CN220043865U

CN220043865U - Antidetonation rack with electromagnetic shield function

Info

Publication number: CN220043865U
Application number: CN202321372155.9U
Authority: CN
Inventors: 陈建
Original assignee: Zhongshi Tiancheng Metal Products Kunshan Co ltd
Current assignee: Zhongshi Tiancheng Metal Products Kunshan Co ltd
Priority date: 2023-06-01
Filing date: 2023-06-01
Publication date: 2023-11-17
Anticipated expiration: 2033-06-01

Abstract

The utility model discloses an anti-seismic cabinet with an electromagnetic shielding function, which comprises: the main part subassembly, the main part subassembly is including the cabinet body that sets up, install cabinet door in cabinet body front end, set up and connect the connecting block of cabinet body and cabinet door, install the controller of cabinet door front end, set up the thermovent of cabinet body both sides, set up the shock attenuation case and the fixed connection of cabinet body lower extreme are in the base of shock attenuation case bottom. The adjusting assembly comprises a sliding groove formed in two side walls inside the cabinet body and a clamping plate in sliding connection with the sliding groove. According to the utility model, the main body component and the adjusting component are matched with each other, so that the electromagnetic shielding effect can be improved, the distance between the placing plates can be adjusted according to the size of the electric circuit arranged in the electromagnetic shielding device, the problems of fixed installation distance and waste of cabinet space are solved, the efficiency is improved, and the electromagnetic shielding device is high in practicability and wide in application range.

Description

Antidetonation rack with electromagnetic shield function

Technical Field

The utility model relates to the technical field of anti-seismic cabinets, in particular to an anti-seismic cabinet with an electromagnetic shielding function.

Background

With the gradual deepening of people's understanding of the harm of electromagnetic leakage emission of secret-related information systems, various electromagnetic leakage emission prevention means are adopted in the process of constructing secret-related information networks, including construction of electromagnetic shielding chambers, laying of optical cables and shielding twisted pairs, use of low-radiation equipment, red and black power isolation sockets, shielding cabinets, interference devices and the like. The shielding cabinet has the characteristics of small size, convenient installation and flexible use, is very suitable for being used in occasions where the electromagnetic shielding chamber is not suitable for being installed and the information equipment needs to be protected, has a simple structure and a common electromagnetic shielding effect, and can not adjust the distance between the placing racks when in use, so that the placing racks can not be properly adjusted according to the size of circuit equipment to be installed, the waste of the internal space of the cabinet can be caused, and the cabinet has certain limitation when in use.

Disclosure of Invention

Therefore, the utility model aims to provide the anti-seismic cabinet with the electromagnetic shielding function, the main body component and the adjusting component are mutually matched, so that the electromagnetic shielding effect can be improved, the distance between the placing plates can be adjusted according to the size of the electric circuit installed in the anti-seismic cabinet, the problems of fixed installation distance and waste of cabinet space are solved, the efficiency is improved, the practicability of the anti-seismic cabinet is high, and the application range is wide.

In order to solve the technical problems, according to one aspect of the present utility model, the following technical solutions are provided:

an anti-seismic enclosure with electromagnetic shielding function, comprising: the main body assembly comprises a cabinet body, a cabinet door, a connecting block, a controller, a heat dissipation opening, a handle, a damping box and a base, wherein the cabinet body is arranged at the front end of the cabinet body, the connecting block is arranged and connected with the cabinet body and the cabinet door, the controller is arranged at the front end of the cabinet door, the heat dissipation openings are formed in two sides of the cabinet body, the handle is fixedly connected with one side of the front end of the cabinet door, the damping box is arranged at the lower end of the cabinet body, and the base is fixedly connected with the bottom of the damping box. An adjustment assembly; the adjusting component comprises sliding grooves formed in two side walls inside the cabinet body, clamping plates connected with the sliding grooves in a sliding mode, clamping plates arranged at the tops of the clamping plates, buttons penetrating through the tops of the clamping plates, connecting plates fixedly connected with the buttons, and springs arranged at the bottoms of the connecting plates;

as a preferable scheme of the anti-seismic cabinet with the electromagnetic shielding function, the main body assembly further comprises an electromagnetic outer shielding plate arranged at the outermost side of the cabinet body, an inner shielding plate fixedly bonded with one side of the electromagnetic outer shielding plate, a fixing plate fixedly bonded with one side of the inner shielding plate and a placing plate clamped and connected inside the clamping plate.

As a preferable scheme of the anti-seismic cabinet with the electromagnetic shielding function, the bottom ends of two sides of the cabinet body are respectively provided with the heat dissipation openings, and the cabinet body is movably connected with the cabinet door through the connecting blocks.

