阅读说明：本技术 一种海底隧道安全防护装置 (Submarine tunnel safety device ) 是由 不公告发明人 于 2020-12-17 设计创作，主要内容包括：本发明公开了一种海底隧道安全防护装置,属于海底隧道技术领域,包括外壳,所述外壳的内部开设有空腔,外壳内安装有底端延伸至空腔的内壳,外壳内壁的下表面安装有填充座,空腔的内部安装有薄膜二,薄膜二下方的空腔内部与填充座之间填充有溶液一,内壳的内部安装有薄膜一,薄膜一上方的内壳中填充有能够与溶液一配合使用产生气体的溶液二,内壳的内部安装有用于刺破薄膜一和薄膜二以使得溶液一和溶液二相互混合的刺破组件；通过设置顶针一和顶针二,溶液一和溶液二混合产生气体进入到气囊内部使其充气后打开,无需其他的人工操作即可起到安全防护,操作方便,结构简单,且在振动过后,替换新的安全防护装置即可,成本低。(The invention discloses a submarine tunnel safety protection device, which belongs to the technical field of submarine tunnels and comprises an outer shell, wherein a cavity is formed in the outer shell, an inner shell of which the bottom end extends to the cavity is arranged in the outer shell, a filling seat is arranged on the lower surface of the inner wall of the outer shell, a film II is arranged in the cavity, a solution I is filled between the cavity below the film II and the filling seat, a film I is arranged in the inner shell, a solution II which can be matched with the solution I to generate gas is filled in the inner shell above the film I, and a puncture assembly for puncturing the film I and the film II to enable the solution I and the solution II to be mixed with each other is arranged in the inner shell; through setting up thimble one and thimble two, solution one and the mixed production gas of solution two enter into the gasbag inside make it inflate the back and open, need not other manual operation and can play safety protection, convenient operation, simple structure, and after the vibration, replace new safety device can, with low costs.)

1. The utility model provides a submarine tunnel safety device which characterized in that: the device comprises an outer shell (10), a cavity is formed in the outer shell (10), an inner shell (30) with the bottom end extending to the cavity is installed in the outer shell (10), a filling seat (20) is installed on the lower surface of the inner wall of the outer shell (10), a second film (102) is installed in the cavity, a first solution is filled between the cavity below the second film (102) and the filling seat (20), a first film (305) is installed in the inner shell (30) above the first film (305), a second solution capable of being matched with the first solution to generate gas is filled in the inner shell (30) above the first film (305), a puncturing assembly used for puncturing the first film (305) and the second film (102) so that the first solution and the second solution can be mixed with each other is installed in the inner shell (30), and a gas outlet (101) communicated with the cavity is formed in the left side face of the outer, an air bag (40) communicated with the air outlet (101) is arranged at the position, facing the air outlet (101), of the left side face of the shell (10), the first solution is a sodium carbonate solution, and the second solution is a hydrogen chloride solution.

2. The subsea tunnel safety guard of claim 1, characterized in that: the puncturing assembly comprises a floating ball (302), a first thimble (301) and a second thimble (303), the first thimble (301) and the second thimble (303) are respectively installed on the upper surface and the lower surface of the floating ball (302), the second thimble (303) penetrates through a through hole (304) formed in the lower surface of the inner shell (30) and extends into the cavity, and a limiting assembly used for limiting the first thimble (301) is installed inside the inner shell (30).

3. The subsea tunnel safety guard of claim 2, characterized in that: the limiting assembly comprises a limiting ring (306), and the first thimble (301) penetrates through the upper part of the limiting ring (306).

4. The subsea tunnel safety guard of claim 3, characterized in that: the outer surface of the first thimble (301) is provided with a spring (307), and two ends of the spring (307) are fixedly connected with the lower surface of the limiting ring (306) and the upper surface of the floating ball (302) respectively.

5. The subsea tunnel safety guard of claim 1, characterized in that: the inner shell and the outer shell are connected through screw threads.

Technical Field

The invention belongs to the technical field of submarine tunnels, and particularly relates to a submarine tunnel safety protection device.

Background

The traffic pipeline engineering for communicating traffic between land is built under the sea bottom at straits, bay, estuary and the like. The submarine tunnel is generally divided into a submarine surface type and a submarine stratum type, and the construction method is different. The submarine tunnel does not obstruct the navigation of the water ship and is not influenced by weather conditions such as strong wind, strong fog and the like. The world famous submarine tunnels comprise Japanese green letter tunnels, English-French strait tunnels and the like, the number of submarine tunnels is increased at present, but because the tunnels are built on the sea or between two banks, tsunami or other fish impacts or waves are easy to occur frequently, the tunnels can generate larger vibration, and certain danger is caused when the tunnels run in the tunnels. Or the tunnel is directly damaged by a large impact and cannot be driven in the tunnel. The detection of the existing equipment has certain hysteresis, so that a driver cannot be informed in time, and the safety needs to be improved.

Disclosure of Invention

The invention aims to provide a submarine tunnel safety protection device, which is used by arranging a floating ball to be matched with a first ejector pin and a second ejector pin, and utilizes the mixture of a first solution and a second solution in the first film and the second film to generate gas to enter an air bag so as to solve the problems in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a submarine tunnel safety device, includes the shell, the cavity has been seted up to the inside of shell, install the inner shell that the bottom extends to the cavity in the shell, the lower surface mounting of shell inner wall has the packing seat, the internally mounted of cavity has film two, it has solution one to fill between the cavity inside of film two below and the packing seat, the internally mounted of inner shell has film one, it has solution two that can use the production gas with solution one cooperation to fill in the inner shell of film one top, the internally mounted of inner shell has and is used for puncturing film one and film two so that the subassembly that punctures of solution one and solution two intermixture, the gas outlet that is linked together with the cavity is seted up to the left surface of shell, the gasbag that is linked together with the gas outlet is installed just to the position of gas outlet to the shell.

