CN113738177A - Rapid building and withdrawing device and building method - Google Patents

Abstract

The invention provides a quick building and withdrawing device which comprises two groups of spliced structural bodies, wherein end walls are arranged at the outer ends of the structural bodies, floor mats are laid below the structural bodies, the structural bodies and the end walls are inflatable, inflation ports, pressure relief ports and pressure measurement ports are arranged on the structural bodies and the end walls, the inflation ports are movably communicated with an inflation mechanism, the pressure measurement ports are communicated with a pressure gauge, and pressure relief valves are arranged on the pressure relief ports. The inflatable tent has the advantages of quick and simple construction and withdrawal operation, and can be prevented from collapsing when a small gap is punctured in the face of the tent.

Description

Rapid building and withdrawing device and building method

Technical Field

The invention relates to the technical field of inflatable tents, in particular to a quick building and withdrawing device and a building method.

Background

The existing tent is generally made of a retractable support and canvas or waterproof cloth, is very inconvenient to carry, transport and install, and needs to install fixing piles around the tent, so that a large amount of time is needed during construction. Therefore, some inflatable tents appear at present, but the existing inflatable tents are troublesome to erect and retract when in use, complicated in process, complex in structure and difficult to unfold or fold, and the inflatable tents are easy to puncture and leak when meeting sharp objects, so that the whole tent collapses quickly, and the use safety and the stability are low.

Disclosure of Invention

In view of the above, the invention provides a quick building and withdrawing device and a building method thereof, so that the inflatable tent has the advantages of quick and simple building and withdrawing operation, and the tent can be prevented from collapsing when a small gap is punctured in the face of the tent.

In order to solve the technical problem, the invention provides a quick building and withdrawing device which comprises two groups of spliced structural main bodies, wherein an end wall is arranged at the outer end of each structural main body, a ground mat is laid below each structural main body, the structural main bodies and the end walls are inflatable, an inflation inlet, a pressure relief inlet and a pressure measurement inlet are arranged on each structural main body and each end wall, the inflation inlet is movably communicated with an inflation mechanism, the pressure measurement inlet is communicated with a pressure gauge, and a pressure relief valve is arranged on each pressure relief inlet.

Furthermore, the vertical section of the structure main body is in a semi-annular shape, and the end wall is a fan-shaped mechanism matched with the structure main body.

Furthermore, an end door is arranged at the lower part of the center of the end wall, a flue is arranged on the end wall above the end door, and ventilation windows are arranged on the end wall on two sides of the end door.

Furthermore, the inflation inlet is communicated with the servo air pump through an inflation pipeline.

Furthermore, the surface of the inner side of the structure main body is provided with a plurality of rows of triangular rings, and the triangular rings are used for fixing a ceiling lamp or a power transmission line.

Furthermore, the structure main body is provided with a warm air port, the inner side surface of the warm air port is provided with a fireproof layer, and the warm air port is movably communicated with the warm air blower.

Furthermore, curtains are arranged at the splicing positions of the two groups of structure main bodies, and an inlet and an outlet are arranged in the middle of the curtains.

Furthermore, the pressure release valve, the pressure gauge, the servo air pump and the fan heater are all electrically connected with the controller.

Furthermore, the outside of main structure body and headwall sets up the sand bag on the ground mat, the main structure body and the headwall outside set up the counter weight rope body, the tip and the sand bag of counter weight rope body are connected, the counter weight rope body is in the state of tightening.

The building method for quickly building the receiving and withdrawing device comprises the following steps:

(1) firstly, cleaning and calibrating a field, and designating the position of an air-supported inflatable tent;

(2) transferring all the combined units of the air-supported inflatable tent to the erection position and arranging in sequence; then, the combined units are interconnected and fixed by utilizing the connecting structures on the combined units to finish the laying;

(3) after the connection of each combined unit is finished, the pressure measuring port is communicated with the pressure gauge, and the inflation port is communicated with the servo air pump;

(4) switching on a power supply, setting pressure parameters on a controller, starting a servo air pump to inflate and continue each air chamber of the air-supported inflatable tent, and detecting the pressure of an air wall in real time through a pressure gauge;

(5) after the inflation is finished, pressing the sand bag on the outer edge of the skirt floor mat of the air-supported inflatable tent, if a mooring fixing device needs to be arranged, firstly piling at a specified position, and fixing the air-supported inflatable tent on a ground pile by using a mooring cable;

(6) and manually opening the end door to transfer the target object to the interior of the air-supported inflatable tent.

