CN219974066U - Inflatable tent support frame and inflatable tent - Google Patents

Abstract

The utility model discloses an inflatable tent support frame and an inflatable tent, wherein the inflatable tent support frame is formed by mutually crossing a plurality of air columns to form a hemispherical support structure, at least six contact parts which are contacted with the ground are formed, and the contact parts are support legs which are parallel to the ground; after the air columns are mutually crossed, a three-layer structure is formed, the three-layer structure comprises a side wall area, an inclined area and a top area, the top area is wholly parallel to the ground, the side wall area is upwards erected to form the side wall of the supporting structure, and the inclined area is in transitional connection with the top area and the side wall area. The inflatable tent further comprises a tent body, the bottom, the middle and the top of the tent body are fixedly connected with the tent supporting framework through ox horn buckles respectively, the tent body is arranged in the inflatable tent supporting framework in an opened mode after the connection, and the top of the tent body is of a flat-top structure and corresponds to the top area. The tent can be opened quickly, and the tent has good stability and hemispherical support structure.

Description

Inflatable tent support frame and inflatable tent

Technical Field

The utility model relates to the field of outdoor camping equipment, in particular to an inflatable tent support frame and an inflatable tent.

Background

With the improvement of the living standard of people, the outdoor camping activities are gradually favored by people. The existing camping equipment has a plurality of backdrop and tent, the tent is usually composed of a support frame and a tent body, the existing tent support frame is usually a rod type support frame which needs to be assembled, the assembling mode is troublesome, a great deal of effort is consumed for installing the tent, and the mood of a camper is directly affected. The existing inflatable tents are simple in supporting structure, so that the supporting stability of the whole tent is poor, and most of the inflatable tents are smaller, so that a mode that a plurality of persons can not use the inflatable tents simultaneously can not be developed. Some inflatable tents, although better in support, have to enlarge the mode of thickening the support column, and the mode can lead to the conditions of large inflation amount, long inflation time and inconvenient operation.

The manufacturing process of the inner tube of the air column of the existing inflatable tent adopts the welding of the edge after the film is folded in half, and the welding is performed once every a certain distance, thereby forming a welding edge of the tube body. The structure has the defects that the welding position has errors, the air pressure is uneven, and the welding position is easy to be broken by air after long-term use.

Therefore, there is a need to develop an outdoor tent that is good in quality and supporting performance and can be quickly opened.

Because of the characteristic that the inflatable tent needs to be inflated, the tent body is usually made of coating cloth, and the ventilation effect inside the tent is poor.

Disclosure of Invention

In order to solve the problems, the utility model provides an inflatable tent support frame and an inflatable tent.

The technical scheme of the utility model is that an inflatable tent support frame and an inflatable tent are formed by mutually crossing a plurality of air columns to form a hemispherical support structure, at least six contact parts which are contacted with the ground are formed, and the contact parts are support legs which are parallel to the ground; after the air columns are mutually crossed, a three-layer structure is formed, the three-layer structure comprises a side wall area, an inclined area and a top area, the top area is wholly parallel to the ground, the side wall area is upwards erected to form the side wall of the supporting structure, and the inclined area is in transitional connection with the top area and the side wall area.

Preferably, each gas column integrally comprises a head end and a tail end, the tail ends of the gas columns are supporting legs, ascending sections, intersecting sections, descending sections and supporting legs are sequentially arranged between the head end and the tail ends, the gas columns are mutually staggered, the ascending section of one gas column and the descending section of the other gas column form a side wall area of the supporting structure, the lower parts of the side wall areas are connected by the supporting legs, and the intersecting sections of the gas columns are mutually staggered to form an inclined area and a top area.

As a further preferable mode, the tail end of the supporting leg is provided with a concave cavity, when the supporting leg is connected with the rising section of the other air column, the end part of the rising section is arranged in the concave cavity, and the outer wall of the concave cavity is connected with the end part through magic tape winding; the intersection of each air column is provided with a binding belt for connecting and fixing the two air columns.

As a further preferable mode, a communicating air pipe is arranged between the supporting leg of one air column in each group of side wall areas and the ascending section of the other air column, wherein a communicating air pipe is also arranged between the two groups of adjacent side wall areas, an air blocking clamp for controlling the air pipe to be communicated or blocked is arranged on the air pipe, and an air charging hole is arranged on the air column; the contact part of the supporting leg and the ground is provided with a reinforcing area.

