CN120640635A - A mini network cabinet - Google Patents

Abstract

The present invention relates to a mini network cabinet, comprising: a cabinet assembly, including a three-dimensional frame, a bottom plate, a mesh top plate, a cabinet door, and a door lock, wherein the inner side of the three-dimensional frame is a storage space, the bottom plate is connected to the bottom of the three-dimensional frame, the mesh top plate is connected to the top of the three-dimensional frame, the cabinet door is connected to the four sides of the three-dimensional frame, and the door lock is used to lock the three-dimensional frame and the cabinet door; a support cable management assembly, connected to the storage space, for installing equipment in the cabinet and performing cable management; a temperature control assembly, including a fan and a thermostat, the fan is connected to the inner side of the mesh top plate for driving air flow, and the thermostat is connected to the mesh top plate and used to control the fan. The present invention provides a mesh top plate, cabinet doors that can be opened on four sides, and a temperature control assembly, wherein the mesh top plate and the temperature control assembly realize automatic temperature control of the network cabinet, achieve efficient heat dissipation, and the cabinet doors can be opened on four sides, which facilitates maintenance operations and improves maintenance efficiency; and mechanical locks are installed on all four side doors of the cabinet to improve anti-theft capabilities.

Description

Mini network cabinet

Technical Field

The invention relates to the technical field of wiring cabinets, in particular to a mini network cabinet.

Background

The cabinet serves as a physical protection and support platform for IT equipment, and provides a relatively firm physical structure, good cable management space, power distribution support and an excellent thermal management system. With the rapid development of network technology, cabinet technology has been developed for decades from the initial theoretical proposal to engineering realization and to the application of high-speed optical fiber communication nowadays. The traditional cabinet is mainly applied to large places such as a data center, but with popularization of network infrastructure and improvement of intelligent requirements, the market is increasingly demanding mini network cabinets suitable for small spaces such as scenes between wires, corridor and the like.

The wall-mounted cabinet is widely applied to the environment with limited space due to the characteristics of small volume and convenient installation. However, such cabinets are often installed in non-professionally managed public areas, such as the corridor where personnel flow frequently, facing serious security management challenges. Meanwhile, the power density of modern network communication equipment is continuously improved, the heating value is obviously increased, and the compact structure of the wall-mounted cabinet limits the heat dissipation capacity. The existing mini network cabinet has obvious defects in the aspects of anti-theft performance, heat dissipation efficiency, installation and maintenance and the like, and is difficult to meet the requirements of the installation environment of the current small-sized communication equipment.

In view of the above, there is a need in the art for improvements.

Disclosure of Invention

Therefore, the invention provides the mini network cabinet which can adapt to a space with a smaller space, is antitheft, can effectively dissipate heat and is convenient to install and maintain.

In order to solve the above technical problems, the present invention provides a mini network cabinet, including:

The cabinet body assembly comprises a three-dimensional frame, a bottom plate, a mesh top plate, a cabinet door and a door lock, wherein an accommodating space is formed in the inner side of the three-dimensional frame, the bottom plate is connected to the bottom of the three-dimensional frame, the mesh top plate is connected to the top of the three-dimensional frame, the cabinet door is connected to the periphery of the three-dimensional frame, and the door lock is used for locking the three-dimensional frame and the cabinet door;

support reason line subassembly, connect in accommodation space for install the interior equipment of cabinet and carry out cable management:

the temperature control assembly comprises a fan and a temperature controller, wherein the fan is connected to the inner side of the mesh top plate and used for driving air to flow, and the temperature controller is connected to the mesh top plate and used for controlling the fan.

Further, the rear side of the three-dimensional frame is also connected with a hanging hanger.

Further, the bottom plate and the mesh top plate are provided with butt joint holes for being connected with the cabinet.

Further, the bottom plate and the mesh top plate are provided with wiring holes for wiring.

Further, the four cabinet doors are connected to the front side, the rear side, the left side and the right side of the three-dimensional frame through hinges.

Further, the cabinet door is a single door, and is opened in a clockwise direction and is closed in a counterclockwise direction.

Further, the cabinet door is a closed cabinet door or a mesh cabinet door.

Further, the cabinet door is connected with the three-dimensional frame in a sealing mode through a sealing strip.

Further, the door lock is a mechanical lock.