The withdrawing method for quickly building the withdrawing device comprises the following steps:

(1) opening an end door of the air-supported inflatable tent, and transferring the internal objects out of the air-supported inflatable tent;

(2) after the articles in the air-supported inflatable tent are transferred, closing the end door, removing the inflation pipeline of each air wall of the air-supported inflatable tent, and naturally exhausting;

(3) after the pressure of each air chamber is reduced to the standard atmospheric pressure, connecting the inflation pipeline with each combined unit of the air-supported inflatable tent again, starting the air pump and modulating to an air suction working mode, carrying out manual exhaust until each air chamber has no residual air, removing the interface of the airflow pipeline, and sealing the air chamber by using the valve cover of the pipe orifice;

(4) removing the detection pipeline and the fixing device of the air-supported inflatable tent;

(5) and disassembling each combined unit of the air-supported inflatable tent into independent structural units, and curling and packing the independent structural units one by one.

The technical scheme of the invention has the following beneficial effects:

the device comprises a structure main body and two end walls, namely four combined units, wherein the four combined units are connected and then inflated when being built, and the four combined units are deflated and then detached when being detached, so that the building process and the detaching process are very simple.

In addition, after the inflatable tent is built, the inflation inlet is continuously connected with the servo air pump, the servo air pump can continuously and slowly inflate the air chambers of the combined units, so that the tent is not required to be worried that fine cracks exist to cause support collapse, and the small cracks are convenient to find and directly repair.

Drawings

FIG. 1 is a front view of the quick setting up and setting down device of the present invention;

FIG. 2 is a side view of the quick set up and retrieval device of the present invention;

FIG. 3 is a schematic view of the structure of the inflation port, the pressure relief port and the pressure measurement port of the present invention.

1. A structural body; 2. a flue; 3. an end wall; 4. a ventilation window; 5. a counterweight rope body; 6. a sand bag; 7. a floor mat; 8. an end door; 9. a warm air port; 10. an inflation inlet; 11. an inflation pipeline; 12. a servo air pump; 13. a pressure relief port; 14. a pressure relief valve; 15. a pressure measuring port; 16. and a pressure gauge.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to fig. 1 to 3 of the embodiments of the present invention. It is to be understood that the embodiments described are only a few embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the described embodiments of the invention, are within the scope of the invention.

Example one

As shown in fig. 1-3:

the utility model provides a build fast and remove receiving device, includes the main structure 1 of two sets of concatenations, the outer end of main structure 1 sets up headwall 3, ground mat 7 is laid to main structure 1's below, main structure 1 and headwall 3 are the inflatable, all set up inflation inlet 10, pressure release mouth 13 and pressure measurement mouth 15 on main structure 1 and the headwall 3, inflation inlet 10 and the movable intercommunication of inflation mechanism, pressure measurement mouth 15 and manometer 16 intercommunication, set up relief valve 14 on the pressure release mouth 13. The number of the structural bodies 1 is two, but may be plural and more than two, and in the case of plural, the end of the structural body 1 located in the middle is not provided with the end wall 3. The outer end of the structure body 1 is spliced to form the end wall 3 after being spliced, and the tent can be supported by directly inflating after the splicing. The structure main body 1 and the end wall 3 are all combined units which are not communicated, four sets of servo air pumps 12 are needed to be arranged corresponding to the four combined units, the controller acquires air pressure information in each combined unit through the monitoring pressure gauge 16, the working state of the servo air pumps 12 is controlled, and the pressure release valve 14 can be controlled to exhaust air when the air pressure is too large or needs to be released.

The vertical section of the structure main body 1 is semi-annular, the end wall 3 is a fan-shaped mechanism matched with the structure main body 1, the main structure of the tent is semicircular, the main structures are a top plate and a side plate of the tent, and the two main structures can be properly heightened. The structure of the end wall 3 is matched with the two ends of the main structure.

An end door 8 is arranged at the lower portion of the center of the end wall 3, a flue 2 is arranged on the end wall 3 above the end door 8, ventilation windows 4 are arranged on the end wall 3 on two sides of the end door 8, and the inflation inlet 10 is communicated with a servo air pump 12 through an inflation pipeline 11. The structure body 1 is characterized in that a plurality of rows of triangular rings are arranged on the inner side surface of the structure body 1, and the triangular rings are used for fixing a ceiling lamp or a power transmission line. When the end doors 8 are closed, little natural light can enter the interior of the air-supported inflatable tent. Therefore, an artificial lighting system is required to be added to meet the actual use requirement. Fluorescent lamps are used as internal illumination light sources. The number of fluorescent lamps can be determined according to the actual brightness of the interior. The fluorescent lamp can be hung on the triangular ring, and the wiring of the electric wire can pass through the triangular ring.