As a further preferred aspect, the air column includes a first air column, a second air column, a third air column, a fourth air column, a fifth air column and a sixth air column, the first rising section of the first air column and the third falling section of the third air column are connected by a third support leg to form a group, the second rising section of the second air column and the fourth falling section of the fourth air column are connected by a fourth support leg to form a group, the third rising section of the third air column and the fifth falling section of the fifth air column are connected by a fifth support leg to form a group, the fourth rising section of the fourth air column and the sixth falling section of the sixth air column are connected by a sixth support leg to form a group, the fifth rising section of the fifth air column and the first falling section of the first air column are connected by a first support leg to form a group, and the second rising section of the sixth air column and the second falling section of the second air column are connected by a group by a second support leg to form a side wall region of the tent support structure; the intersecting sections of the six air columns are intersected with each other to form an inclined area and a top area which are integrally in a hexagonal flower shape, the top area is in a hexagon parallel to the ground, the top area extends outwards to be connected with the inclined area, and the outer edge of the inclined area is in a hexagonal flower shape; the six gas column intersecting sections are respectively a first intersecting section of a first gas column, a second intersecting section of a second gas column, a third intersecting section of a third gas column, a fourth intersecting section of a fourth gas column, a fifth intersecting section of a fifth gas column and a sixth intersecting section of a sixth gas column, and the intersecting modes are as follows: the starting point of the first cross section is the upper part of the fourth descending section, sequentially passes through the lower part of the fifth cross section, the upper part of the sixth cross section, the lower part of the second cross section, the upper part of the third cross section, and the end point of the first cross section is stopped below the fourth ascending section; the starting point of the second cross section is the upper part of the fifth descending section, sequentially passes through the lower part of the sixth cross section, the upper part of the first cross section, the lower part of the third cross section, the upper part of the fourth cross section, and the end point of the second cross section is stopped below the fifth ascending section; the starting point of the third cross section is the upper part of the sixth descending section, sequentially passes through the lower part of the first cross section, the upper part of the second cross section, the lower part of the fourth cross section, the upper part of the fifth cross section, and the end point of the third cross section is stopped below the sixth ascending section; the starting point of the fourth cross section is the upper part of the first descending section, sequentially passes through the lower part of the second cross section, the upper part of the third cross section, the lower part of the fifth cross section, the upper part of the sixth cross section, and the end point of the fourth cross section is stopped below the first ascending section; the starting point of the fifth cross section is the upper part of the second descending section, sequentially passes through the lower part of the third cross section, the upper part of the fourth cross section, the lower part of the sixth cross section, the upper part of the first cross section, and the end point of the fifth cross section is stopped below the second ascending section; the starting point of the sixth cross section is the upper part of the third descending section, sequentially passes through the lower part of the fourth cross section, the upper part of the fifth cross section, the lower part of the first cross section, the upper part of the second cross section and the end point of the sixth cross section is stopped below the third ascending section.

Preferably, the air columns comprise an inner pipe and an outer pipe, the outer pipes of the air columns are connected end to form a connection relation of the support framework of the inflatable tent, and the inner pipe is arranged in the outer pipe and forms a supporting force of the support framework of the whole inflatable tent after being inflated; the inner tube is a TPU or PVC integrated inner tube, the tube body of the inner tube adopts a non-welded joint, and the two ends of the tube body adopt high-frequency welding to form a columnar body with two closed ends.

Preferably, the outer tube is made of woven cloth provided with a coating or a coating.

The inflatable tent comprises an inflatable tent supporting framework, and further comprises a tent body, wherein the bottom, the middle and the top of the tent body are respectively and fixedly connected with the tent supporting framework through ox horn buckles, the tent body is arranged in the inflatable tent supporting framework in an opened mode after being connected, and the top of the tent body is of a flat-top structure and corresponds to the top area.

As a further preferable mode, an opening is formed in the tent body, a double-layer door body is arranged at the opening, the inner layer of the double-layer door body is a gauze door, the outer layer of the double-layer door body is a cloth door, and the gauze door and the cloth door are respectively arranged at the opening; the surface of the tent body is provided with a windproof rope buckle, and the windproof rope buckle is connected with a windproof rope for connecting ground nails; the tent body is made of woven cloth with a film or a coating.