As a preferable scheme of the anti-seismic cabinet with the electromagnetic shielding function, the adjusting assembly further comprises a clamping rod arranged at the bottom end of the connecting plate, a movable groove arranged at one side of the clamping plate, a limiting plate penetrating through the inside of the movable groove and a fixing groove arranged at the top end of the sliding groove.

As a preferable scheme of the anti-seismic cabinet with the electromagnetic shielding function, the button penetrates through the top end of the clamping plate and is connected with the connecting plate, and the spring is fixedly connected with the clamping plate.

As a preferable scheme of the anti-seismic cabinet with the electromagnetic shielding function, the damping component comprises a support column arranged at the bottom end of the cabinet body and a damping spring arranged inside the damping box.

As a preferable scheme of the anti-seismic cabinet with the electromagnetic shielding function, a damper is arranged inside the damping spring.

As a preferable scheme of the anti-seismic cabinet with the electromagnetic shielding function, the heat dissipation assembly comprises a protective shell arranged at the top end of the cabinet body, a rotating motor arranged at the top end of the cabinet body, a rotating rod fixedly sleeved with one side of an output shaft of the rotating motor, blades arranged at the top end of the rotating rod and a heat sensor arranged at the top end of the cabinet body.

Compared with the prior art, the utility model has the following beneficial effects: through the main part subassembly and the adjusting part of setting mutually support, can realize promoting electromagnetic shield effect, can adjust the interval of placing between the board according to installing at its inside electric circuit size, solved the installation distance fixed, extravagant cabinet body space problem, promoted efficiency for the device practicality is strong, and application scope is wide.

When the cabinet is specifically used, a user places the lower cabinet body at a place where installation is needed, the bottom end of the cabinet body is connected with the shock absorption box, the base at the bottom of the shock absorption box can provide support for the cabinet body, the handle is pulled to open the cabinet door, the distance between placing plates is adjusted through the size of an electric circuit to be installed, the clamping plates slide to a needed position through the clamping plates sliding in the sliding grooves, the connecting plates inside the clamping plates are pushed to move downwards through the pressing buttons, the reverse thrust force is generated through the springs, the limiting plates inside the movable grooves are arranged on the side walls of the clamping plates, the connecting plates are limited, the clamping rods at the bottom ends of the connecting plates are clamped inside the fixed grooves, the effect of fixing the clamping plates is achieved, the placing plates are clamped in the middle of the clamping plates, the electric circuit is placed at the upper ends of the placing plates, and after installation is completed, the cabinet door is closed.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the following detailed description of the embodiments of the present utility model will be given with reference to the accompanying drawings, which are to be understood as merely some embodiments of the present utility model, and from which other drawings can be obtained by those skilled in the art without inventive faculty. Wherein:

FIG. 1 is a block diagram of a body assembly of the present utility model;

FIG. 2 is a schematic diagram of the present utility model;

FIG. 3 is an expanded view of the utility model at A;

FIG. 4 is a block diagram of an adjustment assembly of the present utility model;

FIG. 5 is a block diagram illustrating the profiling of the conditioning assembly of the present utility model;

FIG. 6 is a block diagram of the deployment at B of the present utility model;

FIG. 7 is a block diagram of another angle of the adjustment assembly of the present utility model.

In the figure: 100. a body assembly; 110. a cabinet body; 120. a handle; 130. a heat radiation port; 140. a base; 150. a connecting block; 160. a damper box; 170. a controller; 180. an electromagnetic outer shield plate; 190. a shielding plate is arranged in the inner part; 1100. a fixing plate; 1200. a cabinet door; 1300. placing a plate; 200. an adjustment assembly; 210. a clamping plate; 220. a clamping plate; 230. a chute; 240. a connecting plate; 250. a spring; 260. a clamping rod; 270. a button; 280. a limiting plate; 290. a movable groove; 2100. a fixing groove; 300. a shock absorbing assembly; 310. a support column; 320. a damping spring; 330. a damper; 400. a heat dissipation assembly; 410. a rotating electric machine; 420. a protective shell; 430. a thermal sensor; 440. a rotating rod; 450. and (3) a blade.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model, but the present utility model may be practiced in other ways other than those described herein, and persons skilled in the art will readily appreciate that the present utility model is not limited to the specific embodiments disclosed below.

In the following detailed description of the embodiments of the present utility model, the cross-sectional view of the device structure is not partially enlarged to a general scale for the convenience of description, and the schematic is merely an example, which should not limit the scope of the present utility model. In addition, the three-dimensional dimensions of length, width and depth should be included in actual fabrication.

For the purpose of making the objects, technical solutions and advantages of the present utility model more apparent, embodiments of the present utility model will be described in further detail below with reference to the accompanying drawings.