The structure is characterized in that a warm air port 9 is formed in the structure body 1, a fireproof layer is arranged on the inner side face of the warm air port 9, and the warm air port 9 is movably communicated with a warm air blower. The warm air blower is a combined unit formed by combining a ventilator, a motor and an air heater, and the temperature of the air supplied on duty is not lower than 35 ℃ and not higher than 55 ℃. The fireproof layer on the inner side of the warm air opening 9 plays a role in heat insulation, and the warm air opening 9 with the highest heat is prevented from scalding the tent material to deform.

Curtains are arranged at the splicing positions of the two groups of structure bodies 1, and an inlet and an outlet are arranged in the middle of the curtains. Make things convenient for the tent to divide regional operation official working and use, air-supported inflatable tent divide into 2 groups, is provided with perpendicular curtain in the middle of 2 groups, and it has the access & exit to make things convenient for personnel to communicate each other to open in the middle of the curtain, and air-supported inflatable tent divides the regional convenient operation official working, rest and use.

According to one embodiment of the present invention, as shown in figure 3,

the pressure release valve 14, the pressure gauge 16, the servo air pump 12 and the fan heater are all electrically connected with the controller, the mechanisms are electrically connected with the controller, and various threshold values can be set in the controller, so that automatic monitoring operation can be realized after the tent is supported.

According to one embodiment of the present invention, as shown in figures 1 and 2,

the outside of main structure body 1 and headwall 3 sets up sand bag 6 on ground mat 7, the outside of main structure body 1 and headwall 3 sets up counter weight rope body 5, the tip and the sand bag 6 of counter weight rope body 5 are connected, counter weight rope body 5 is in the state of tightening. The sandbag 6 is filled with 500kg of sand, the sandbag 6 is placed on the ground mat 7 on the periphery of the tent main body, and is connected with the structural main body 1 and the end wall 3 through the tightening of the counterweight rope body 5, so that the tent is fixed.

In one embodiment of the present invention,

the building method for quickly building the receiving and withdrawing device comprises the following steps:

(1) firstly, cleaning and calibrating a field, and designating the position of an air-supported inflatable tent;

(2) transferring all the combined units of the air-supported inflatable tent to the erection position and arranging in sequence; then, the combined units are interconnected and fixed by utilizing the connecting structures on the combined units to finish the laying;

(3) after the connection of each combined unit is finished, the pressure measuring port is communicated with the pressure gauge, and the inflation port is communicated with the servo air pump;

(4) switching on a power supply, setting pressure parameters on a controller, starting a servo air pump to inflate and continue each air chamber of the air-supported inflatable tent, and detecting the pressure of an air wall in real time through a pressure gauge;

(5) after the inflation is finished, pressing the sand bag on the outer edge of the skirt floor mat of the air-supported inflatable tent, if a mooring fixing device needs to be arranged, firstly piling at a specified position, and fixing the air-supported inflatable tent on a ground pile by using a mooring cable;

(6) and manually opening the end door to transfer the target object to the interior of the air-supported inflatable tent.

In one embodiment of the present invention,

the withdrawing method for quickly building the withdrawing device comprises the following steps:

(1) opening an end door of the air-supported inflatable tent, and transferring the internal objects out of the air-supported inflatable tent;

(2) after the articles in the air-supported inflatable tent are transferred, closing the end door, removing the inflation pipeline of each air wall of the air-supported inflatable tent, and naturally exhausting;

(3) after the pressure of each air chamber is reduced to the standard atmospheric pressure, connecting the inflation pipeline with each combined unit of the air-supported inflatable tent again, starting the air pump and modulating to an air suction working mode, carrying out manual exhaust until each air chamber has no residual air, removing the interface of the airflow pipeline, and sealing the air chamber by using the valve cover of the pipe orifice;

(4) removing the detection pipeline and the fixing device of the air-supported inflatable tent;

(5) and disassembling each combined unit of the air-supported inflatable tent into independent structural units, and curling and packing the independent structural units one by one.