Further, the supporting wire arranging assembly comprises a transverse plate, an upright post, a supporting plate, a wire arranging frame and a grounding copper bar, wherein the transverse plate is connected to the three-dimensional frame, the upright post is installed on the transverse plate in a position-adjustable mode, the supporting plate is connected to the upright post, the supporting plate is used for installing equipment in a cabinet, the wire arranging frame is used for conducting a cable pipeline, and the grounding copper bar is used for guaranteeing equipment and personnel safety.

Compared with the prior art, the mini network cabinet has the advantages that the mesh top plate, the four sides of the mini network cabinet can be opened, and the temperature control assembly is arranged, so that automatic temperature regulation and control of the network cabinet are realized, efficient heat dissipation is realized, the four sides of the mini network cabinet can be opened, maintenance operation is convenient, maintenance efficiency is improved, mechanical locks are arranged on four side doors of the mini network cabinet, and anti-theft capability is improved.

Drawings

In order that the invention may be more readily understood, a more particular description of the invention will be rendered by reference to specific embodiments thereof that are illustrated in the appended drawings.

Fig. 1 is a schematic perspective view of a mini-network cabinet according to the present invention;

Fig. 2 is a schematic structural diagram of a temperature control assembly according to the present invention.

The reference numerals of the specification indicate that 1, a cabinet body assembly, 11, a three-dimensional frame, 12, a bottom plate, 13, a mesh top plate, 14, a cabinet door, 15, a door lock, 16 and a wall hanging hanger;

2. the wire arranging assembly is supported, and the wire arranging assembly comprises a 21, a transverse plate, a 22, an upright post, a 23, a supporting plate, a 24, a wire arranging frame, a 25 and a grounding copper bar;

3. 31, a fan, 32, a temperature controller, 33, a fan mounting plate, 34 and a switch.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and specific examples, which are not intended to be limiting, so that those skilled in the art will better understand the invention and practice it.

Embodiment one referring to fig. 1 and 2, one embodiment of a mini network cabinet provided by the present invention is shown.

The mini network cabinet comprises:

The cabinet body assembly 1 comprises a three-dimensional frame 11, a bottom plate 12, a mesh top plate 13, a cabinet door 14 and a door lock 15, wherein the inner side of the three-dimensional frame 11 is an accommodating space, the bottom plate 12 is connected to the bottom of the three-dimensional frame 11, the mesh top plate 13 is connected to the top of the three-dimensional frame 11, the cabinet door 14 is connected to the periphery of the three-dimensional frame 11, and the door lock 15 is used for locking the three-dimensional frame 11 and the cabinet door 14;

support reason line subassembly 2, connect in above-mentioned accommodation for installation cabinet interior equipment and carry out cable management:

The temperature control assembly 3 comprises a fan 31 and a temperature controller 32, wherein the fan 31 is connected to the inner side of the mesh top plate 13 for driving air to flow, and the temperature controller 32 is connected to the mesh top plate 13 for controlling the fan 31.

In the above, the three-dimensional frame 11 refers to a hexahedral support structure made of metal profiles, forming a basic space for installation of the apparatus. The three-dimensional frame 11 is provided with six frame openings, the bottom plate 12 is a horizontal bearing plate for bearing and supporting the wire arranging assembly 2, stable support is provided for equipment, and the bottom plate 12 is arranged at the lower frame opening of the three-dimensional frame 11. The mesh top plate 13 is a top cover, and has a surface with regularly arranged hole structures, and is mounted on the upper frame opening of the three-dimensional frame 11. The cabinet door 14 is an openable and closable structure covering the opening surface of the three-dimensional frame 11, four-side protection is realized, and the cabinet door 14 is arranged at the peripheral frame openings of the three-dimensional frame 11. The door lock 15 is used to lock the door to prevent others from opening the door 14. The support wire management assembly 2 is meant to include an assembly disposed within a cabinet. The temperature control component 3 is an active heat dissipation system arranged on the top of the three-dimensional frame 11, the fan 31 is arranged on the fan mounting plate 33, the fan mounting plate 33 is connected in the accommodating space, and the switch 34 is used for controlling the start and stop of the temperature control component of the fan 31. The air flow is driven by the fan 31, so that heat in the cabinet body is driven, and the fan 31 is automatically controlled by the temperature controller 32.