As a preferred embodiment, the puncturing assembly comprises a floating ball, a first thimble and a second thimble, the first thimble and the second thimble are respectively mounted on the upper surface and the lower surface of the floating ball, the second thimble penetrates through a through hole formed in the lower surface of the inner shell and extends into the cavity, and a limiting assembly for limiting the first thimble is mounted in the inner shell.

In a preferred embodiment, the position-limiting assembly includes a position-limiting ring, and the first thimble penetrates through the position-limiting ring.

As a preferred embodiment, a spring is arranged on the outer surface of the first thimble, and two ends of the spring are respectively and fixedly connected with the lower surface of the limit ring and the upper surface of the floating ball.

In a preferred embodiment, the inner shell and the outer shell are connected by a screw thread. By rotating the inner shell, the distance between the ejector pin and the thin film can be adjusted, and then the air bag can be adjusted according to actual conditions and can be started according to different vibration levels.

Compared with the prior art, the invention has the beneficial effects that:

this submarine tunnel safety device uses through setting up thimble one and two cooperation gasbags of thimble, utilizes solution one and two mixed production gas of solution to enter into the gasbag inside and make it inflate the back and open, need not other manual operation and can play the effect that the safety protection embodies, convenient operation, simple structure, and after the vibration, replace new safety device can, with low costs.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a cross-sectional view of the housing of FIG. 1;

fig. 3 is an enlarged view of a portion a in fig. 2.

In the figure: 10. a housing; 101. an air outlet; 102. a second film; 20. a filling seat; 30. an inner shell; 301. a first thimble; 302. a floating ball; 303. a second thimble; 304. a through hole; 305. a first film; 306. a limiting ring; 307. a spring; 40. an air bag.

Detailed Description

The present invention will be further described with reference to the following examples.

The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention. The conditions in the embodiments can be further adjusted according to specific conditions, and simple modifications of the method of the present invention based on the concept of the present invention are within the scope of the claimed invention.

Referring to fig. 1-3, the present invention provides a submarine tunnel safety protection device, which includes an outer shell 10, a cavity is formed in the outer shell 10, an inner shell 30 is installed in the outer shell 10, the bottom end of the inner shell extends to the cavity, a filling seat 20 is installed on the lower surface of the inner wall of the outer shell 10, a second film 102 is installed in the cavity, a first solution is filled between the cavity below the second film 102 and the filling seat 20, a first film 305 is installed in the inner shell 30, a second solution capable of generating gas in cooperation with the first solution is filled in the inner shell 30 above the first film 305, a puncturing assembly for puncturing the first film 305 and the second film 102 to mix the first solution and the second solution is installed in the inner shell 30, the puncturing assembly includes a floating ball 302, a first thimble 301 and a second thimble 303, the first thimble 301 and the thimble 303 are respectively installed on the upper surface and the lower surface of the floating ball 302, the thimble 303 passes through a through hole, a limiting component for limiting the first thimble 301 is arranged in the inner shell 30; the first thimble 301 and the second thimble 303 move up and down by utilizing the characteristic that the floating ball 302 moves up and down when vibrated, so that the first thimble 301 and the second thimble 303 can respectively pierce the first film 305 and the second film 102, and the first solution and the second solution can be mixed.

The limiting assembly comprises a limiting ring 306, and the first thimble 301 penetrates through the upper part of the limiting ring 306; the first thimble 301 can be limited by the limiting ring 306, so that the stability of the first thimble 301 during up-and-down movement can be guaranteed.

A spring 307 is arranged on the outer surface of the first thimble 301, and two ends of the spring 307 are respectively fixedly connected with the lower surface of the limiting ring 306 and the upper surface of the floating ball 302; by arranging the spring 307, the reverse acting force generated when the spring 307 is deformed by force acts on the floating ball 302, so that the floating ball 302 is driven to drive the second thimble 303 to move downwards to puncture the second film 102.

An air outlet 101 communicated with the cavity is formed in the left side surface of the shell 10, and an air bag 40 communicated with the air outlet 101 is installed at a position, opposite to the air outlet 101, on the left side surface of the shell 10.

In addition, the solution one is specifically a sodium carbonate solution, and the solution two is specifically a hydrogen chloride solution, and the sodium carbonate solution and the hydrogen chloride solution can react to generate a large amount of gas after being mixed.

When the device is used, the whole device is arranged at the entrance of the tunnel, because the device is used as a tunnel, the middle part has the largest vibration, the vibration at the entrance is relatively small, if the vibration can be detected at the entrance, the vibration is larger, the device is not suitable for continuously running in the tunnel, once the larger vibration occurs, the first thimble 301 moves upwards to puncture the first film 305 and extrude the spring 307 to shrink, at the moment, the solution II in the first film 305 flows downwards to flow through the through hole 304 to enter the second film 102, and when the solution II flows downwards, the second thimble 303 synchronously moves downwards due to the existence of the spring 307 to puncture the second film 102, so that the first solution I and the second solution II can be mixed to generate a large amount of gas, the gas enters the air bag 40 through the gas outlet 101, the air bag 40 can be automatically opened, and the safety protection effect can be achieved without other manual operations, the operation is convenient, after the vibration, the new safety protection device can be replaced, and the cost is low.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.