In the present invention, unless otherwise explicitly specified or limited, for example, it may be fixedly attached, detachably attached, or integrated; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

While the foregoing is directed to the preferred embodiment of the present invention, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. The utility model provides a set up fast and remove receiving device which characterized in that: the utility model provides a floor mat, including the main structure body (1) of two sets of concatenations, the outer end of main structure body (1) sets up headwall (3), ground mat (7) are laid to the below of main structure body (1), main structure body (1) and headwall (3) are the inflatable, all set up inflation inlet (10), pressure release mouth (13) and pressure measurement mouth (15) on main structure body (1) and headwall (3), inflation inlet (10) and the movable intercommunication of inflation mechanism, pressure measurement mouth (15) and manometer (16) intercommunication, set up relief valve (14) on pressure release mouth (13).

2. The quick setting up and setting down device of claim 1, wherein: the vertical section of the structure main body (1) is semi-annular, and the end wall (3) is a fan-shaped mechanism matched with the structure main body (1).

3. The quick-set up and tear-down device of claim 2, wherein: the lower part of the center of the end wall (3) is provided with an end door (8), a flue (2) is arranged above the end door (8) on the end wall (3), and two sides of the end door (8) are provided with ventilation windows (4) on the end wall (3).

4. A quick-build and take-up device according to claim 3, wherein: the inflation inlet (10) is communicated with the servo air pump (12) through an inflation pipeline (11).

5. The quick setting up and setting down device of claim 4, wherein: the inner side surface of the structure main body (1) is provided with a plurality of rows of triangular rings, and the triangular rings are used for fixing a ceiling lamp or a power transmission line.

6. The quick setting up and setting down device of claim 5, wherein: the structure is characterized in that a warm air port (9) is formed in the structure body (1), a fireproof layer is arranged on the inner side face of the warm air port (9), and the warm air port (9) is movably communicated with a warm air blower.

7. The quick setting up and setting down device of claim 6, wherein: curtains are arranged at the splicing positions of the two groups of structure bodies (1), and an inlet and an outlet are arranged in the middle of the curtains.

8. The quick setting up and setting down device of claim 7, wherein: the pressure release valve (14), the pressure gauge (16), the servo air pump (12) and the fan heater are all electrically connected with the controller.

9. A building method for rapidly building a receiving and withdrawing device based on any one of the claims 1 to 8, which is characterized in that: the method comprises the following steps:

(1) firstly, cleaning and calibrating a field, and designating the position of an air-supported inflatable tent;

(2) transferring all the combined units of the air-supported inflatable tent to the erection position and arranging in sequence; then, the combined units are interconnected and fixed by utilizing the connecting structures on the combined units to finish the laying;

(3) after the connection of each combined unit is finished, the pressure measuring port (15) is communicated with a pressure gauge (16), and the inflation port (10) is communicated with a servo air pump (12);

(4) switching on a power supply, setting pressure parameters on a controller, starting a servo air pump (12) to inflate and continue each air chamber of the air-supported inflatable tent, and detecting the pressure of an air wall in real time through a pressure gauge (16);

(5) after the inflation is finished, pressing the sand bag (6) on the outer edge of the skirt ground mat (7) of the air-supported inflatable tent, if a mooring fixing device needs to be arranged, firstly piling at a specified position, and fixing the air-supported inflatable tent on the ground pile by using a mooring cable;

(6) the end door (8) is manually opened to transfer the target object to the interior of the air-supported inflatable tent.

10. A withdrawing method for quickly building a withdrawing device based on any one of the claims 1 to 8, which is characterized in that: the method comprises the following steps:

(1) opening an end door (8) of the air-supported inflatable tent, and transferring the internal objects out of the air-supported inflatable tent;

(2) after the articles in the air-supported inflatable tent are transferred, closing the end door (8), removing the inflation pipelines (11) of each air wall of the air-supported inflatable tent, and naturally exhausting;

(3) after the pressure of each air chamber is reduced to the standard atmospheric pressure, the air charging pipeline (11) is connected with each combined unit of the air-supported inflatable tent again, the air pump is started and modulated to an air suction working mode, after manual air discharging is carried out until no residual air exists in each air chamber, the interface of the air flow pipeline is removed, and the air flow pipeline is closed by using the valve cover of the pipe orifice;

(4) removing the detection pipeline and the fixing device of the air-supported inflatable tent;

(5) and disassembling each combined unit of the air-supported inflatable tent into independent structural units, and curling and packing the independent structural units one by one.

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