Specifically, the rigid connection of the bottom plate 12 with the stereoscopic frame 11 forms a stable base. The mesh top plate 13 serves as a heat radiation main passage, and its aperture design prevents intrusion of foreign matter while ensuring air flow passage. The cabinet doors 14 in four directions are independently opened and closed, so that multi-angle equipment maintenance is realized. Supporting the wire management assembly 2 enables the installation of wire management and communication equipment. The temperature controller 32 monitors the temperature in the cabinet in real time and adjusts the rotation speed of the fan 31 in stages. When the heat generation amount of the apparatus increases, the top fan 31 automatically enhances the air convection, and forms a heat radiation path from bottom to top in cooperation with the mesh top plate 13.

Through the technical scheme, the mesh top plate 13, the four-side openable cabinet door 14 and the temperature control assembly are arranged, the mesh top plate 13 and the temperature control assembly 3 realize automatic temperature regulation and control of the network cabinet, high-efficiency heat dissipation is realized, the four-side openable cabinet door 14 is convenient to maintain and operate, the maintenance efficiency is improved, and mechanical locks are arranged on four side doors of the cabinet, so that the anti-theft capability is improved. Can adapt to the communication network environment with smaller space between wires, corridor and installation equipment.

In this embodiment, a hanging hanger 16 is further connected to the rear side of the three-dimensional frame 11.

In the above, the hanging lugs 16 are fixed on the rear side of the three-dimensional frame 11, and are used as connecting components for wall surface installation, and the components are rigidly connected with the rear side of the three-dimensional frame 11 in a bolt fixing manner, so that the whole weight of the cabinet is uniformly transferred to the wall surface supporting structure.

Specifically, the hanging lugs 16 are designed to be symmetrically distributed at four corners of the rear side of the three-dimensional frame 11. When the wall hanging lugs can be directly detached without wall hanging installation, compared with the conventional cabinet which is hung by the holes of the back plate, the wall hanging operation can be carried out without the need of the cabinet, and the openable back door can be normally reserved, so that the operation of installation is convenient, the application range of the cabinet is also improved, and the problem that wall surface water seeps into the cabinet is avoided.

Through above-mentioned technical scheme, set up hanging hangers 16, not only the installation of rack of being convenient for, can guarantee the leakproofness of rack moreover.

In this embodiment, the mesh top plate 13 is provided with cabinet combining holes (not shown) for installing cabinet combining plates.

In the above description, the cabinet combining holes refer to hole structures provided in the mesh top plate 13, and are used to form physical connection with corresponding structures of other cabinets through the cabinet combining plate. The structural design of the hole can realize quick positioning and fixing, and ensures the stability of connection between cabinets. Wherein, the physical connection means that a plurality of cabinets are combined into a whole by a mechanical way, so that the cabinets form a stacked structure in the horizontal direction.

Specifically, by arranging cabinet combining holes at the top of the three-dimensional frame 11, cabinets can be connected side by side left and right through bolt cabinet combining plates. In the installation process, an operator only needs to dismantle the side door between the two cabinets, and the cabinet combining plates are respectively installed on the cabinet combining holes of the two cabinets by using the fasteners, so that the transverse expansion can be completed. The connection mode can expand the internal space of the cabinets, the plurality of cabinets can be opened up to realize unified heat dissipation management, wiring among the cabinets is convenient, the aesthetic degree is improved, and the connection mode is particularly suitable for high-scale environments such as machine rooms. After cabinet combining, the combining hole and the combining plate are matched to further enhance the anti-overturning capability of the whole structure and avoid the shifting risk caused by external force.

Through above-mentioned technical scheme, through setting up and combining the cabinet hole, realized the quick expansion connection of a plurality of cabinets. The physical connection structure between the cabinets enhances the overall stability and avoids the defect that the traditional independent installation cabinets are easy to be interfered by external force. The design is particularly suitable for scenes with larger scale and need lateral expansion, such as large-scale wiring, so that the deployment of network equipment is more standard and efficient.

In this embodiment, the bottom plate 12 and the mesh top plate 13 are provided with routing holes (not shown) for routing wires.

In the above, the routing hole refers to a channel dedicated to the cable passing through, and the aperture size is adapted to the outer diameter of a standard cable.

Specifically, the positions of the routing holes are optimally arranged according to the layout of the equipment, for example, routing hole groups are symmetrically arranged at four corners of the bottom plate 12 and the mesh top plate 13, so that the cables are vertically led into the cabinet along the bottom plate 12 and the mesh top plate 13.

