LU600096B1 - Computer network equipment box with heat dissipation function - Google Patents

Abstract

The present invention relates to a computer network equipment box with a heat dissipation function, and the present invention relates to the technical field of heat dissipation of equipment boxes. The computer network equipment box with a heat dissipation function comprises a main body, wherein beams are fixed inside the main body, storage plates are arranged at upper end portions of the beams, a second heat dissipation assembly and a first heat dissipation assembly are arranged from top to bottom on one side of the main body, a third heat dissipation assembly and a fourth heat dissipation assembly are arranged from top to bottom on another side of the main body, the first heat dissipation assembly is fixed with fixed beams, heat dissipation fans are fixed in middle portions of the fixed beams, and filter screens are arranged on both sides of the main body.

Description

DESCRIPTION 600096

COMPUTER NETWORK EQUIPMENT BOX WITH HEAT DISSIPATION

FUNCTION

Technical Field

The present invention relates to the technical field of computer network equipment boxes with heat dissipation functions, in particular to a computer network equipment box with a heat dissipation function.

Background Technology

Network devices and assemblies are physical entities connected to the network.

There are many types of network devices, and the types are increasing day by day.

The basic network devices include: computers (whether they are personal computers or servers), hubs, switches, bridges, routers, gateways, network interface cards (NICs), wireless access points (WAPs), printers and modems, fiber optic transceivers, optical cables, etc. However, the cooling fan filter position of the computer network equipment box on the market is prone to dust accumulation, which can easily reduce the heat dissipation efficiency.

The search revealed that a Chinese patent with application number 201821303414.1 discloses a computer network equipment box with a heat dissipation function, comprising a casing, wherein the side wall of the casing is connected to a door via hinges. Inside the casing, there are symmetrically arranged support plates, and the surface of the support plates is equipped with slots, the inner side of the slots is slidingly connected to mounting plates, which have heat dissipation holes on their surfaces, the upper surface of the casing is equipped with ventilation openings, and above the ventilation openings, there is a top plate, a first cooling fan is fixedly installed at the bottom of the casing, the top of the computer network equipment box with heat dissipation function is equipped with ventilation openings, and a first cooling fan is installed at the bottom of the casing, which utilizes the heat dissipation holes on the surface of the partition for vertical 4600096 ventilation.

However, patents in the prior art have following disadvantages:

The cooling fan of the computer network equipment box with heat dissipation function is not equipped with a filter screen. When the cooling fan is working, the debris in the air may have a safety impact on the operation of the cooling fan. At the same time, it cannot protect personnel from accidentally touching the high-speed rotating cooling fan and causing danger, and it is also impossible to clean and prevent the cooling fan from being blocked.

Summary of the Invention

Technical problems to be solved

In view of the deficiencies in the prior art, the present invention provides a computer network equipment box with a heat dissipation function, which solves the problem that there is no filter screen at the cooling fan position, so that when the cooling fan is working, debris in the air may have a safety impact on the operation of the cooling fan; at the same time, it cannot protect personnel to prevent them from accidentally touching the high-speed rotating cooling fan and causing danger, and it is also impossible to clean and prevent blockage at the cooling fan position.

Technical solutions

In order to realize the above purposes, the present invention is realized by the following technical solutions, comprising a main body, wherein beams are fixed inside the main body, storage plates are arranged at upper end portions of the beams, a second heat dissipation assembly and a first heat dissipation assembly are arranged from top to bottom on one side of the main body, a third heat 7600096 dissipation assembly and a fourth heat dissipation assembly are arranged from top to bottom on another side of the main body, the first heat dissipation assembly is fixed with fixed beams, heat dissipation fans are fixed in middle portions of the fixed beam, and filter screens are arranged on both sides of the main body, the filter screens are respectively arranged corresponding to heat dissipation assemblies, and first fixing plates are fixed on both sides of the filter screens, first motors are fixed through the first fixing plates, screw rods are connected to bottom portions of the first motors, the screw rods are in threaded connection to second fixing plates, second motors are fixed to the second fixing plates, and brush rollers are connected to one side of the second motors.

