use of the space at the top of the main body 10 of the charging cabinet, avoids the circuit module 30 and the charging components 20 from being close together, and improves the heat dissipation effect of the charging cabinet device 100 on the circuit module 30.
[0047] Please refer to the attached document. Figures 1-5 In this embodiment, the circuit module 30 includes a support box 34, which is installed on the charging cabinet body 10 and supports the circuit board 31 and the charging module 32. The support box 34 is located in the second accommodating space 10b so that the circuit board 31 and the charging module 32 can be arranged relative to the second accommodating space 10b by being supported by the support box 34, thereby making full use of the space at the top of the charging cabinet body 10.
[0048] The support box 34 is provided with heat dissipation holes 34a. The heat dissipation end of the heat sink 40 faces the heat dissipation holes 34a and dissipates heat from the circuit board 31 and charging module 32 inside the support box 34. This facilitates the heat sink 40 to draw heat from the circuit board 31 and charging module 32 through the heat dissipation holes 34a, improving the smoothness of heat dissipation from the circuit board 31 and charging module 32. Optionally, the heat sink 40 is a fan.
[0049] Please refer to the attached document. Figures 1-5 In this embodiment, each heat dissipation hole 34a is located on a plurality of side walls of the support box 34; each heat dissipation hole 34a is connected to the inner cavity of the support box 34 so that the heat of the circuit board 31 and the charging module 32 can be discharged outward along the plurality of side walls of the support box 34, thereby improving the heat dissipation efficiency of the circuit board 31 and the charging module 32.
[0050] Please refer to the attached document. Figures 1-5 In this embodiment, the heat dissipation hole 34a is an elongated hole; the upper side wall, left side wall and right side wall of the support box 34 are all provided with heat dissipation holes 34a; multiple heat dissipation holes 34a are distributed around the circuit board 31 and the charging module 32, so that the heat of the circuit board 31 and the charging module 32 can be discharged through the multiple heat dissipation holes 34a along the upper side wall, left side wall and right side wall of the support box 34 respectively; the heat dissipation component 40 is arranged in the left and right direction and faces the support box 34 in the left and right direction, so that the heat dissipation component 40 can discharge heat in the left and right direction of the support box 34.
[0051] Please refer to the attached document. Figures 1-5 In this embodiment, the support box 34 is located near the top of the charging cabinet body 10 and is suspended relative to the top of the charging cabinet body 10. The peripheral sidewall of the support box 34 has a gap with the inner sidewall of the charging cabinet body 10, which allows gas to pass through, facilitating air circulation. This allows heat from the circuit board 31 and charging module 32 to be carried away by the gas flow, preventing overheating and malfunction. Simultaneously, the suspended arrangement facilitates the installation of the support box 34, circuit board 31, and charging module 32 by personnel, improving maintenance convenience.
[0052] Please refer to the attached document. Figures 1-4 In this embodiment, the inner wall of the charging cabinet body 10 is connected to multiple connectors 11. These connectors 11 are distributed at the same height within the charging cabinet body 10 and connected to the same support box 34 along different directions. This allows the support box 34 to be suspended relative to the top of the charging cabinet body 10, enabling it to be fixed to the second accommodating space 10b of the charging cabinet body 10 via the multiple connectors 11. The arrangement of multiple connectors 11 increases the connection strength between the support box 34 and the charging cabinet body 10, improving the connection stability. Optionally, the multiple connectors 11 may be two or four, and each connector 11 may be a connecting piece.
[0053] Please refer to the attached document. Figures 1-3 In this embodiment, the second accommodating space 10b is connected to the first accommodating space 10a in the vertical direction, so that the heat from the first accommodating space 10a can flow to the second accommodating space 10b, thereby facilitating the heat dissipation component 40 to dissipate the heat from the first accommodating space 10a and the second accommodating space 10b. The spatial area of the second accommodating space 10b is smaller than that of the first accommodating space 10a, so that multiple layers of charging components 20 can be arranged in the first accommodating space 10a, and the multiple layers of charging components 20 are arranged at intervals along the vertical direction of the first accommodating space 10a.
[0054] Please refer to the attached document. Figures 1-3 In this embodiment, the upper sidewall of the charging cabinet body 10 is provided with a handle 12, which is arranged along the length or width direction of the charging cabinet body 10. The handle 12 is for the user's hand to grip, so that the user can push or move the charging cabinet body 10 by using the handle 12, thereby improving the gripping convenience of the charging cabinet body 10. The lower sidewall of the charging cabinet body 10 is provided with casters 13, which roll relative to the ground, improving the transfer convenience of the charging cabinet body 10. Optionally, there are four casters 13, which are arranged along the four corners of the charging cabinet body 10.
[0055] Please refer to the attached document. Figures 1-3In this embodiment, the handle 12 is a groove, which is recessed downward from the upper side wall of the charging cabinet body 10, so that the user's fingers can enter the groove from top to bottom, thereby making it easier for the user to grasp the inner side wall of the groove.
