CN118564129A - Air column tent - Google Patents

Abstract

The application provides an air column tent, wherein an air column is formed in the upper area of a tent main body and the lower area of the tent main body; all the inflatable columns are communicated and connected inside to form an inflatable and deflatable channel, and in the unfolded state of the tent main body, the height value of the upper area of the tent main body is larger than that of the lower area of the tent main body; the cross section of the upper region of the tent body in the horizontal direction gradually increases from the highest point down. The problem of water accumulation on the top surface of the tent in rainy and snowy weather can be effectively avoided; through setting up the inflation post setting that the diversification was arranged, make all inflation posts link up and link to each other, can be for the tent inflation through a minimum inflation inlet, make its complete deployment shaping, further make the use of tent and carry all more convenient, whole atress is even, and is more firm, can effectively improve user's user experience.

Description

Air column tent

Technical Field

The invention relates to the field of tents, in particular to an air column tent.

Background

Traditional tents are usually built by using brackets, the brackets are required to be assembled into a frame, canvas or waterproof materials are covered, and the building process is complex and time-consuming. In addition, the support structure of the conventional tent is easily deformed or damaged by external force, and has poor stability. Meanwhile, the traditional tent has larger volume when being carried and stored, and is inconvenient to carry and move.

The novel tent structure of gas column tent adopts the gas column as the support, does not need complicated support equipment, only need to aerify the gas column through aerating device and can build fast. The air column tent is simple and quick to build, and is suitable for occasions needing to build the tent quickly, such as camping, field activities and the like. In addition, the air column of the air column tent has certain elasticity and pressure resistance, can adapt to the influence of wind power and external force under different environments, and improves the stability of the tent.

However, the conventional air column tent structure is mostly in a conventional shape, such as square or triangle, the utilization rate of the inner space is low, and the stability is required to be improved under strong wind or severe weather conditions. The tent roof in the market is mostly in a shape of two-sided slope, four-sided slope or flat top, and is easy to accumulate water and snow when in rainy and snowy weather in outdoor use, so that the stability of the whole structure is affected; furthermore, accumulated water and snow are required to be removed at fixed time by people, and the use and experience are poor.

Disclosure of Invention

In view of the above, the application provides an air column tent, which comprises the following specific schemes:

An air column tent comprising: a tent body.

The upper area of the tent body and the lower area of the tent body are respectively provided with an inflatable column; all the inflatable columns are communicated and connected inside to form an inflation and deflation channel, so that the tent body is switched between an unfolding state and a shrinking state through inflation or deflation operation of the inflation and deflation channel.

It should be noted that the present application is not limited to specific values of the diameters of the respective inflatable columns, and in one specific embodiment, the diameters of the respective inflatable columns may be between 10 cm and 15cm, and the diameters of the inflatable columns in the upper region and the lower region may be uniform or may be designed to be non-uniform according to actual requirements.

In the unfolded state of the tent body, the height value of the upper area of the tent body is greater than that of the lower area of the tent body; the cross section of the upper region of the tent body in the horizontal direction gradually increases from the highest point down.

In some embodiments, the height value of the lower region of the tent body ranges from one quarter to one half of the height value of the upper region in the unfolded state of the tent body.

In some embodiments, the inflatable column comprises a corner inflatable column; the cross section of the lower area of the tent body comprises a rectangle, and the four corner edges of the lower area of the tent body are respectively and correspondingly connected with a corner inflatable column extending to the highest point of the tent body.

The shape of the corner air column in the upper region of the tent body includes an arc shape protruding toward the outside of the tent body. In one particular embodiment, the upper region of the tent body may be formed with a dome-shaped roof, which allows the roof of the tent body to be free of water accumulation or snow residue in rainy and snowy weather, which may fall through an arcuate slope in the roof, minimizing the impact of weather on the tent body. It should be noted that, the specific arc value and range of the arc corresponding to the dome-shaped upper top formed by the upper area of the tent body are not specifically limited in the present application, and in practical application, the arc of the dome-shaped upper top is related to the height of the upper area and the height of the lower area of the tent body, and may be set according to practical situations.