As a preferable technical solution of the present invention, a transparent door panel is in hinged connection to a front end portion of the main body, and a panel handle is fixed outside the transparent door panel.

As a preferable technical solution of the present invention, a controller is fixed to an inner rear wall of the main body, and the controller is electrically connected to other electrical devices.

As a preferable technical solution of the present invention, a display operator is fixed on an upper portion of the transparent door panel.

As a preferable technical solution of the present invention, LED lights are fixed on both inner sides of the main body, and an internal rear wall of the main body is provided with wire holes which extend through the internal rear wall.

As a preferable technical solution of the present invention, protective shells are arranged around the screw rods and horizontal plates are fixed to upper portions of the brush rollers between the protective shells.

As a preferable technical solution of the present invention, a bottom end portion of the main body is fixed with a support by bolts and bottom portions of the support are provided with spiral support legs by threads.

As a preferable technical solution of the present invention, bottom portions of the screw rods are sleeved with auxiliary support seats via bearings, and the auxiliary support seats are fixed to the main body via bolts.

Beneficial effects

The present invention provides a computer network equipment box with a heat dissipation function, which has following beneficial effects: 1. The computer network equipment box with a heat dissipation function of the present invention can improve the heat dissipation effect of the equipment box by setting several heat dissipation assemblies, and can prevent debris in the air from entering into the equipment box by setting a filter. 2. The computer network equipment box with a heat dissipation function of the present invention is used to clean the filter by setting brush rollers to prevent the filter screens from being blocked after long-term use, thereby affecting the heat dissipation effect. 3. The computer network equipment box with a heat dissipation function of the present invention is used to install storage plates by setting beams inside, and storage plates is used to place network equipment by setting storage plates, and a plurality of holes are set through the storage plates to help the internal air circulation and improve the heat dissipation efficiency.

L

Brief Description of the Drawings 4600096

The accompanying drawings are used to provide a further understanding of the present invention and constitute a part of the specification. Together with the embodiments of the present invention, they are used to explain the present invention and do not constitute a limitation of the present invention.

In the accompanying drawings:

Figure 1 is a schematic diagram of an overall structure of the present invention.

Figure 2 is a schematic diagram of a main structure of the present invention.

Figure 3 is a schematic diagram of a left structure of the present invention.

Figure 4 is a schematic diagram of an internal structure of a cleaning device of the present invention.

The markups in the accompanying drawings are indicated as follows: 1-spiral support leg; 2-support; 3-main body; 4-transparent door panel; 5-panel handle; 6-first heat dissipation assembly;

7-fixed beam: 600096 8-heat dissipation fan; 9-beam; 10-storage plate; 11-display operator; 12-LED light; 13- second heat dissipation assembly; 14-wire hole; 15-protective shell; 16-horizontal plate; 17-brush roller; 18-rectangle hole; 19-filter screen; 20-first motor; 21-first fixing plate;

22-second motor; 0600096 23-second fixing plate; 24-screw rod; 25-auxiliary support seat; 26-controller; 27-third heat dissipation assembly; and 28-fourth heat dissipation assembly.

Specific Embodiments

The following will be combined with the accompanying drawings in the embodiments of the present invention to clearly and completely describe the technical solutions in the embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by ordinary technicians in this field without creative work are within the scope of protection of the present invention.

Please refer to Figures 1 to 4, the present invention provides a technical solution, comprising a main body 3, wherein beams 9 are fixed inside the main body 3, storage plates 10 are arranged at upper end portions of the beams 9, a second heat dissipation assembly 13 and a first heat dissipation assembly 6 are arranged from top to bottom on one side of the main body 3, a third heat dissipation assembly 27 and a fourth heat dissipation assembly 28 are arranged from top to bottom on another side of the main body 3, the first heat dissipation assembly 6 is fixed with fixed beams 7, heat dissipation fans 8 are fixed in middle portions of the fixed beams 7, and filter screens 19 are arranged on both sides of the main body 3, 7600096 the filter screens 19 are respectively arranged corresponding to heat dissipation assemblies, and first fixing plates 21 are fixed on both sides of the filter screens 19, first motors 20 are fixed through the first fixing plates 21, screw rods 24 are connected to bottom portions of the first motors 20, the screw rods 24 are in threaded connection to second fixing plates 23, second motors 22 are fixed to the second fixing plates 23, and brush rollers 17 are connected to one side of the second motors 22.