The utility model aims to provide an anti-seismic cabinet with an electromagnetic shielding function, which can realize the improvement of electromagnetic shielding effect by mutually matching a main body component and an adjusting component, can adjust the distance between placing plates according to the size of an electric circuit installed in the anti-seismic cabinet, solves the problems of fixed installation distance and waste of cabinet space, and improves the efficiency, so that the anti-seismic cabinet is high in practicability and wide in application range.

Example 1

Fig. 1 to 7 are schematic views showing the overall structure of an embodiment of an anti-seismic enclosure with electromagnetic shielding function according to the present utility model, referring to fig. 1 to 7, a main body portion of the anti-seismic enclosure with electromagnetic shielding function includes: a body assembly 100 and an adjustment assembly 200;

the main body assembly 100 is used for storing and protecting electric circuits, specifically, the main body assembly 100 comprises a cabinet body 110, a cabinet door 1200 installed at the front end of the cabinet body 110, a connecting block 150 arranged to connect the cabinet body 110 and the cabinet door 1200, a controller 170 installed at the front end of the cabinet door 1200, a heat dissipation opening 130 formed at two sides of the cabinet body 110, a handle 120 fixedly connected at one side of the front end of the cabinet door 1200, a shock absorption box 160 arranged at the lower end of the cabinet body 110, and a base 140 fixedly connected at the bottom of the shock absorption box 160, wherein the main body assembly 100 further comprises an electromagnetic outer shielding plate 180 arranged at the outermost side of the cabinet body 110, a built-in shielding plate 190 fixedly bonded with one side of the electromagnetic outer shielding plate 180, a fixing plate 1100 fixedly bonded at one side of the built-in shielding plate 190 and a placing plate 1300 fixedly bonded inside the clamping plate 210. When the cabinet is particularly used, a user places the lower cabinet body 110 at a place where the user needs to install, the bottom end of the cabinet body 110 is connected with the shock absorption box 160, the base 140 at the bottom of the shock absorption box 160 can provide support for the cabinet body 110, and then pulls the handle 120 to open the cabinet door 1200, and after the installation is completed, the cabinet door 1200 is closed.

The adjusting component 200 is used for adjusting the spacing between the placing plates 1300, is suitable for different requirements, reduces the waste of the internal space of the cabinet body 110, and specifically, the adjusting component 200 comprises a chute 230 arranged on two side walls of the interior of the cabinet body 110, a clamping plate 220 in sliding connection with the chute 230, a clamping plate 210 arranged at the top of the clamping plate 220, a button 270 penetrating through the top of the clamping plate 220, a connecting plate 240 fixedly connected with the button 270, a spring 250 arranged at the bottom end of the connecting plate 240, a clamping rod 260 arranged at the bottom end of the connecting plate 240, a movable groove 290 arranged on one side of the clamping plate 220, a limiting plate 280 penetrating through the interior of the movable groove 290 and a fixing groove 2100 arranged at the top end of the chute 230. When the electric circuit board is specifically used, the distance between the placing boards 1300 is adjusted by the size of the electric circuit to be installed, the clamping boards 220 are slid to the required positions by sliding the clamping boards 220 in the sliding grooves 230, the connecting boards 240 in the clamping boards 220 are pushed to move downwards by pressing the buttons 270, the reverse pushing force is exerted by the springs 250, the limiting boards 280 in the movable grooves 290 are formed in the side walls of the clamping boards 220, the connecting boards 240 are limited, the clamping rods 260 at the bottom ends of the connecting boards 240 are clamped in the fixing grooves 2100, the effect of fixing the clamping boards 220 is exerted, the placing boards 1300 are clamped in the middle of the clamping boards 210, and the electric circuit is placed at the upper ends of the placing boards 1300.

Example 2

Referring to fig. 2, this embodiment further includes, on the basis of embodiment 1: shock absorbing assembly 300 and heat dissipating assembly 400;

the damper assembly 300 is used for further improving the stability of the cabinet 110 on the premise that the base 140 supports, and specifically, the damper assembly 300 includes a support column 310 disposed at the bottom end of the cabinet 110, and a damper spring 320 disposed inside the damper box 160, where the damper spring 320 is internally provided with a damper 330. When the shock-absorbing cabinet is specifically used, when the cabinet body 110 vibrates, the shock-absorbing springs 320 arranged in the shock-absorbing box 160 at the bottom of the shock-absorbing cabinet are matched with the damper 330, and when the shock-absorbing cabinet is impacted, the shock-absorbing springs 320 rebound reversely, so that the impact force is removed, and the shock-absorbing effect is achieved.