As a further preferred mode, a plurality of ventilation openings are formed in the upper portion and the lower portion of the tent body, covering cloth is arranged above the ventilation openings, supporting rods are arranged below the ventilation openings, one ends of the supporting rods are fixedly connected with the tent body, the other ends of the supporting rods are detachably connected with the inner surface of the covering cloth, when the supporting rods are connected with each other, the covering cloth is opened by the supporting rods, the ventilation openings are opened, ventilation is achieved, when the covering cloth is separated from each other, the covering cloth covers the tent body, and the ventilation openings are closed.

The beneficial effects of the utility model are as follows: the utility model adopts the supporting structure that the plurality of air columns are mutually intersected to form the hemispheroids, has good supporting stability, is not easy to topple, and has large internal space of the integral tent.

The side wall area, the inclined area and the top area formed after the air columns are crossed are uniform, the top is in a flat top mode, the top of the tent is parallel to the ground, the inclined areas in the hexagonal flower form allow the air columns of the whole tent to be mutually held tightly and are restrained in a staggered mode, the contact points of the tent and the ground are supporting legs parallel to the ground, the contact surface with the ground is enlarged, and the stability of the whole tent supporting structure is greatly improved compared with that of the existing inflatable tent.

The inner tube adopts TPU or PVC integrated into one piece inner tube, and the body of inner tube adopts no welded joint, and the both ends of body adopt high frequency welding, and the atmospheric pressure subdivision of body is even, and is difficult for broken, has prolonged life.

The tent can be opened quickly, and the tent is convenient to operate.

The special double-layer door body design of the utility model can realize various use modes.

The ventilation structure can effectively ensure the ventilation effect inside the inflatable tent.

Drawings

Fig. 1 is a perspective view of a support frame for an inflatable tent of the present utility model.

Fig. 2 is a top view of the support frame of the inflatable tent of the present utility model.

Fig. 3 is a schematic structural view of the connection mode of the rising section and the supporting leg of the present utility model.

Fig. 4 is a cross-sectional view of the gas column of the present utility model.

Fig. 5 is a schematic structural view of the inflatable tent of the present utility model.

Fig. 6 is a schematic view of the structure of the tent body of the present utility model.

Fig. 7 is a schematic diagram of the connection relationship between the tent body and the air column according to the present utility model.

Description of the reference numerals:

1: a gas column; 2: a crossover section; 3: a rising section; 4: a reinforcing region; 5: support legs; 6: a descent section; 7: a top region; 8: an inclined region; 9: a sidewall region; 10: a tent body; 11: an air filling hole; 12: an air pipe; 13: a gas blocking clamp; 14: a magic tape; 15: a cavity; 16: an inner tube; 17: an outer tube; 18: a top; 19: covering cloth; 20: wind-proof rope fastener; 21: a double-layer door body; 22: a tie; 23: ox horn button; 24: a vent; 25: a support rod; 211: a first rising section; 212: a first crossover section; 213: a first descent segment; 214: a first support leg; 221: a second rising section; 222: a second crossover section; 223: a second descent segment; 224: a second support leg; 231: a third rising section; 232: a third crossover section; 233: a third descent segment; 234: a third support leg; 241: a fourth rising section; 242: a fourth crossover section; 243: a fourth descent segment; 244: a fourth support leg; 251: a fifth rising section; 252: a fifth crossover section; 253: a fifth descent segment; 254: a fifth support leg; 261: a sixth rising section; 262: a sixth crossover section; 263: a sixth descent segment; 264: and a sixth support leg.

Detailed Description

The utility model will be further described with reference to the accompanying drawings and examples.

As shown in fig. 1 to 4, an inflatable tent support frame is formed by a plurality of air columns 1 intersecting each other to form a hemispherical support structure, at least six contact portions are formed to contact with the ground, and the contact portions are support legs 5 parallel to the ground; after the air columns 1 are mutually crossed, a three-layer structure is formed, the three-layer structure comprises a side wall area 9, an inclined area 8 and a top area 7, the top area 7 is wholly parallel to the ground, the side wall area 9 is upwards erected to form the side wall of the supporting structure, and the inclined area 8 is in transitional connection with the top area 7 and the side wall area 9.