In some embodiments, the upper region and/or the lower region of the tent body is provided with one or at least two windows. Wherein, each window is provided with multilayer shielding structure from inside to outside of tent main part in proper order. Each shielding structure corresponds to one of the light shielding layer, the light transmitting layer and the window screening layer.

Each shielding structure is configured to be retracted relative to the window to open the window, or extended to cover the window.

In some embodiments, the window further comprises a winding mechanism located at one side edge of the interior and/or exterior of the window for winding up the shade structure.

In one practical embodiment, the window comprises a side window extending through or below the upper and lower regions, and a skylight located above the upper region. In practical application, the sequence of the multi-layer shielding structure arranged on the window can be an innermost light-transmitting layer, a middle window screening layer and an outermost light-shielding layer from inside to outside of the tent body, and each shielding structure has a pertinence function for adapting to different environments. Under different service environments, different shielding effects can be realized by opening or closing different shielding structures, for example:

The outermost shading layer is rolled from the outside, so that the middle window screen layer and the innermost light-transmitting layer are kept unfolded and sealed, and the wind prevention and heat preservation can be realized, and meanwhile, the lighting is realized;

The outermost shading layer and the innermost light-transmitting layer are rolled from the outside, and the middle screen window layer is unfolded and sealed, so that lighting, ventilation and ventilation can be kept, and meanwhile, mosquitoes are further isolated;

The shading layer of the outermost layer is unfolded and sealed, so that the shading effect can be achieved, the light-transmitting layer of the innermost layer and/or the screen window layer of the middle layer are unfolded and sealed further, the heat preservation effect of the tent main body can be improved further, and heat exchange between the inside and the outside of the tent main body is reduced.

In practical application, the area of each layer of shielding structure is gradually decreased from the inside of the tent body to the outside layer by layer, and the edge of a tailor of each layer of shielding structure on the tent body is not overlapped, so that the edge lines of the shielding structures are staggered, and the effect of preventing outside seepage from entering is achieved.

In some embodiments, one or more inflation and deflation holes are provided in one or more of the inflation columns. And a switching valve is arranged at the joint between part or all of the connected inflatable columns, and is used for switching on or switching off the through relation between the connected inflatable columns and controlling the gas flow in the inflatable columns. Through set up the ooff valve between the post that aerifing that links to each other, can nimble control aerify the gas flow between the post, can let the user open the ooff valve when needs to expand the tent, aerify the tent for each aerifys the post inside and link up, and the user can aerify the tent main part through at least one and fill the bleed hole. After the tent is unfolded, the switch valve can be closed, so that the through relation among all the inflatable columns is disconnected, and when the single inflatable column is in air leakage and damage, other inflatable columns connected with the single inflatable column cannot be affected, and a user can also rapidly check and overhaul the inflatable columns.

In practical application, can also be provided with the atmospheric pressure detection spare in the column that aerifing, be provided with the warning light of connecting the atmospheric pressure detection spare in the position that is close to the hole of filling and releasing, this warning light is used for sending the suggestion to the user after the inside gas volume of column that aerifing reaches the standard of supporting the tent main part to remind the user to aerify and accomplish.

In some embodiments, the area size of the shelter structure decreases from the outside of the tent body to the inside layer by layer; the edges of the different shielding structures on the tent body are not coincident.

In some embodiments, one or more inflation and deflation holes are provided in one or more of the inflation columns; and a switching valve is arranged at the joint between part or all of the connected inflatable columns, and is used for switching on or switching off the through relation between the connected inflatable columns and controlling the gas flow in the inflatable columns.

In some embodiments, the tent body further includes at least one pass gate extending through an upper region and/or a lower region of the tent body; at least one passing door is detachably connected with a sunshade.

