CN112546648A

CN112546648A - Air pressure monitoring system and method

Info

Publication number: CN112546648A
Application number: CN202011569492.8A
Authority: CN
Inventors: 廖富爱
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-05
Filing date: 2019-12-05
Publication date: 2021-03-26
Also published as: CN110917638B; CN110917638A

Abstract

The invention discloses an air pressure monitoring system and a method, the structure of the air pressure monitoring system comprises steps, seats, a screen and a yard, the steps are provided with a plurality of steps and are arranged on two sides of the yard in a symmetrical structure, the screen is positioned right in front of one wall layer in the yard, the position of the screen is fixed, a seat inlet is opposite to the screen, and the seats are arranged between the two steps: utilize outer mechanical force drive movable rod to drive the clamp plate downstream, promote the motion of solid layer for the one end that two fly leafs of push rod are relative opens to the interior upset air cavity of air cavity, and gas enters into a chamber through the outside blowout of air jet, realizes gaseous quantitative injection, and the gas output volume of guarantee air jet is fixed and suitable, ensures the comfort that spectator experienced.

Description

Air pressure monitoring system and method

The application is a divisional application of an air pressure monitoring system of a mobile cinema, which is invented by the application date of 2019, 12 and 5 and has the application number of CN 201911232305.4.

Technical Field

The invention relates to the field of air pressure equipment, in particular to an air pressure monitoring system and an air pressure monitoring method.

Background

Traditional 2D cinema just sets up big screen and watches the film with the naked eye directly perceived, along with people's standard of living's improvement, sees the shadow quality requirement and promotes thereupon, has researched and developed 3D and has seen the shadow mode gradually, but present 3D sees the shadow mode and has not satisfied people's sight shadow demand, consequently researched and developed 4D and seen the shadow mode, and 4D special effects have added vibrations, sense organs such as blowing, and the atmospheric pressure monitoring system of present portable cinema has following defect:

in order to make spectator more directly perceivedly experience film content and establish the 4D cinema, the 4D cinema will shake, fall, blow, the water spray, scratch itch, sweep stunt introduction such as leg, realize spectator can obtain the vision when watching the 4D film, the sense of hearing, sense of touch, all-round impression such as sense of smell, the dynamics of blowing is stirred at random and is produced, the air-out dynamics size of every air outlet is inhomogeneous, dynamics undersize makes spectator can't be keed the experience of experiencing, too big direct impact human body of dynamics is experienced because the dynamics is too strong and is caused human skin to feel painful.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: the air pressure monitoring system structurally comprises steps, seats, a screen and a yard, wherein the steps are arranged on two sides of the yard in a symmetrical structure, the screen is positioned right in front of a wall layer in the yard, the position of the screen is fixed, a seat inlet is opposite to the screen, and the seats are arranged between the two steps;

the seat comprises fixed station, seat, handrail, cushion, air jet system, be equipped with the seat on the fixed station, be equipped with the handrail on the seat, the handrail is installed on the both sides that the seat is relative, seat and handrail fixed connection, the cushion is installed between two handrails on the seat, the mounting height of cushion is less than half of handrail mounting height, air jet system locates on the handrail.

As a further optimization of the invention, the fixed platform comprises a pedal plate, a connecting rod, an annular disc and a supporting rod, wherein the pedal plate is rectangular, two short edges of the pedal plate are arranged in an arc shape, the connecting rod is fixedly connected with the pedal plate, the supporting rod is arranged at the bottom of the cushion, the supporting rod is mechanically connected with the annular disc, the connecting rod is fixedly connected with the seat, and the pedal plate is positioned at the bottom of the seat inlet.

As a further optimization of the invention, the air injection device comprises an air injection port, an air injection channel, air outlet mechanisms, a transmission belt and rollers, wherein the air injection port is communicated with the air injection channel, the air injection channel is connected with the air outlet mechanisms, the air outlet mechanisms are arranged on the transmission belt, the three air outlet mechanisms are distributed at equal intervals, the air outlet mechanisms are connected with the transmission belt, the rollers are arranged in the transmission belt, the number of the rollers is two, and the rollers are in mechanical transmission fit with the transmission belt.

As a further optimization of the invention, the air injection channel consists of a pressing plate, a movable rod and a fixed rod, wherein the pressing plate and the movable rod are mutually and vertically arranged, the movable rod is fixedly connected with the pressing plate, the pressing plate is matched with the air outlet mechanism, the fixed rod is arranged on the inner wall of the top of the air injection channel, the fixed rod is mechanically matched with the movable rod, and the movable rod is connected with an external mechanical force.