In this embodiment, each air column 1 integrally includes a head end and a tail end, the tail end of the air column 1 is a supporting leg 5, an ascending section 3, a crossing section 2, a descending section 6 and a supporting leg 5 are sequentially arranged between the head end and the tail end, the air columns 1 are staggered with each other, the ascending section 3 of one air column 1 and the descending section 6 of the other air column 1 form a side wall region 9 of the supporting structure, the lower part of the side wall region 9 is connected by the supporting leg 5, and the crossing sections 2 of the air columns 1 are staggered with each other to form an inclined region 8 and a top region 7.

In this embodiment, a concave cavity 15 is provided at the end of the supporting leg 5, and when the supporting leg 5 is connected with the rising section 3 of the other air column 1, the end of the rising section 3 is placed in the concave cavity 15, and the outer wall of the concave cavity 15 is connected with the end by winding through a magic tape 14; the intersection of each air column 1 is provided with a tie 22 for connecting and fixing the two air columns 1. The tie 22 may also be replaced by a tie, velcro.

In this embodiment, a communicating air pipe 12 is arranged between the supporting leg 5 of one air column 1 in each set of side wall area 8 and the ascending section 3 of the other air column 1, wherein a communicating air pipe 12 is also arranged between two sets of adjacent side wall areas, as in fig. 3, a communicating air pipe 12 is arranged between the fifth descending section 253 and the second ascending section 221, the arrangement of the structure can ensure that all air columns 1 are mutually communicated, an air blocking clamp 13 for controlling the air pipe 12 to be communicated or blocked is arranged on the air pipe 12, the air blocking clamp is opened, the circulation of air in the adjacent air pipes is realized, the air blocking clamp is closed, and the air circulation in the air pipes is blocked; the air columns 1 are provided with the air filling holes 11, the air columns 1 are mutually communicated, and the whole support framework of the inflatable tent can be inflated rapidly only by inflating in one air filling hole 11, so that the rapid installation work is realized; the contact part of the supporting leg 5 and the ground is provided with a reinforcing area 4, so that the wear resistance of the supporting leg 5 is improved.

In this embodiment, the air column 1 includes a first air column, a second air column, a third air column, a fourth air column, a fifth air column and a sixth air column, the first rising section 211 of the first air column and the third intersecting section 233 of the third air column are connected by a third support leg 234 into a group, the second rising section 221 of the second air column and the fourth intersecting section 243 of the fourth air column are connected by a fourth support leg 244 into a group, the third rising section 231 of the third air column and the fifth intersecting section 253 of the fifth air column are connected by a fifth support leg 254 into a group, the fourth rising section 241 of the fourth air column and the sixth intersecting section 263 of the sixth air column are connected by a sixth support leg 264 into a group, the fifth rising section 251 of the fifth air column and the first intersecting section 213 of the first air column are connected by a first support leg 214 into a group, the sixth rising section 261 of the sixth air column and the second intersecting section 223 of the second air column are connected by a second support leg 224 into a tent structure; the intersecting sections 2 of the six air columns 1 are intersected with each other to form an inclined area 8 and a top area 7 which are integrally in a hexagonal flower shape, the top area 7 is in a hexagon parallel to the ground, the top area 7 extends outwards to be connected with the inclined area 8, and the outer edge of the inclined area 8 is in a hexagonal flower shape; the first intersecting section 212 of the first air column, the second intersecting section 222 of the second air column, the third intersecting section 232 of the third air column, the fourth intersecting section 242 of the fourth air column, the fifth intersecting section 252 of the fifth air column, and the sixth intersecting section 262 of the sixth air column are respectively arranged in the intersecting manner as follows: the starting point of the first intersecting section 212 is the upper part of the fourth intersecting section 243, sequentially passes through the lower part of the fifth intersecting section 252, the upper part of the sixth intersecting section 262, the lower part of the second intersecting section 222, the upper part of the third intersecting section 232, and the end point of the first intersecting section 212 is stopped below the fourth rising section 241; the starting point of the second intersecting section 222 is above the fifth intersecting section 253, sequentially passes below the sixth intersecting section 262, above the first intersecting section 212, below the third intersecting section 232, above the fourth intersecting section 242, and the end point of the second intersecting section 222 ends below the fifth rising section 251; the starting point of the third intersecting section 232 is the upper part of the sixth intersecting section 263, sequentially passes through the lower part of the first intersecting section 212, the upper part of the second intersecting section 222, the lower part of the fourth intersecting section 242, the upper part of the fifth intersecting section 252, and the end point of the third intersecting section 232 is stopped below the sixth rising section 261; the starting point of the fourth intersecting section 242 is the upper part of the first intersecting section 213, sequentially passes through the lower part of the second intersecting section 222, the upper part of the third intersecting section 232, the lower part of the fifth intersecting section 252, the upper part of the sixth intersecting section 262, and the end point of the fourth intersecting section 242 is stopped below the first rising section 211; the starting point of the fifth intersecting section 252 is the upper part of the second intersecting section 223, sequentially passes through the lower part of the third intersecting section 232, the upper part of the fourth intersecting section 242, the lower part of the sixth intersecting section 262, the upper part of the first intersecting section 212, and the end point of the fifth intersecting section 252 is stopped below the second ascending section 221; the sixth intersection 262 has a starting point above the third intersection 233, sequentially passes below the fourth intersection 242, above the fifth intersection 252, below the first intersection 212, above the second intersection 222, and ends below the third rising 231.