In some embodiments, the inflatable column comprises: a bottom inflatable column; the bottom inflatable column is positioned in the lower area of the tent body; each bottom inflatable column is sequentially connected and arranged around the edge of the lower area of the tent body.

In some embodiments, the inflatable column comprises: transverse reinforcement columns and/or vertical reinforcement columns;

One end of the vertical reinforcing column is connected with the lowest point of the lower area of the tent body, and the other end of the vertical reinforcing column is connected with the highest point of the upper area of the tent body;

windows are arranged in the upper area and/or the lower area of the tent body at the two sides of the vertical reinforcing column;

the transverse reinforcing columns are positioned above the window and/or below the window and/or at the connection position of the upper region and the lower region of the tent body, and the two ends of the transverse reinforcing columns are respectively connected with different corner inflatable columns.

In some embodiments, the upper region is further provided with a smoke evacuation zone. Wherein, the smoke exhaust area is provided with a movable curtain which is used for closing or opening the smoke exhaust area. The smoke exhaust pipe is detachably connected in the smoke exhaust area.

In some embodiments, the switching of the smoke evacuation area can be achieved by covering a roller shutter layer provided with zippers. In practical application, when smoke is required to be discharged, the roller shutter shading layer can be pulled open, the smoke discharge pipe is arranged in a smoke discharge area, and the smoke discharge pipe is used for discharging the smoke; when smoke is not required to be discharged, the roller shutter shading layer can be closed. Through setting up the switch in the district of discharging fume in a flexible way, be favorable to the heat preservation function of tent, can reduce the heat exchange inside and outside the tent.

In some embodiments, a securing device is also included, the securing device including a securing cord and a securing member. In one embodiment, the securing member is attached to the tent body at the junction of the upper and lower regions. One end of the fixing rope is connected with the tent body through the fixing piece, and the other end of the fixing rope is used for being connected with an external structure so as to fix the tent body on the placing surface.

Through set up a plurality of inflation holes altogether on an inflation post or a plurality of inflation posts, can realize filling simultaneously and gassing for the time of setting up and dismantling of tent and can also carry out the cooperation of many people. In practical application, when the partial gas filling and discharging holes are damaged, other gas filling and discharging holes can also continue to work.

In some embodiments, in order to prevent instability between the connection of the inflatable columns and water seepage at the connection between the inflatable columns and the tent cloth, a reinforcing cloth may be further covered at the connection to improve the stability of the inflatable column structure.

The beneficial effects are that: the application provides an air column tent, which comprises a tent main body, wherein an air column is formed in the upper area of the tent main body and the lower area of the tent main body; all the inflatable columns are communicated and connected inside to form an inflation and deflation channel, so that the tent body is switched between an unfolding state and a shrinking state through inflation or deflation operation of the inflation and deflation channel. The problem of water accumulation on the top surface of the tent in rainy and snowy weather can be effectively avoided; through setting up the inflation post setting that the diversification was arranged, make all inflation posts link up and link to each other, can be for the tent inflation through a minimum inflation inlet, make its complete deployment shaping, further make the use of tent and carry all more convenient, whole atress is even, more firm.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic perspective view of a tent according to the present application;

FIG. 2 is a schematic side view of a tent according to the present application;

FIG. 3 is a schematic perspective view of an inflatable column of a tent according to the present application;

fig. 4 is a schematic view showing a part of the shelter structure of the tent according to the present application.

Reference numerals: 1-tent body; 2-upper region; 3-a lower region; 4-an inflatable column; 41-corner inflatable column; 42-vertical reinforcement columns; 43-transverse reinforcement posts; 431-a first transverse reinforcement column; 432-a second transverse reinforcement column; 44-an inflation and deflation hole; 45-bottom inflatable column; 451-a first bottom pillar; 452-a second bottom pillar; 453-third bottom pillar; 454-fourth bottom pillar; 46-a switch valve; 5-window; 51-side window; 52-skylight; 6-shielding structure; 61-a light shielding layer; 62-a window screen layer; 63-a light-transmitting layer; 64-a winding mechanism; 7-passing gate; 71-sunshade; 72-a smoke exhaust area; 73-smoke exhaust pipe; 74-a movable curtain; 8-fixing means; 81-fixing the rope; 82-fixing piece.