Through above-mentioned technical scheme, set up the wiring hole, the cable of being convenient for business turn over rack.

In this embodiment, four cabinet doors 14 are connected to the front, rear, left and right sides of the three-dimensional frame 11 by door pins (not shown).

In the above, the door pin enables the door 14 to be opened or closed about a fixed axis. The four cabinet doors 14 are independent door structures respectively covering the front, rear, left and right side frame openings of the three-dimensional frame 11, and the independent opening and closing of the side surfaces are realized in an independent installation mode.

Specifically, the four cabinet doors 14 are respectively fixed to four side surfaces of the three-dimensional frame 11 through hinges, so as to form a fully enclosed protective structure. Each cabinet door 14 is independently opened and closed, and when specific equipment needs to be overhauled, only the cabinet door 14 on the corresponding side face is opened, so that the exposure of internal equipment caused by the simultaneous opening of all cabinet doors 14 is avoided. The hinge connection mode enables the cabinet door 14 to be closely attached to the three-dimensional frame 11 when being closed, and the cabinet door is difficult to pry and damage by external force after being fixed by a mechanical lock. In a plant maintenance scenario, an operator may choose to open a single or multiple cabinet doors 14 depending on the cable layout or plant location, reducing the impact of unnecessary operations on plant safety.

Through the above technical scheme, the door pin is arranged, so that the cabinet door 14 can be opened and closed conveniently.

In this embodiment, the cabinet door 14 is a single door, which is opened clockwise and closed counterclockwise.

In the above, the single door means an independent opening and closing structure formed by connecting the single door panel to the three-dimensional frame 11 through the door pin. Clockwise opening refers to the door panel rotating about the door pin axis in a clockwise trajectory to a fully deployed state, and counterclockwise closing refers to the door panel rotating about the door pin axis in a counterclockwise trajectory to a fully closed state. All the cabinet doors 14 are opened in the clockwise direction and closed in the anticlockwise direction, so that adjacent cabinet doors cannot interfere with each other when opened simultaneously.

Through the technical scheme, the plurality of cabinet doors 14 are guaranteed not to interfere with each other when being opened simultaneously, and the plurality of door pins can be uniformly distributed on the circumference of the cabinet body.

In this embodiment, the cabinet door 14 is a closed cabinet door or a mesh cabinet door.

Above, the closed cabinet door is a complete shielding structure formed by solid plates, and the anti-theft safety is improved by blocking external physical contact. The mesh cabinet door is a structure with regularly arranged through holes on the surface, and the heat dissipation efficiency is enhanced by forming an air circulation channel.

Specifically, the closed cabinet door prevents unauthorized personnel from contacting internal equipment when the closed cabinet door is used in public areas such as a corridor and the like through isolating the external environment, so that the theft risk is reduced, the mesh cabinet door promotes air convection through the hollow structure, heat discharge is accelerated when the equipment runs under high load, and overheat shutdown is avoided. Two cabinet door types can be selected according to the installation environment demand, for example, a closed cabinet door is adopted in a personnel-intensive area to strengthen protection, and a mesh cabinet door is adopted in a machine room with large equipment heating value to optimize heat dissipation.

Through the technical scheme, the type of the cabinet door can be flexibly selected according to the actual use scene, so that the special requirements of different installation environments on the safety level and the heat dissipation performance are met.

In this embodiment, the cabinet door 14 is hermetically connected to the three-dimensional frame 11 by a sealing strip (not shown).

The sealing strip is an elastic strip sealing member, which may be made of rubber or silica gel, and may have a hollow or solid cross-section, and the gap between the cabinet door 14 and the three-dimensional frame 11 is filled by extrusion deformation. The sealing strip is fixed at the edge of the cabinet door in an adhesive or fastening mode, and is pressed and deformed to achieve close fit when the cabinet door 14 is closed.

By the technical scheme, the sealing strips are arranged, the problem that the cabinet door 14 is not tightly connected with the three-dimensional frame 11 is solved, the invasion of external dust and unexpected splashing liquid is isolated, and the equipment protection capability of the cabinet in open environments such as a corridor is improved.

In this embodiment, the door lock 15 is a mechanical lock.

In the above, the mechanical lock is a locking device with a physical structure, the cabinet door 14 is fixed by matching the lock tongue with the lock hole on the three-dimensional frame 11, and the mechanical lock is opened by a key without depending on power supply, so that the mechanical lock can be normally used in a power-off environment.