In this embodiment, the air columns 1 include an inner tube 16 and an outer tube 17, the outer tubes 17 of each air column 1 are connected end to form a connection relationship of the support framework of the inflatable tent, the inner tube 16 is disposed in the outer tube 17 and inflated to form a supporting force of the support framework of the whole inflatable tent, and once the inner tube 16 is damaged, the support framework can be pulled out from the outer tube 17 for replacement; the inner tube 16 is formed by integrating TPU or PVC, the tube body of the inner tube is welded seam-free, namely, the cross section of the tube body of the inner tube is welded seam-free, the two ends of the tube body are welded by high frequency waves to form a columnar body with two closed ends, the air pressure of the tube body is distributed uniformly and is not easy to break, and the service life of the tube body is prolonged.

In this embodiment, the outer tube 17 is made of woven fabric with a film or coating, such as nylon cloth, and the surface of the nylon cloth is provided with the film or a plurality of coatings, so as to achieve the effects of water resistance, wear resistance, etc., and the woven fabric can also be replaced by woven fabric made of other materials, and the surface of the cloth is additionally provided with the film or the coating.

As shown in fig. 5-7, an inflatable tent comprises the inflatable tent supporting framework and further comprises a tent body 10, wherein the bottom, the middle and the top 18 of the tent body 10 are fixedly connected with the tent supporting framework through ox horn buckles 23 respectively, the tent body 10 is arranged in the inflatable tent supporting framework in an opened mode after connection, and the top 18 of the tent body 10 is of a flat-top structure and corresponds to the top area 7. The ox horn button 23 comprises a ring button and a ox horn button body, wherein the ring button is fixedly connected with the binding belt 22 for fixing the air column 1, the ox horn button body is fixedly connected with the tent body 10, and the ring button is buckled with the ox horn button, so that the tent body 10 and the inflatable tent support framework are fixedly connected together. When in an original state, the tent body 10 and the uninflated air column 1 are buckled together, and the tent support framework is unfolded as long as the air column 1 is inflated, so that the whole tent is installed.

In this embodiment, an opening is formed in the tent body 10, a double-layer door body 21 is formed in the opening, the inner layer of the double-layer door body 21 is a gauze door, the outer layer is a cloth door, and the gauze door and the cloth door are respectively installed at the opening; the whole tent is closed when the cloth door is used; when the gauze door is used, the air is permeable and mosquito-proof. The surface of the tent body 10 is provided with a windproof rope buckle 20, and a windproof rope is connected to the windproof rope buckle 20 for connecting ground nails; the tent body 10 is made of woven cloth with a coating or a coating, such as nylon cloth, wherein a plurality of coatings are arranged on the surface of the nylon cloth or the coating is directly arranged on the surface of the nylon cloth, so that the tent body has the effects of water resistance, wear resistance, shading and the like, and the tent body can also be replaced by woven cloth made of other materials, and the coating or the coating is additionally arranged on the cloth surface.