Detailed Description

Hereinafter, various embodiments of the present disclosure will be more fully described. The present disclosure is capable of various embodiments and its modifications and variations are possible in light of the above teachings. However, it should be understood that: there is no intention to limit the various embodiments of the present disclosure to the specific embodiments disclosed herein, but rather the present disclosure is to be understood to cover all modifications, equivalents, and/or alternatives falling within the spirit and scope of the various embodiments of the present disclosure.

The terminology used in the various embodiments of the disclosure is for the purpose of describing particular embodiments only and is not intended to be limiting of the various embodiments of the disclosure. As used herein, the singular is intended to include the plural as well, unless the context clearly indicates otherwise. Unless otherwise defined, all terms (including technical and scientific terms) used herein have the same meaning as commonly understood by one of ordinary skill in the art to which various embodiments of the present disclosure belong. Terms such as those defined in commonly used dictionaries will be interpreted as having a meaning that is the same as the context of the relevant art and will not be interpreted in an idealized or overly formal sense unless expressly so defined herein in connection with the various embodiments of the present disclosure.

Examples

The embodiment of the application discloses an air column tent which can effectively avoid the problem of ponding in rainy and snowy days and can be inflated and formed at least through an inflation and deflation hole, and the specific scheme is as follows:

an air column tent comprising: a tent body 1. The upper area 2 of the tent body 1 and the lower area 3 of the tent body 1 are provided with inflatable columns 4; all the inflatable columns 4 are communicated and connected inside to form an inflation and deflation channel, so that the tent body 1 is switched between an unfolding state and a shrinking state through inflation or deflation operation of the inflation and deflation channel.

In the unfolded state of the tent body 1, the height value of the upper area 2 of the tent body 1 is greater than the height value of the lower area 3 of the tent body 1; the upper region 2 of the tent body 1 is gradually enlarged in cross section in the horizontal direction from the highest point, as shown in fig. 1.

In some embodiments, in the unfolded state of the tent body 1, the lower region 3 of the tent body 1 has a height value ranging from one fourth to one half of the height value of the upper region 2.

In some embodiments, the inflatable column 4 comprises a corner inflatable column 41; the cross section of the lower region 3 of the tent body 1 includes a rectangular shape, and corner inflatable posts 41 extending to the highest point of the tent body 1 are respectively connected to the four corner edges of the lower region 3 of the tent body 1.

The shape of the corner air-filled column 41 in the upper region 2 of the tent body 1 includes an arc shape protruding toward the outside of the tent body 1.

In some embodiments, the upper region 2 and/or the lower region 3 of the tent body 1 is provided with one or at least two windows 5. Wherein, each window 5 is provided with a multi-layer shielding structure 6 from the inside of the tent body 1 to the outside in sequence. Each of the shielding structures 6 corresponds to one of the light shielding layer 61, the light transmitting layer 63 and the screen window layer 62.

Each shielding structure 6 is intended to be retracted relative to the window 5 to open the window 5, or to be extended to cover the window 5, as shown in particular in fig. 4.

In some embodiments, a winding mechanism 64 is further included, the winding mechanism 64 being located at one side edge of the interior and/or exterior of the window 5 for stowing the shade structure 6. In practical application, the winding mechanism 64 may be a winding mechanism that a user manually performs winding, or may be a driving mechanism with a communication connection external structure in the winding mechanism 64, and the user may remotely control the winding mechanism 64 to perform winding through intelligent control.

