An industrial safety cabinet for monitoring leaks

By introducing a high-strength sealing mechanism and a leak monitoring system into the industrial safety cabinet, the problem of reduced sealing performance caused by deformation of the sealing strip is solved, achieving long-term sealing performance and leak monitoring, and ensuring the safety of chemical storage.

CN224428342UActive Publication Date: 2026-06-30SHANGHAI NAJIU INTELLIGENT TECH CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Utility models(China)
Current Assignee / Owner
SHANGHAI NAJIU INTELLIGENT TECH CO LTD
Filing Date
2025-07-08
Publication Date
2026-06-30

AI Technical Summary

Technical Problem

Existing industrial safety cabinet sealing strips are prone to deformation after prolonged use, leading to a decrease in sealing effectiveness and an inability to effectively prevent chemical leaks.

Method used

It employs a high-strength sealing mechanism, including a sealing strip, a movable groove, a compression plate, and an air pad. The sealing performance is enhanced through the expansion deformation mechanism, and leakage is monitored by combining a gas sensor and a numerical display screen.

Benefits of technology

Even if the sealing strip deforms, it can still maintain good sealing performance, extend service life, improve the safety cabinet's leak-proof capability, and ensure the safety of chemical storage.

✦ Generated by Eureka AI based on patent content.

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  • Figure CN224428342U_ABST
    Figure CN224428342U_ABST
Patent Text Reader

Abstract

This utility model discloses an industrial safety cabinet for monitoring leaks, relating to the field of industrial safety cabinet technology. It includes: a cabinet body, a storage chamber, a high-strength sealing mechanism, and a cabinet door. The storage chamber opening faces forward and is located in the middle section of the cabinet body. Two high-strength sealing mechanisms are provided and vertically connected to both sides of the storage chamber opening. The top of the cabinet door is embedded in the upper interlayer of the cabinet body, and the bottom of the cabinet door slides between the two high-strength sealing mechanisms to close the storage chamber opening. During use, the cabinet door slides down to close the storage chamber. After closure, the sealing strips on both sides of the cabinet door provide initial sealing and positioning. Then, by controlling the operation of the actuating mechanism, the actuating mechanism expands and deforms, acting on the extrusion plate. The extrusion plate acts on the sealing strip along the movable groove, strengthening the seal between the sealing strip and the cabinet door. Even if the sealing strip undergoes irreversible deformation after a period of time, it can still maintain good sealing performance under the extrusion action, thus improving its service life.
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Description

Technical Field

[0001] This utility model relates to the field of industrial safety cabinet technology, and more specifically to an industrial safety cabinet for monitoring leaks. Background Technology

[0002] Industrial safety cabinets are devices used to store various hazardous chemicals. By storing hazardous chemicals in a categorized manner, they prevent explosions or leaks caused by mishandling. In the event of a fire, safety cabinets can slow the spread of an explosion, buying time for personnel to escape. Different colored safety cabinets correspond to different types of chemicals, facilitating quick identification and management and reducing the risk of accidents.

[0003] Existing industrial safety cabinets use a sealing strip structure at the opening of the storage compartment to seal the cabinet door. Over time, the sealing strip is prone to deformation, which affects the sealing effect. Utility Model Content

[0004] Other features and advantages of this invention will be set forth in the description which follows, and will be apparent in part from the description, or may be learned by practicing the invention. The objects and other advantages of this invention may be realized and obtained by means of the structures particularly pointed out in the description and other accompanying drawings.

[0005] The purpose of this invention is to overcome the above-mentioned shortcomings and provide an industrial safety cabinet for monitoring leaks.

[0006] To achieve the above objectives, the technical solution of this utility model is: an industrial safety cabinet for monitoring leaks, comprising: a cabinet body, a storage chamber, a high-strength sealing mechanism, and a cabinet door; the storage chamber opening faces forward and is located in the middle section of the cabinet body; two high-strength sealing mechanisms are provided and are vertically connected to both sides of the storage chamber opening; the top of the cabinet door is embedded in the upper interlayer of the cabinet body, and the bottom of the cabinet door is slidably disposed between the two high-strength sealing mechanisms to close the storage chamber opening;

[0007] The high-strength sealing mechanism includes a sealing strip that slides and seals one side of the cabinet door, a movable groove on the other side of the sealing strip, a pressing plate that slides in the movable groove, and a mechanism that applies pressure to the pressing plate by means of expansion deformation.

[0008] A monitoring mechanism for gas leakage in the storage room is installed in the middle of the cabinet door.

[0009] Preferably, in order to perform inflation deformation, the actuating mechanism is an air cushion, and an electromagnetic valve is provided at the input end of the air cushion, and an electric air pump is connected to the electromagnetic valve.

[0010] Preferably, to improve cushioning performance, the inflatable pad has at least one air chamber.