In this embodiment, the tent body 10 is further provided with a plurality of ventilation openings 24, the covering cloth 19 is disposed above the ventilation openings 24, the supporting rods 25 are disposed below the ventilation openings 24, one ends of the supporting rods 25 are fixedly connected with the tent body 10, the other ends of the supporting rods are detachably connected with the inner surface of the covering cloth 19, the connecting modes can be a magic tape, a button, a hidden button and the like, when the two pieces of the covering cloth are connected with each other, the covering cloth 19 is opened by the supporting rods 25, the ventilation openings 24 are opened, ventilation is realized, when the two pieces of the covering cloth 19 are separated from each other, the ventilation openings 24 are closed.

In the description of the present specification, it should be understood that the directions or positional relationships indicated by the terms "upper", "lower", "head end", "tail end", "inner", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the apparatus or element to be referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model.

Claims (8)

1. The inflatable tent support frame is characterized in that a hemispherical support structure is formed by mutually crossing a plurality of air columns (1), at least six contact parts which are in contact with the ground are formed, and the contact parts are support legs (5) which are parallel to the ground; after the air columns (1) are mutually crossed, a three-layer structure is formed, the three-layer structure comprises a side wall area (9), an inclined area (8) and a top area (7), the top area (7) is integrally parallel to the ground, the side wall area (9) is upwards erected to form the side wall of the supporting structure, and the inclined area (8) is in transitional connection with the top area (7) and the side wall area (9);

each air column (1) integrally comprises a head end and a tail end, the tail end of each air column (1) is a supporting leg (5), an ascending section (3), a crossing section (2), a descending section (6) and the supporting legs (5) are sequentially arranged between the head end and the tail end, the air columns (1) are mutually staggered, the ascending section (3) of one air column (1) and the descending section (6) of the other air column (1) form a side wall area (9) of the supporting structure, the lower parts of the side wall areas (9) are connected through the supporting legs (5), and the crossing sections (2) of the air columns (1) are mutually staggered to form an inclined area (8) and a top area (7);

the tail end of the supporting leg (5) is provided with a concave cavity (15), and when the supporting leg (5) is connected with the rising section (3) of the other air column (1), the end part of the rising section (3) is arranged in the concave cavity (15), and the outer wall of the concave cavity (15) is connected with the end part in a winding way through a magic tape (14); the intersection of each air column (1) is provided with a binding belt (22) for connecting and fixing the two air columns (1).

2. The support frame of the inflatable tent according to claim 1, wherein a communicating air pipe (12) is arranged between the supporting leg (5) of one air column (1) and the ascending section (3) of the other air column (1) in each group of side wall areas, wherein a communicating air pipe (12) is also arranged between two groups of adjacent side wall areas, an air blocking clamp (13) for controlling the air pipe (12) to be communicated or blocked is arranged on the air pipe (12), and an air charging hole (11) is arranged on the air column (1); the contact part of the supporting leg (5) with the ground is provided with a reinforcing area (4).