In a specific embodiment of the present invention, beams 9 are fixed inside the main body 3 for supporting storage plates 10. The storage plates 10 are provided at the upper end portions of the beams 9 for installing network equipment. A second heat dissipation assembly 13 and a first heat dissipation assembly 6 are provided on one side of the main body 3 from top to bottom. The second heat dissipation assembly 13 and the first heat dissipation assembly 6 draw air from the outside to the inside of the equipment box to dissipate heat for the equipment. A third heat dissipation assembly 27 and a fourth heat dissipation assembly 28 are provided on another side of the main body 3 from top to bottom. The third heat dissipation assembly 27 and the fourth heat dissipation assembly 28 blow air from the inside of the equipment to the outside to discharge the hot air inside the equipment box to the outside, thereby achieving heat dissipation of the equipment in the equipment box. Fixed beams 7 are fixed to the first heat dissipation assembly 6 for installing heat dissipation fans 8. The heat dissipation fans 8 are fixed in the middle of the fixed beams 7 to accelerate the exchange of air inside and outside the equipment.

Filter screens 19 are provided on both sides of the main body 3 to prevent debris in the air from affecting the operation of the cooling fan 8, the filter screens 19 are respectively arranged corresponding to the heat dissipation assemblies, and first fixing plates 21 are fixed on both sides of the filter screens 19 for installing the first motors 20. The first fixing plates 21 penetrate and fix the first motors 20 to provide driving force for the rotation of the screw rods 24. The bottom portions of the first motor 20 are connected with the screw rods 24 to realize the up and down 7600096 movement of the second fixing plate 23. The screw rods 24 are in threaded connection with the second fixing plates 23 for installing the second motors 22. The second fixing plates 23 are fixed with the second motors 22 for driving the brush rollers 17 to rotate. The brush rollers 17 are connected to one side of the second motors 22 for cleaning dust and debris attached to the filter screens 19 to prevent the filter screens 19 from being blocked. When the brush rollers 17 clean the filter screens 19 from dust, the heat dissipation assemblies blow air outside the equipment box to prevent dust from entering into the equipment box.

Specifically, a transparent door panel 4 is in hinged connection to a front end portion of the main body 3, and outside the panel handle 4 is fixed a panel handle 5.

In order to facilitate personnel to observe the operating status of the equipment, as shown in Figure 1, the front end portion of the main body 3 is hinged with a transparent door panel 4, which is convenient for personnel to observe the operating status of the equipment, and outside the transparent door panel 4 is fixed a panel handle 5, which is convenient for personnel to open and close the transparent door panel 4.

Specifically, a controller 26 is fixed to an inner rear wall of the main body 3, and the controller 26 is electrically connected to other electrical devices.

In order to solve the problem of device control, as shown in Figure 2, the internal rear wall of the main body 3 is fixed with a controller 26, which is electrically connected with other electrical devices and controls other devices.

Specifically, a display operator 11 is fixed on an upper portion of the transparent door panel 4.

In order to solve the problem of device operation data display and personnel operation, as shown in Figure 1, the display operator 11 is fixed on the upper portion of the transparent door panel 4, which is used to display device operation data and facilitate personnel to operate the device.

Specifically, LED lights 12 are fixed on both inner sides of the main body 3, and an internal rear wall of the main body 3 is provided with wire holes 14 which extend through the internal rear wall.

In order to solve the problem of internal lighting of the equipment box and the connection between the line and the outside, as shown in Figure 1, LED lights 12 are fixed on both sides of the main body 3 to realize the internal lighting of the equipment box, and wire holes 14 are arranged through the internal rear wall of the main body 3 for the access line of the internal equipment to communicate with the outside.