[0056] Please refer to the attached document. Figure 2 In this embodiment of the application, there are multiple charging components 20, and all multiple charging components 20 are located in the first accommodating space 10a. By arranging multiple charging components 20, the number of external devices that can be charged is increased. Two adjacent charging components 20 form a placement slot 20a, which is used for placing external devices so that the placement slot 20a can accommodate external devices and thus facilitate the differentiation of the positions of each external device.
[0057] Compared with the prior art, the beneficial effects of this utility model are:
[0058] This utility model provides a charging cabinet device 100. The charging cabinet body 10 has a first accommodating space 10a and a second accommodating space 10b. The second accommodating space 10b is located above the first accommodating space 10a and is close to the top of the charging cabinet body 10. At least one charging component 20 is installed in the charging cabinet body 10, and each charging component 20 is located in the first accommodating space 10a and is used to charge external devices. A circuit module 30 is installed in the charging cabinet body 10 and is located in the second accommodating space 10b. The circuit module 30 includes a circuit board 31, a charging module 32, and a display screen. 33; Circuit board 31 is electrically connected to each charging component 20; Charging module 32 and display screen 33 are both electrically connected to circuit board 31. Display screen 33 is used to display the charging reading output by charging module 32; Display screen 33 is set on the front side wall of charging cabinet body 10; Heat sink 40 is installed on charging cabinet body 10 and arranged relative to circuit module 30 to dissipate heat from circuit module 30. Heat dissipation of circuit module 30 makes full use of the top space of charging cabinet body 10, avoids circuit module 30 and charging component 20 from being close together, and improves the heat dissipation effect of charging cabinet device 100 on circuit module 30.
[0059] The above description is only a preferred embodiment of the present utility model and does not limit the patent scope of the present utility model. All equivalent structural transformations made under the inventive concept of the present utility model using the contents of the present utility model specification and drawings, or direct / indirect applications in other related technical fields, are included within the patent protection scope of the present utility model.
Claims
1. A charging cabinet device, characterized in that, include: The main body of the charging cabinet has a first storage space and a second storage space; The second accommodating space is located above the first accommodating space; The second accommodating space is located near the top of the charging cabinet body; At least one charging component is installed in the main body of the charging cabinet, and each of the charging components is located in the first accommodating space and is used to charge external devices. A circuit module is installed in the main body of the charging cabinet and is located within the second accommodating space; the circuit module includes a circuit board, a charging module, and a display screen; the circuit board is electrically connected to each of the charging components; The charging module and the display screen are both electrically connected to the circuit board. The display screen is used to display the charging reading output by the charging module. The display screen is located on the front side wall of the main body of the charging cabinet. A heat sink is installed on the main body of the charging cabinet and arranged relative to the circuit module to dissipate heat from the circuit module. The circuit module includes a support box, which is installed on the main body of the charging cabinet and supports the circuit board and the charging module; the support box is located within the second accommodating space; the support box is provided with heat dissipation holes, and the heat dissipation end of the heat dissipation component faces the heat dissipation holes and dissipates heat from the circuit board and the charging module located in the support box; Each of the heat dissipation holes is located on a plurality of side walls of the support box; each of the heat dissipation holes is connected to the inner cavity of the support box; the heat dissipation holes are elongated holes; the upper side wall, left side wall and right side wall of the support box are all provided with the heat dissipation holes; a plurality of the heat dissipation holes are distributed around the circuit board and the charging module; the heat dissipation components are arranged along the left and right direction and face the support box along the left and right direction.
2. The charging cabinet device according to claim 1, characterized in that, The support box is located near the top of the charging cabinet body and is suspended relative to the top of the charging cabinet body. The peripheral sidewall of the support box has a gap with the inner sidewall of the charging cabinet body, which is used for gas to pass through.
3. The charging cabinet device according to claim 2, characterized in that, The inner wall of the charging cabinet body is connected to multiple connectors. These connectors are distributed at the same height of the charging cabinet body and are connected to the same support box in different directions, so that the support box is suspended relative to the top of the charging cabinet body.
4. The charging cabinet device according to any one of claims 1 to 3, characterized in that, The second accommodating space is connected to the first accommodating space in the vertical direction; The area of the second accommodating space is smaller than that of the first accommodating space.
5. The charging cabinet device according to any one of claims 1 to 3, characterized in that, The upper side wall of the charging cabinet body is provided with a handle, which is arranged along the length or width of the charging cabinet body; the handle is for the user's hand to grip. The lower side wall of the charging cabinet body is equipped with casters that roll relative to the ground.
6. The charging cabinet device according to claim 5, characterized in that, The handle is a groove, which is recessed downward from the upper side wall of the charging cabinet body.
7. The charging cabinet device according to any one of claims 1 to 3, characterized in that, The charging component is multiple, and all of the multiple charging components are located in the first accommodating space. Two adjacent charging components form a placement slot, which is used for placing external devices.