3. The support frame for an inflatable tent according to claim 1, wherein the air column (1) comprises a first air column, a second air column, a third air column, a fourth air column, a fifth air column and a sixth air column, the first rising section (211) of the first air column and the third falling section (233) of the third air column are connected by a third support leg (234) to form a group, the second rising section (221) of the second air column and the fourth falling section (243) of the fourth air column are connected by a fourth support leg (244) to form a group, the third rising section (231) of the third air column and the fifth falling section (253) of the fifth air column are connected by a fifth support leg (254), the fourth rising section (241) of the fourth air column and the sixth falling section (263) of the sixth air column are connected by a sixth support leg (264), the fifth rising section (251) of the fifth air column and the fourth falling section (213) of the fifth air column are connected by a fourth support leg (213) to form a group, and the first falling section (213) of the third air column is connected by a fourth support leg (213) to form a group; the intersecting sections (2) of the six air columns (1) are intersected with each other to form an inclined area (8) and a top area (7) which are integrally in a hexagonal flower shape, the top area (7) is in a hexagonal shape parallel to the ground, the top area (7) extends outwards to be connected with the inclined area (8), and the outer edge of the inclined area (8) is in a hexagonal flower shape; the six gas column (1) intersecting sections (2) are respectively a first intersecting section (212) of a first gas column, a second intersecting section (222) of a second gas column, a third intersecting section (232) of a third gas column, a fourth intersecting section (242) of a fourth gas column, a fifth intersecting section (252) of a fifth gas column and a sixth intersecting section (262) of a sixth gas column, and the intersecting modes are as follows: the starting point of the first intersecting section (212) is the upper part of the fourth descending section (243), sequentially passes through the lower part of the fifth intersecting section (252), the upper part of the sixth intersecting section (262), the lower part of the second intersecting section (222), the upper part of the third intersecting section (232), and the end point of the first intersecting section (212) is stopped below the fourth ascending section (241); the starting point of the second intersecting section (222) is the upper part of the fifth descending section (253), sequentially passes through the lower part of the sixth intersecting section (262), the upper part of the first intersecting section (212), the lower part of the third intersecting section (232), the upper part of the fourth intersecting section (242), and the end point of the second intersecting section (222) is stopped below the fifth ascending section (251); the starting point of the third intersecting section (232) is the upper part of the sixth descending section (263), sequentially passes through the lower part of the first intersecting section (212), the upper part of the second intersecting section (222), the lower part of the fourth intersecting section (242), the upper part of the fifth intersecting section (252), and the end point of the third intersecting section (232) is stopped below the sixth ascending section (261); the starting point of the fourth intersecting section (242) is the upper part of the first descending section (213), sequentially passes through the lower part of the second intersecting section (222), the upper part of the third intersecting section (232), the lower part of the fifth intersecting section (252), the upper part of the sixth intersecting section (262), and the end point of the fourth intersecting section (242) is stopped below the first ascending section (211); the starting point of the fifth cross section (252) is the upper part of the second descending section (223), sequentially passes through the lower part of the third cross section (232), the upper part of the fourth cross section (242), the lower part of the sixth cross section (262), the upper part of the first cross section (212), and the end point of the fifth cross section (252) is stopped below the second ascending section (221); the starting point of the sixth cross section (262) is the upper part of the third descending section (233), sequentially passes through the lower part of the fourth cross section (242), the upper part of the fifth cross section (252), the lower part of the first cross section (212), the upper part of the second cross section (222), and the end point of the sixth cross section (262) is stopped below the third ascending section (231).

4. The support frame for the inflatable tent according to claim 1, wherein the air columns (1) comprise an inner tube (16) and an outer tube (17), the outer tubes (17) of the air columns (1) are connected end to form a connection relation of the support frame of the inflatable tent, and the inner tube (16) is arranged in the outer tube (17) and forms a supporting force of the support frame of the whole inflatable tent after being inflated; the inner tube (16) is formed by integrating TPU or PVC, the tube body of the inner tube adopts a non-welded joint, and the two ends of the tube body adopt high-frequency welding to form a columnar body with two closed ends.

5. A support for an inflatable tent according to claim 4, wherein the outer tube (17) is made of woven cloth provided with a coating or film.

6. The inflatable tent is characterized by comprising the inflatable tent support frame according to any one of claims 1-4, and further comprising a tent body (10), wherein the bottom, the middle and the top (18) of the tent body (10) are fixedly connected with a tent support framework through ox horn buckles (23) respectively, the tent body (10) is arranged in the inflatable tent support framework in an opened mode after the connection, and the top (18) of the tent body (10) is of a flat-top structure and corresponds to the top area (7).

7. The inflatable tent according to claim 6, wherein the tent body (10) is provided with an opening, a double-layer door body (21) is arranged at the opening, the inner layer of the double-layer door body (21) is a screen door, the outer layer is a cloth door, and the screen door and the cloth door are respectively arranged at the opening; the surface of the tent body (10) is provided with a windproof rope buckle (20), and the windproof rope buckle (20) is connected with a windproof rope for connecting ground nails; the tent body (10) is made of woven cloth provided with a film or a coating.

8. The inflatable tent according to claim 6, wherein the tent body (10) is further provided with a plurality of ventilation openings (24) up and down, covering cloth (19) is arranged above the ventilation openings (24), supporting rods (25) are arranged below the ventilation openings (24), one ends of the supporting rods (25) are fixedly connected with the tent body (10), the other ends of the supporting rods are detachably connected with the inner surface of the covering cloth (19), when the supporting rods are connected with each other, the covering cloth (19) is supported by the supporting rods (25), the ventilation openings (24) are opened, ventilation is achieved, when the covering cloth (19) is covered on the tent body (10) and the ventilation openings (24) are closed.