In a practical embodiment, the window 5 comprises a side window 51 penetrating the upper and lower regions 2, 3 or located below the upper region 2, and a skylight 52 located above the upper region 2. In practical application, the sequence of the multi-layer shielding structure 6 arranged on the window 5 may be that the tent main body 1 sequentially comprises an innermost light-transmitting layer 63, a middle screen window layer 62 and an outermost light-shielding layer 61 from inside to outside, and each shielding structure 6 has a specific function of adapting to different environments. Under different use environments, different shielding effects can be achieved by opening or closing different shielding structures 6, for example:

The outermost shading layer 61 is rolled from the outside, and the middle window screen layer 62 and the innermost light-transmitting layer 63 are kept unfolded and sealed, so that the wind prevention and heat preservation can be realized, and meanwhile, the lighting can be realized;

The outermost shading layer 61 and the innermost light-transmitting layer 63 are rolled from the outside, and the middle screen window layer 62 is kept unfolded and closed, so that lighting, ventilation and ventilation can be kept and mosquitoes can be further isolated;

The light shielding layer 61 of the outermost layer is unfolded and sealed, so that the light shielding effect can be realized, the light-transmitting layer 63 of the innermost layer and/or the screen window layer 62 of the middle layer are unfolded and sealed further, the heat insulation effect of the tent body 1 can be further improved, and the heat exchange between the inside and the outside of the tent body 1 can be reduced. In some embodiments, the area size of the shielding structure 6 decreases from the outside to the inside of the tent body 1; the edges of the different shelter structures 6 on the tent body 1 do not coincide. In practical application, the area of each layer of shielding structure 6 gradually decreases from the inside of the tent body 1 to the outside layer by layer, and the edge of a tailor on the tent body 1 of each layer of shielding structure 6 is not overlapped, so that the edge lines of the shielding structures 6 are staggered, and the effect of preventing external seepage from entering is achieved.

In some embodiments, one or more inflation and deflation holes 44 are provided in one or more of the inflation columns 4. A switch valve 46 is arranged at the joint between part or all of the connected inflatable columns 4, and the switch valve 46 is used for opening or closing the through relation between the connected inflatable columns 4 and controlling the gas flow in the inflatable columns 4. By arranging the switch valve 46 between the connected inflatable columns 4, the flow of air between the inflatable columns 4 can be flexibly controlled, so that a user can open the switch valve 46 when the tent needs to be unfolded and inflated, the inside of each inflatable column 4 is communicated, and the user can inflate the tent main body 1 through at least one inflation and deflation hole 44. After the tent is unfolded, the switch valve 46 can be closed, so that the through relation among the inflatable columns 4 is disconnected, and when the single inflatable column 4 is in the condition of air leakage and damage, other inflatable columns 4 connected with the single inflatable column 4 cannot be affected, and a user can also rapidly inspect and overhaul the inflatable columns 4. In practice, the on-off valve 46 may be a one-way valve.

In practical application, an air pressure detecting member may be further disposed in the inflatable column 4, and a warning light connected to the air pressure detecting member is disposed at a position close to the air filling hole 44, and the warning light is used for sending a warning to a user after the amount of air in the inflatable column 4 reaches the standard of supporting the tent main body 1, so as to remind the user that the inflation is completed.

In some embodiments, the tent body 1 further comprises at least one pass door 7 extending through the upper region 2 and/or the lower region 3 of the tent body 1; a sunshade 71 is detachably connected to the outside of at least one pass gate 7. In one particular embodiment, the pass-gate 7 may be provided with a multi-layer structure, such as a window 5. The passing door 7 may include a layer of window shade disposed at the outside and a layer of gauze disposed at the inside, and the window shade is lifted up and supported by the external support bar, so that the sunshade 71 is formed.

In some embodiments, the inflatable column 4 comprises: a bottom inflatable column 4; the bottom inflatable column 4 is positioned in the lower area 3 of the tent body 1; each bottom inflatable column 4 is connected in turn around the edge of the lower region 3 of the tent body 1.

In some embodiments, the inflatable column 4 comprises: transverse reinforcement columns 43 and/or vertical reinforcement columns 42; the vertical reinforcement column 42 has one end connected to the lowest point of the lower region 3 of the tent body 1 and the other end connected to the highest point of the upper region 2 of the tent body 1.