As a further optimization of the invention, the air outlet mechanism consists of a solid layer, a push rod, an air cavity, a movable plate, a first cavity, a fixed column and a connecting seat, the solid layer is arranged in the center of the top of the air cavity, the solid layer and the inner wall of the air cavity are in an integrated structure, the solid layer is matched with the pressing plate, the number of the push rods is two, and is arranged in a symmetrical structure, the push rod is vertically welded with the solid layer, the push rod is movably connected with the movable plate, the two movable plates are arranged, the centers of the two movable plates are penetrated and fixed on one end of the fixed column, the opposite ends of the movable plates are embedded, two fixing columns are arranged, the fixing columns are vertically welded with the connecting seat, a movable plate is arranged at one end of each fixing column, which is far away from the connecting seat, the fixed column penetrates through the first cavity, the first cavity is cylindrical, the opening is arranged in a conical shape, and the air cavity is arranged in the first cavity.

Advantageous effects

The invention relates to a gas pressure monitoring system and a method, when receiving an instruction and needing to output gas, under the drive of external mechanical force, a movable rod moves downwards and drives a pressing plate to move downwards along with the pressing plate, so that the pressing plate applies a force to a solid layer to enable the solid layer to move downwards along with the solid layer, a push rod is pushed downwards and applies a force to one end of a movable plate, the movable plate is enabled to turn over towards a gas cavity around a joint of a fixed column, the two movable plates rotate in opposite directions, the gas cavity is enabled to be in an open state, the gas in the gas cavity enters a first cavity and enters a gas injection channel through the first cavity, the gas is ejected outwards through a gas ejection port, a roller rolls to drive a transmission belt to move, a gas injection device is enabled to displace, the next gas cavity with gas stored therein reaches the gas injection channel port, the gas cavity without gas moves to the next position and is filled with gas through the external gas pressure, and the opposite end is a solid layer end, so that the force for driving the movable plate to move reversely to realize resetting is provided, the air cavity is closed again, the air is filled conveniently, and the continuous supply of the air is realized.

Compared with the prior art, the invention has the following advantages:

according to the invention, the movable rod is driven by external mechanical force to drive the pressing plate to move downwards, so that the solid layer is pushed to move, one end of the push rod, which is opposite to the two movable plates, is opened towards the turning air cavity in the air cavity, and air enters the first cavity and is sprayed out through the air nozzle, so that quantitative spraying of the air is realized, the fixed and proper air output quantity of the air nozzle is ensured, and the comfortable feeling of audience experience is ensured.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a system and a method for monitoring air pressure according to the present invention.

Fig. 2 is a top view of a seat with a pressure monitoring system and method of the present invention.

Fig. 3 is a cross-sectional view of a gas injection device of a gas pressure monitoring system and method according to the present invention.

Fig. 4 is a perspective view of an armrest for an air pressure monitoring system and method according to the present invention.

Fig. 5 is a structural diagram of a gas outlet mechanism of a gas pressure monitoring system and method according to the present invention.

Fig. 6 is a structural diagram of the working state of the air outlet mechanism of the air pressure monitoring system and method according to the present invention.

Fig. 7 is a perspective view of an air outlet mechanism of an air pressure monitoring system and method according to the present invention.

In the figure, a ladder-1, a seat-2, a screen-3, a yard-4, a fixed platform-a, a chair-b, an armrest-c, a cushion-d, an air injection device-e, a foot pedal-a 1, a connecting rod-a 2, an annular disc-a 3, a supporting rod-a 4, an air injection port-e 1, an air injection channel-e 2, an air outlet mechanism-e 3, a driving belt-e 4, a roller-e 5, a pressing plate-e 21, a movable rod-e 22, a fixed rod-e 23, a solid layer-e 31, a push rod-e 32, an air cavity-e 33, a movable plate-e 34, a first cavity-e 35, a fixed column-e 36 and a connecting seat-e 37.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Examples

Referring to fig. 1-7, the present invention provides an air pressure monitoring system and method, the structure of which includes a ladder 1, a seat 2, a screen 3, and a yard 4, wherein the ladder 1 is provided with a plurality of symmetrical structures and is disposed on two sides of the yard 4, the screen 3 is located right in front of a wall layer in the yard 4, the position of the screen 3 is fixed, a seat 2 entrance is opposite to the screen 3, and the seat 2 is disposed between the two ladders 1;

seat 2 comprises fixed station an, seat b, handrail c, cushion d, air jet system e, be equipped with seat b on the fixed station a, be equipped with handrail c on the seat b, handrail c installs on the relative both sides of seat b, seat b and handrail c fixed connection, cushion d installs on seat b between two handrail c, the mounting height of cushion d is less than half of handrail c mounting height, air jet system e locates on handrail c.