Through above-mentioned technical scheme, set up lock 15 as mechanical lock, the structure is reliable, with low costs.

In this embodiment, the supporting and wire-arranging assembly 2 includes a cross plate 21, a column 22, a supporting plate 23, a wire-arranging frame 24 and a grounding copper bar 25, wherein the cross plate 21 is connected to the three-dimensional frame 11, the column 22 is adjustably mounted on the cross plate 21, the supporting plate 23 is connected to the column 22, the supporting plate 23 is used for mounting equipment in a cabinet, the wire-arranging frame 24 is used for carrying out cable pipelines, and the grounding copper bar 25 is used for ensuring equipment and personnel safety.

In the above, the upright 22 realizes position adjustment by changing the mounting position on the transverse plate 21, so that the mounting position of the communication equipment can be flexibly laid out according to actual requirements, and the mounting requirements of equipment with different sizes are met. The trays 23 may provide stable support for telecommunication, server equipment that is heavy or inconvenient for 19 inch installations, and the organizer 24 may be used to organize cables and wires for ease of management. When leakage or static electricity accumulation occurs in the equipment, current is quickly led into an external grounding system through the grounding copper bar 25. The cabinet body frame is also connected with each door plate through the grounding wire, and finally is connected with the grounding copper bar 25 through the grounding wire, so that the grounding of the whole cabinet body is realized, and electric shock caused by mistakenly touching the cabinet body is prevented.

In particular, the pallet 23 can stably support communication and server equipment, and the wire arranging frame 24 is used for arranging the electronic wires, so that the management is convenient. When leakage or static electricity accumulation occurs in the equipment, current is quickly led into an external grounding system through the grounding copper bar 25.

By the technical scheme, the installation of communication equipment in the cabinet and the management of cables are realized.

It is apparent that the above examples are given by way of illustration only and are not limiting of the embodiments. Other variations and modifications of the present invention will be apparent to those of ordinary skill in the art in light of the foregoing description. It is not necessary here nor is it exhaustive of all embodiments. And obvious variations or modifications thereof are contemplated as falling within the scope of the present invention.

Claims (10)

1. A mini-network cabinet, comprising:

The cabinet body assembly comprises a three-dimensional frame, a bottom plate, a mesh top plate, a cabinet door and a door lock, wherein an accommodating space is formed in the inner side of the three-dimensional frame, the bottom plate is connected to the bottom of the three-dimensional frame, the mesh top plate is connected to the top of the three-dimensional frame, the cabinet door is connected to the periphery of the three-dimensional frame, and the door lock is used for locking the three-dimensional frame and the cabinet door;

The supporting wire arranging assembly is connected in the accommodating space and is used for installing equipment in the cabinet and carrying out cable management;

the temperature control assembly comprises a fan and a temperature controller, wherein the fan is connected to the inner side of the mesh top plate and used for driving air to flow, and the temperature controller is connected to the mesh top plate and used for controlling the fan.

2. The mini-network cabinet of claim 1, wherein a wall hanging hanger is further connected to the rear side of the stereoscopic frame.

3. The mini-network cabinet of claim 1, wherein the bottom plate and the mesh top plate are provided with docking holes for connection with the cabinet.

4. The mini-network cabinet of claim 1, wherein the bottom plate and the mesh top plate are provided with routing holes for routing.

5. The mini-network cabinet of claim 1, wherein four of the cabinet doors are hinged to the front, rear, left and right sides of the stereoscopic frame.

6. The mini-network cabinet of claim 1, wherein the cabinet doors are single door doors, both open in a clockwise direction and both close in a counter-clockwise direction.

7. The mini-network cabinet of claim 1, wherein the cabinet door is a closed cabinet door or a mesh cabinet door.

8. The mini-network cabinet of claim 1, wherein the cabinet door is sealingly connected to the stereoscopic frame by a sealing strip.

9. The mini-network cabinet of claim 1, wherein the door lock is a mechanical lock.

10. The mini-network cabinet of claim 1, wherein the support wire management assembly comprises a cross plate, a stand column, a support plate, a wire management frame and a grounding copper bar, wherein the cross plate is connected to the three-dimensional frame, the stand column is adjustably installed on the cross plate, the support plate is connected to the stand column, the support plate is used for installing equipment in the cabinet, the wire management frame is used for conducting cable pipelines, and the grounding copper bar is used for ensuring equipment and personnel safety.