[0011] Preferably, the air cushion is a vertically arranged strip structure to fit the extrusion plate.

[0012] Preferably, in order to monitor for leakage, the monitoring mechanism includes a numerical display screen located on the front side of the cabinet door and a gas sensor located on the rear side of the cabinet door, with the gas sensor and the numerical display screen connected by wires.

[0013] As a preferred option, a handle is also provided on the front side of the cabinet door for easy opening and closing by staff.

[0014] As a preferred option, in order to further improve the sealing performance, the end face of the sealing strip facing the cabinet door is provided with a positioning groove, and the outside of the cabinet door is provided with a positioning slide that matches the positioning groove.

[0015] As a preferred option, to improve the strength of the connection, the positioning slide strip and the cabinet door are integrally molded.

[0016] The beneficial effects of this utility model are as follows: When in use, the cabinet door is slid down to close the storage chamber. After closing, the sealing strips on both sides of the cabinet door are initially sealed and positioned. Then, by controlling the operation of the actuating mechanism, the actuating mechanism expands and deforms, acting on the extrusion plate. The extrusion plate acts on the sealing strip along the movable groove, strengthening the seal between the sealing strip and the cabinet door. Even if the sealing strip undergoes non-reset deformation after a period of time, it can still maintain good sealing performance under the extrusion action, thus improving its service life. Attached Figure Description

[0017] Figure 1 This is a structural schematic diagram of an industrial safety cabinet for monitoring leaks according to the present invention;

[0018] Figure 2 A frontal sectional view of the connection between the high-strength sealing mechanism and the cabinet door;

[0019] Figure 3 This is a top view cross-sectional diagram of the sealing strip.

[0020] Figure 4 This is a schematic diagram of the mechanism.

[0021] Attached reference numerals: Cabinet - 1, Storage compartment - 2, High-strength sealing mechanism - 3, Cabinet door - 4, Sealing strip - 31, Movable groove - 32, Squeezing plate - 33, Actuating mechanism - 34, Solenoid valve - 341, Electric air pump - 342, Positioning groove - 311, Positioning slide bar - 44, Numerical display screen - 41, Gas sensor - 43, Pull handle - 42. Detailed Implementation

[0022] To make the objectives, technical solutions, and advantages of the embodiments of this utility model clearer, the technical solutions of the embodiments of this utility model will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of this utility model, and not all embodiments. The components of the embodiments of this utility model described and shown in the accompanying drawings can generally be arranged and designed in various different configurations.

[0023] Therefore, the following detailed description of the embodiments of the present invention provided in the accompanying drawings is not intended to limit the scope of the claimed invention, but merely to illustrate selected embodiments of the invention. All other embodiments obtained by those skilled in the art based on the embodiments of the present invention without inventive effort are within the scope of protection of the present invention.

[0024] Please see Figure 1-4 This utility model provides an industrial safety cabinet for monitoring leaks, including: a cabinet body 1, a storage chamber 2, a high-strength sealing mechanism 3, and a cabinet door 4; the storage chamber 2 has an opening facing forward and is located in the middle section of the cabinet body 1; two high-strength sealing mechanisms 3 are provided and are vertically connected to both sides of the opening of the storage chamber 2; the top of the cabinet door 4 is embedded in the upper interlayer of the cabinet body 1, and the bottom of the cabinet door 4 is slidably disposed between the two high-strength sealing mechanisms 3 to close the opening of the storage chamber 2;

[0025] The top outer wall of cabinet 1 is equipped with a control panel for controlling the operation of the high-strength sealing mechanism 3.

[0026] The high-strength sealing mechanism 3 includes a sealing strip 31 that slides and seals one side of the cabinet door 4, a movable groove 32 located on the other side of the sealing strip 31, a pressing plate 33 that slides within the movable groove 32, and an action mechanism 34 that applies pressure to the pressing plate 33 by means of expansion deformation.

[0027] A monitoring mechanism for gas leakage in storage room 2 is installed in the middle of cabinet door 4.

[0028] When in use, the cabinet door 4 is slid down to close the storage chamber 2. After closing, the sealing strips 31 on both sides of the cabinet door 4 are initially sealed and positioned. Then, by controlling the operation of the actuating mechanism 34, the actuating mechanism 34 expands and deforms, acting on the extrusion plate 33. The extrusion plate 33 acts on the sealing strip 31 along the movable groove 32, strengthening the seal between the sealing strip 31 and the cabinet door 4. Even if the sealing strip 31 undergoes non-reset deformation after a period of time, it can still maintain good sealing performance under the extrusion action, thus improving its service life.

[0029] According to some embodiments of this application, optionally, in order to perform inflation deformation, the actuating mechanism 34 is specifically an air cushion, and an electromagnetic valve 341 is provided at the input end of the air cushion. An electric air pump 342 is connected to the electromagnetic valve 341, and the electric air pump 342 has inflation and de-inflation functions.