The heat dissipation assembly 400 is used for dissipating heat of an internal electric circuit of the cabinet 110, and specifically, the heat dissipation assembly 400 includes a protective housing 420 disposed at an internal top end of the cabinet 110, a rotating motor 410 mounted at the internal top end of the cabinet 110, a rotating rod 440 fixedly sleeved with one side of an output shaft of the rotating motor 410, a blade 450 mounted at the top end of the rotating rod 440, and a thermal sensor 430 mounted at the internal top end of the cabinet 110. When the temperature inside the cabinet 110 reaches a certain height, the heat sensor 430 transmits a signal to the controller 170, the controller 170 starts the rotating motor 410, and the rotating motor 410 drives the rotating rod 440 to rotate, so that the blades 450 at the top end of the rotating rod 440 radiate heat to the lower-end electric line, and the protective shell 420 is arranged to protect a user during use, prevent hands from being accidentally injured, and blow hot air is radiated along with the radiating openings 130 arranged at two sides of the cabinet 110.

The utility model has been described, however, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the utility model. In particular, the features of the disclosed embodiments may be combined with each other in any manner as long as there is no structural conflict, and the exhaustive description of these combinations is not given in this specification merely for the sake of omitting the descriptions and saving resources. Therefore, it is intended that the utility model not be limited to the particular embodiment disclosed, but that the utility model will include all embodiments falling within the scope of the appended claims.

Claims

1. An anti-seismic enclosure with electromagnetic shielding function, comprising:

a body assembly (100);

the main body assembly (100) comprises a cabinet body (110), a cabinet door (1200) arranged at the front end of the cabinet body (110), a connecting block (150) arranged and connected with the cabinet body (110) and the cabinet door (1200), a controller (170) arranged at the front end of the cabinet door (1200), heat dissipation ports (130) arranged at two sides of the cabinet body (110), a handle (120) fixedly connected with one side of the front end of the cabinet door (1200), a damping box (160) arranged at the lower end of the cabinet body (110) and a base (140) fixedly connected with the bottom of the damping box (160);

an adjustment assembly (200);

the adjusting assembly (200) comprises sliding grooves (230) formed in two side walls of the interior of the cabinet body (110), clamping plates (220) which are in sliding connection with the sliding grooves (230), clamping plates (210) which are arranged at the top of the clamping plates (220), buttons (270) which penetrate through the top ends of the clamping plates (220), connecting plates (240) which are fixedly connected with the buttons (270) and springs (250) which are arranged at the bottom ends of the connecting plates (240);

a shock absorbing assembly (300);

a heat sink assembly (400).

2. The anti-seismic enclosure with electromagnetic shielding function according to claim 1, wherein the main body assembly (100) further comprises an electromagnetic outer shielding plate (180) arranged at the outermost side of the enclosure body (110), an inner shielding plate (190) fixedly bonded with one side of the electromagnetic outer shielding plate (180), a fixing plate (1100) fixedly bonded with one side of the inner shielding plate (190), and a placing plate (1300) in clamping connection with the inside of the clamping plate (210).

3. The anti-seismic cabinet with the electromagnetic shielding function according to claim 1, wherein the heat dissipation openings (130) are formed in the bottom ends of two sides of the cabinet body (110), and the cabinet body (110) is movably connected with the cabinet door (1200) through the connecting block (150).

4. The anti-seismic cabinet with electromagnetic shielding function according to claim 1, wherein the adjusting assembly (200) further comprises a clamping rod (260) arranged at the bottom end of the connecting plate (240), a movable groove (290) arranged at one side of the clamping plate (220), a limiting plate (280) penetrating through the movable groove (290) and a fixed groove (2100) arranged at the top end of the sliding groove (230).

5. The anti-seismic enclosure with electromagnetic shielding function according to claim 1, wherein the button (270) penetrates through the top end of the clamping plate (220) and is connected to the connecting plate (240), and the spring (250) is fixedly connected to the clamping plate (220).

6. The anti-seismic enclosure with electromagnetic shielding function according to claim 1, wherein the shock absorbing assembly (300) comprises a support column (310) arranged at the bottom end of the enclosure body (110), and a shock absorbing spring (320) arranged inside the shock absorbing box (160).

7. The anti-seismic enclosure with electromagnetic shielding function according to claim 6, wherein a damper (330) is provided inside the damper spring (320).

8. The anti-seismic cabinet with electromagnetic shielding function according to claim 1, wherein the heat dissipation assembly (400) comprises a protective shell (420) arranged at the top end inside the cabinet body (110), a rotating motor (410) arranged at the top end inside the cabinet body (110), a rotating rod (440) fixedly sleeved with one side of an output shaft of the rotating motor (410), a blade (450) arranged at the top end of the rotating rod (440) and a heat sensor (430) arranged at the top end inside the cabinet body (110).