The fixed station a is composed of a pedal a1, a connecting rod a2, an annular disc a3 and a supporting rod a4, the pedal a1 is rectangular and two short edges are arranged in an arc shape, the connecting rod a2 is fixedly connected with the pedal a1, the supporting rod a4 is installed at the bottom of a seat cushion d, the supporting rod a4 is mechanically connected with the annular disc a3, the connecting rod a2 is fixedly connected with a seat b, the pedal a1 is located at the bottom of a seat 2 entrance, and the supporting rod a4 is arranged to enable the seat b to be displaced according to instructions.

The air injection device e is composed of an air injection port e1, an air injection channel e2, an air outlet mechanism e3, a transmission belt e4 and rollers e5, the air injection port e1 is communicated with the air injection channel e2, the air injection channel e2 is connected with the air outlet mechanism e3, the air outlet mechanisms e3 are mounted on the transmission belt e4, the air outlet mechanisms e3 are three and are distributed at equal intervals, the air outlet mechanism e3 is connected with the transmission belt e4, the rollers e5 are arranged in the transmission belt e4, the rollers e5 are two, the rollers e5 are in mechanical transmission fit with the transmission belt e4, and the air injection channel e2 is arranged to guide air outwards to be sprayed out through the air injection port e1, so that audiences can perceive the air more directly.

The air injection channel e2 is composed of a pressing plate e21, a movable rod e22 and a fixed rod e23, the pressing plate e21 and the movable rod e22 are perpendicular to each other, the movable rod e22 is fixedly connected with the pressing plate e21, the pressing plate e21 is matched with an air outlet mechanism e3, the fixed rod e23 is installed on the inner wall of the top of the air injection channel e2, the fixed rod e23 is mechanically matched with the movable rod e22, the movable rod e22 is connected with an external mechanical force, and under the action of the external mechanical force, the movable rod e22 drives the pressing plate e21 to move up and down to push the air outlet mechanism e3 to start.

The air outlet mechanism e3 comprises a solid layer e31, a push rod e32, an air cavity e33, a movable plate e34, a first cavity e35, two fixed columns e36 and a connecting seat e36, wherein the solid layer e36 is arranged at the center of the top of the air cavity e36, the solid layer e36 and the inner wall of the air cavity e36 are in an integrated structure, the solid layer e36 is matched with the press plate e36, the two push rods e36 are arranged and are in a symmetrical structure, the push rods e36 are vertically welded with the solid layer e36, the push rods e36 are movably connected with the movable plate e36, the two movable plates e36 are arranged and are penetrated through and fixed at one end of the fixed columns e36, the opposite ends of the movable plates e36 are embedded, the two fixed columns e36 are vertically welded with the connecting seat e36, one end of the fixed columns e36, which is far away from the connecting seat e36, the fixed columns e36 penetrates through the first cavity e36, and is in a cylindrical shape, the opening is arranged in a conical shape, the air chamber e33 is arranged in the first chamber e35, the push rod e32 is positioned at one end of the two movable plates e34 opposite to each other, so that the end connected with the push rod e 3526 can turn towards the inside of the air chamber e33 after being stressed, the release of air in the air chamber e33 is realized, and the air chamber e33 is communicated with an external air pressure source.

When a command is received and gas needs to be output, under the driving of an external mechanical force, the movable rod e22 moves downwards and drives the pressing plate e21 to move downwards, so that a force is applied to the solid layer e31 to enable the solid layer e31 to move downwards, the push rod e32 is pushed downwards and applies force to one end of the movable plate e34, the movable plate e34 rotates around the connecting position with the fixed column e36 to turn towards the air cavity e33, the rotating directions of the two movable plates e34 are opposite, the air cavity e33 is in an open state, gas in the air cavity e33 enters the first chamber e35 and enters the air injection channel e2 through the first chamber e35, the air is ejected outwards through the air injection port e1, the roller e5 rolls to drive the e4 to move, the air injection device e is enabled to move, and accordingly the next air cavity e33 storing gas reaches the air injection channel e2 port, the air cavity e33 without gas moves to the next position to be filled with the gas through an external air pressure source, because the opposite ends of the two movable plates e34 are embedded and the opposite ends are solid layer ends, the movable plate e34 is driven to move reversely to realize the reset force, so that the air chamber e33 is closed again, the filling of air is facilitated, and the continuous supply of air is realized.