[0030] When the operating mechanism 34 is in operation, the solenoid valve 341 first opens the input end of the air pad, and the electric air pump 342 fills the air pad with gas through the solenoid valve 341, causing the air pad to expand. After 1-5 seconds of inflation, the solenoid valve 341 closes to prevent the air pad from deflating. When the cabinet door 4 needs to be opened later, the solenoid valve 341 reopens the input end of the air pad, and the electric air pump 342 evacuates the air pad, causing the air pad to shrink back.

[0031] According to some embodiments of this application, optionally, in order to improve cushioning performance, the inflatable pad has at least one air cavity.

[0032] According to some embodiments of this application, optionally, in order to fit the extrusion plate 33, the air cushion is a vertically arranged strip structure.

[0033] According to some embodiments of this application, optionally, in order to monitor leakage, the monitoring mechanism includes a numerical display screen 41 located on the front side of the cabinet door 4 and a gas sensor 43 located on the rear side of the cabinet door 4, with the gas sensor 43 and the numerical display screen 41 connected by a wire.

[0034] According to some embodiments of this application, optionally, in order to facilitate opening and closing by staff, a handle 42 is also provided on the front end face of the cabinet door 4.

[0035] According to some embodiments of this application, optionally, in order to further improve the sealing performance, the end face of the sealing strip 31 facing the cabinet door 4 is provided with a positioning groove 311, and the outer side of the cabinet door 4 is provided with a positioning slide 44 that is adapted to the positioning groove 311.

[0036] According to some embodiments of this application, optionally, in order to improve the strength of the connection, the positioning slide 44 and the cabinet door 4 are integrally formed.

[0037] It should be understood that the embodiments disclosed herein are not limited to the specific processing steps or materials disclosed herein, but should be extended to equivalent substitutions of such features as understood by those skilled in the art. It should also be understood that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting.

[0038] The term "embodiment" in this specification refers to a specific feature or characteristic described in connection with an embodiment that is included in at least one embodiment of the present invention. Therefore, phrases or "embodiments" appearing in various places throughout the specification do not necessarily refer to the same embodiment.

[0039] Furthermore, the described features or characteristics may be incorporated into one or more embodiments in any other suitable manner. In the above description, specific details, such as thickness, quantity, etc., are provided to provide a comprehensive understanding of embodiments of the present invention. However, those skilled in the art will understand that the present invention can be implemented without the aforementioned one or more specific details or may be implemented using other methods, components, materials, etc.

Claims

1. An industrial safety cabinet for monitoring leaks, characterized in that, include: Cabinet (1); Storage room (2), the opening of storage room (2) faces forward and is located in the middle section of cabinet (1); Two high-strength sealing mechanisms (3) are provided and are vertically connected to both sides of the opening of the storage chamber (2); Cabinet door (4), the top of cabinet door (4) is embedded in the upper interlayer of cabinet body (1), and the bottom of cabinet door (4) is slidably located between two high-strength sealing mechanisms (3) to close the opening of storage room (2); The high-strength sealing mechanism (3) includes a sealing strip (31) that slides and seals one side of the cabinet door (4), an active groove (32) located on the other side of the sealing strip (31), a pressing plate (33) that slides in the active groove (32), and an action mechanism (34) that presses the pressing plate (33) in an expansion deformation manner. The cabinet door (4) is equipped with a monitoring mechanism for gas leakage in the storage room (2).

2. An industrial safety cabinet for monitoring leaks according to claim 1, characterized in that, The actuating mechanism (34) is specifically an air cushion, and an electromagnetic valve (341) is provided at the input end of the air cushion. An electric air pump (342) is connected to the electromagnetic valve (341).

3. An industrial safety cabinet for monitoring leaks according to claim 2, wherein, The inflatable pad has at least one air chamber.

4. An industrial safety cabinet for monitoring leaks according to claim 2, wherein, The inflatable cushion is a vertically arranged strip structure.

5. An industrial safety cabinet for monitoring leaks according to claim 1, wherein, The monitoring mechanism includes a numerical display screen (41) located on the front side of the cabinet door (4) and a gas sensor (43) located on the rear side of the cabinet door (4). The gas sensor (43) and the numerical display screen (41) are connected by wires.

6. An industrial safety cabinet for monitoring leaks according to claim 5, wherein, The front end of the cabinet door (4) is also equipped with a handle (42).

7. An industrial safety cabinet for monitoring leaks according to claim 1, wherein, The sealing strip (31) has a positioning groove (311) on the end face facing the cabinet door (4), and a positioning slide (44) that matches the positioning groove (311) is provided on the outside of the cabinet door (4).

8. An industrial safety cabinet for monitoring leaks according to claim 7, wherein, The positioning slide (44) and the cabinet door (4) are integrally formed.