Specifically, protective shells 15 are arranged around the screw rods 24 and horizontal plates 16 are fixed to upper portions of the brush rollers 17 between the protective shells 15.

In order to solve the problem of screw operation protection, as shown in Figure 1, screw rods 24 are provided with protective shells 15, which is used to protect screw rods 24 and other devices. The upper portions of the brush rollers 17 between the protective shells 15 are fixed with horizontal plates 16 to shield brush rollers 17.

Specifically, a bottom end portion of the main body is fixed with a support 2 by bolts and bottom portions of the support are provided with spiral support legs 1 by threads.

In order to solve the problem that the equipment box can be placed on the uneven 7600096 ground, as shown in Figure 1, the bottom end portion of the main body 3 is fixed with support 2, which is used to connect the spiral support legs 1, and the spiral support legs 1 are arranged at the bottom portions of support 2. By rotating the spiral support legs 1, the equipment box can be placed on the uneven ground.

Specifically, bottom portions of the screw rods 24 are sleeved with auxiliary support seats 25 via bearings, and the auxiliary support seats 25 are fixed to the main body 3 via bolts.

In order to solve the problem of improving the stability of the screw, as shown in

Figure 4, bottom portions of the screw rods 24 are sleeved with auxiliary support seats 25 via bearings, and the auxiliary support seats 25 are fixed to the main body 3 via bolts, so as to improve the operation stability of the screw rods 24.

Detailed descriptions of known functions and known components are omitted in the embodiments of the present disclosure. In order to ensure the compatibility of the device, the operating means adopted are consistent with the parameters of the devices on the market.

In summary, the working principle and application process of the present invention are as follows: beams 9 are fixed inside the main body 3 for supporting storage plates 10. The storage plates 10 are provided at the upper end portions of the beams 9 for installing network equipment. A second heat dissipation assembly 13 and a first heat dissipation assembly 6 are provided on one side of the main body 3 from top to bottom. The second heat dissipation assembly 13 and the first heat dissipation assembly 6 draw air from the outside to the inside of the equipment box to dissipate heat for the equipment. A third heat dissipation assembly 27 and a fourth heat dissipation assembly 28 are provided on another side of the main body 3 from top to bottom. The third heat dissipation assembly 27 and the fourth heat dissipation assembly 28 blow air from the inside of the equipment to the outside to 7600096 discharge the hot air inside the equipment box to the outside, thereby achieving heat dissipation of the equipment in the equipment box.

Fixed beams 7 are fixed to the first heat dissipation assembly 6 for installing heat dissipation fans 8. The heat dissipation fans 8 are fixed in the middle of the fixed beams 7 to accelerate the exchange of air inside and outside the equipment.

Filter screens 19 are provided on both sides of the main body 3 to prevent debris in the air from affecting the operation of the cooling fan 8, the filter screens 19 are respectively arranged corresponding to the heat dissipation assemblies, and first fixing plates 21 are fixed on both sides of the filter screens 19 for installing the first motors 20. The first fixing plates 21 penetrate and fix the first motors 20 to provide driving force for the rotation of the screw rods 24. The bottom portions of the first motor 20 are connected with the screw rods 24 to realize the up and down movement of the second fixing plate 23. The screw rods 24 are in threaded connection with the second fixing plates 23 for installing the second motors 22. The second fixing plates 23 are fixed with the second motors 22 for driving the brush rollers 17 to rotate.

The brush rollers 17 are connected to one side of the second motors 22 for cleaning dust and debris attached to the filter screens 19 to prevent the filter screens 19 from being blocked.

When the brush rollers 17 clean the filter screens 19 from dust, the heat dissipation assemblies blow air outside the equipment box to prevent dust from entering into the equipment box. the front end portion of the main body 3 is hinged with a transparent door panel 4, which is convenient for personnel to observe the operating status of the equipment, and the outside of the transparent door panel 4 is fixed a panel handle 5, which is convenient for personnel to open and close the transparent door panel 4. A controller 26 is fixed to an inner rear wall of the main body 3, and the controller 26 is electrically connected to other electrical devices, so as to control other devices.