The invention solves the problems that 4D cinemas are designed for enabling audiences to feel movie contents more intuitively, the 4D cinemas introduce special effects such as vibration, falling, blowing, water spraying, scratching, leg sweeping and the like, the audiences can obtain all-round feelings such as vision, hearing, touch, smell and the like when watching 4D movies, the blowing force is generated by random stirring, the air outlet force of each air outlet is uneven, the audience cannot experience the audience when the force is too small, and the audience cannot feel pain caused by the fact that the force is too strong when people directly rush to the human body due to too large force, through the mutual combination of the above components, the movable rod e22 is driven by external mechanical force to drive the pressing plate e21 to move downwards, the solid layer e31 is pushed to move, so that the opposite ends of the two movable plates e34 of the pushing rod e32 are opened to the air cavity e33 to overturn the air cavity e33, the air enters the first cavity e35 and is sprayed outwards through the air spraying port e1, realize the injection of the ration of gas, guarantee that the gas output volume of gas jet e1 is fixed and suitable, ensure the comfort of spectator's experience.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a pressure monitoring system of portable cinema, its structure includes ladder (1), seat (2), screen (3), yard (4), its characterized in that:

the stairs (1) are provided with a plurality of symmetrical structures and are arranged on two sides of the yard (4), the screen (3) is positioned right in front of one wall layer in the yard (4), the position of the screen (3) is fixed, the seat inlet of the seat (2) is opposite to the screen (3), and the seat (2) is arranged between the two stairs (1);

the seat (2) is composed of a fixed table (a), a seat (b), armrests (c), a cushion (d) and an air injection device (e), wherein the seat (b) is arranged on the fixed table (a), the armrests (c) are arranged on the seat (b), the armrests (c) are arranged on two opposite sides of the seat (b), the seat (b) is fixedly connected with the armrests (c), the cushion (d) is arranged between the two armrests (c) on the seat (b), the installation height of the cushion (d) is lower than half of the installation height of the armrests (c), and the air injection device (e) is arranged on the armrests (c);

the fixed platform (a) is composed of a pedal (a1), a connecting rod (a2), an annular disc (a3) and a supporting rod (a4), the connecting rod (a2) is fixedly connected with the pedal (a1), the supporting rod (a4) is installed at the bottom of the seat cushion (d), the supporting rod (a4) is mechanically connected with the annular disc (a3), and the connecting rod (a2) is fixedly connected with the seat (b).

2. The system and method of claim 1, wherein: the air injection device (e) is composed of an air injection port (e1), an air injection channel (e2), an air outlet mechanism (e3), a transmission belt (e4) and a roller (e5), wherein the air injection port (e1) is communicated with the air injection channel (e2), the air injection channel (e2) is connected with the air outlet mechanism (e3), the air outlet mechanism (e3) is installed on the transmission belt (e4), the air outlet mechanism (e3) is connected with the transmission belt (e4), and the roller (e5) is in mechanical transmission fit with the transmission belt (e 4).

3. The system and method of claim 2, wherein: air injection channel (e2) comprises clamp plate (e21), movable rod (e22), dead lever (e23), movable rod (e22) and clamp plate (e21) fixed connection, clamp plate (e21) cooperatees with mechanism (e3) of giving vent to anger, dead lever (e23) and movable rod (e22) mechanical cooperation.

4. The system and method of claim 2, wherein: the air outlet mechanism (e3) is composed of a solid layer (e31), a push rod (e32), an air cavity (e33), a movable plate (e34), a first cavity (e35), a fixed column (e36) and a connecting seat (e37), wherein the solid layer (e31) is arranged in the center of the top of the air cavity (e33), two push rods (e32) are arranged and are symmetrically arranged, the push rod (e32) is vertically welded with the solid layer (e31), the push rod (e32) is movably connected with the movable plate (e34), one opposite ends of the movable plate (e34) are embedded, two fixed columns (e36) are arranged, the fixed columns (e36) are vertically welded with the connecting seat (e37), the fixed columns (e36) penetrate through the first cavity (e35), and the air cavity (e33) is installed in the first cavity (e 35).

5. A pressure monitoring system and method according to any of claims 1-4, wherein:

when a command is received and gas needs to be output, under the driving of external mechanical force, the movable rod (e22) moves downwards and drives the pressing plate (e21) to move downwards, so that a force is applied to the solid layer (e31) to enable the solid layer (e31) to move downwards, the push rod (e32) is pushed downwards and applies a force to one end of the movable plate (e34), and the movable plate (e34) turns around the connecting position of the fixed column (e36) into the air cavity (e 33);

the rotating directions of the two movable plates (e34) are opposite, so that the air cavity (e33) is in an open state, air in the air cavity (e33) enters the first cavity (e35), enters the air injection channel (e2) through the first cavity (e35) and is injected outwards through the air injection port (e1), and the roller (e5) rolls to drive the driving belt (e4) to move, so that the air injection device (e) is displaced;

the next air cavity (e33) storing air reaches the opening of the air injection channel (e2), the air cavity (e33) without air moves to the next position and is filled with air by an external air pressure source, and the opposite ends of the two movable plates (e34) are embedded, and the opposite end is a solid layer end;

therefore, the force for driving the movable plate (e34) to move reversely to realize the reset is provided, so that the air chamber (e33) is closed again and the filling of the air is facilitated, and the continuous supply of the air is realized.