A display operator 11 is fixed on an upper portion of the transparent door panel 4, which is used to display device operation data and facilitate personnel to operate the device.

LED lights 12 are fixed on both inner sides of the main body 3, and an internal rear wall of the main body 3 is provided with wire holes 14 which extend through the internal rear wall and are 7600096 used for internal device access lines to communicate with external devices. Screw rods 24 are provided with protective shells 15, which is used to protect screw rods 24 and other devices. The upper portions of the brush rollers 17 between the protective shells 15 are fixed with horizontal plates 16 to shield brush rollers 17.

The bottom end portion of the main body 3 is fixed with support 2, which is used to connect the spiral support legs 1, and the spiral support legs 1 are arranged at the bottom portions of support 2. By rotating the spiral support legs 1, the equipment box can be placed on the uneven ground. Bottom portions of the screw rods 24 are sleeved with auxiliary support seats 25 via bearings, and the auxiliary support seats are fixed to the main body 3 via bolts, so as to improve the operation stability of the screw rods 24.

Although embodiments of the present invention have been shown and described, it is understandable to a person of ordinary skill in the art that these embodiments may be varied, modified, replaced, and modified in a variety of ways without deviating from the principle and spirit of the invention, and that the scope of the invention is limited by the attached claims and their equivalents.

Claims (8)

CLAIMS LU600096

1. A computer network equipment box with a heat dissipation function, comprising a main body (3), wherein beams (9) are fixed inside the main body (3), storage plates (10) are arranged at upper end portions of the beams (9), a second heat dissipation assembly (13) and a first heat dissipation assembly (6) are arranged from top to bottom on one side of the main body (3), a third heat dissipation assembly (27) and a fourth heat dissipation assembly (28) are arranged from top to bottom on another side of the main body (3), the first heat dissipation assembly (6) is fixed with fixed beams (7), heat dissipation fans (8) are fixed in middle portions of the fixed beams (7), and filter screens (19) are arranged on both sides of the main body (3), the filter screens (19) are respectively arranged corresponding to heat dissipation assemblies, and first fixing plates (21) are fixed on both sides of the filter screens (19), first motors (20) are fixed through the first fixing plates (21), screw rods (24) are connected to bottom portions of the first motors (20), the screw rods (24) are in threaded connection to second fixing plates (23), second motors (22) are fixed to the second fixing plates (23), and brush rollers (17) are connected to one side of the second motors (22).

2. The computer network equipment box with a heat dissipation function according to claim 1, wherein a transparent door panel (4) is in hinged connection to a front end portion of the main body (3), and a panel handle (5) is fixed outside the transparent door panel (4).

3. The computer network equipment box with a heat dissipation function according to claim 2, wherein a controller (26) is fixed to an inner rear wall of the main body (3), and the controller (26) is electrically connected to other electrical devices.

4. The computer network equipment box with a heat dissipation function according

. . . Co ; L to claim 3, wherein a display operator (11) is fixed on an upper portion of the 4600096 transparent door panel (4).

5. The computer network equipment box with a heat dissipation function according to claim 4, wherein LED lights (12) are fixed on both inner sides of the main body (3), and an internal rear wall of the main body (3) is provided with wire holes (14) which extend through the internal rear wall.

6. The computer network equipment box with a heat dissipation function according to claim 5, wherein protective shells (15) are arranged around the screw rods (24) and horizontal plates (16) are fixed to upper portions of the brush rollers (17) between the protective shells (15).

7. The computer network equipment box with a heat dissipation function according to claim 6, wherein a bottom end portion of the main body (3) is fixed with a support (2) by bolts and bottom portions of the support (2) are provided with spiral support legs (1) by threads.

8. The computer network equipment box with a heat dissipation function according to claim 7, wherein bottom portions of the screw rods (24) are sleeved with auxiliary support seats (25) via bearings, and the auxiliary support seats (25) are fixed to the main body (3) via bolts.