The upper region 2 and/or the lower region 3 of the tent body 1 on both sides of the vertical reinforcement pole 42 are provided with windows 5; the transverse reinforcement columns 43 are located above the window 5 and/or below the window 5 and/or at the junction of the upper and lower regions 3 of the tent body 1, and both ends of the transverse reinforcement columns 43 are respectively connected with different corner inflatable columns 41.

In some embodiments, the upper zone 2 is also provided with a smoke evacuation zone 72. The smoke evacuation area 72 may also be provided with a movable curtain 74, wherein the movable curtain 74 is used to close or open the smoke evacuation area 72. And also comprises a smoke exhaust pipe 73, and the smoke exhaust pipe 73 is detachably connected in the smoke exhaust area 72.

In some embodiments, the switching of the smoke evacuation area 72 may be accomplished by overlaying the roller shade 61 with a zipper. In practical application, when smoke is required to be discharged, the roller shutter shading layer 61 can be pulled open, the smoke discharge pipe 73 is arranged in the smoke discharge area 72, and the smoke discharge pipe 73 is used for discharging the smoke; when smoke discharge is not required, the roller shutter layer 61 can be closed. By flexibly setting the opening and closing of the smoke evacuation area 72, the heat preservation function of the tent is facilitated, and heat exchange between the inside and the outside of the tent can be reduced.

In some embodiments, further comprising a securing device 8, the securing device 8 comprising a securing rope 81 and a securing member 82. In one embodiment, the securing members 82 are attached to the tent body 1 at the junction of the upper zone 2 and the lower zone 3. One end of the fixing rope 81 is connected with the tent body through the fixing piece 82, and the other end is used for being connected with an external structure so as to fix the tent body on the placement surface.

By providing a plurality of inflation and deflation holes 44 on one inflation column 4 or on a plurality of inflation columns 4 together, simultaneous inflation and deflation can be achieved, the time for setting up and disassembling a tent can be shortened, and multi-person cooperation can also be performed. In practical applications, when a portion of the gas filling and discharging holes 44 are damaged, other gas filling and discharging holes 44 can also continue to work.

In some embodiments, in order to prevent instability between the connection of the inflatable columns 4 and water seepage at the connection between the inflatable columns 4 and the tent cloth, a reinforcing cloth may be further covered at the connection to improve the stability of the structure of the inflatable columns 4.

In one particular embodiment, in the unfolded state of the tent body 1, the lower region 3 of the tent body 1 has a height value ranging from one third of the height value of the upper region 2.

The lower region 3 of the tent body 1 is rectangular in cross section on the resting surface, and the bottom inflatable column 454 of the tent body 1 includes a first bottom column, a second bottom column, a third bottom column, and a fourth bottom column that can form a rectangular shape, head to tail, as particularly shown in fig. 3.

In practical applications, as can be seen from the side view of the tent body 1 in fig. 2, the portion of the corner inflatable column 41 corresponding to the lower area 3 is perpendicular to the bottom inflatable column 45, and the portion of the corner inflatable column 41 corresponding to the upper area 2 is provided in an arc shape protruding outwards, and the corner inflatable column 41 is connected at the highest point of the upper area 2. In one embodiment, the upper region 2 of the tent body 1 may be formed with a dome-shaped upper roof, which makes the upper roof of the tent body 1 free from water accumulation or snow residue in rainy and snowy days, and the rainy and snowy days may fall through an arcuate slope in the upper roof, minimizing the influence of the weather on the tent body 1.

In one embodiment, the highest point of the upper region 2 of the tent body 1 is a balloon, and as shown in fig. 4, a plurality of corner inflatable columns are connected to the balloon at the same time, so that the air flows inside the corner inflatable columns can be communicated with each other, and the inflation efficiency is higher.

A window 5 is provided in the upper region 2 of the tent body 1 corresponding to the first bottom pole and the third bottom pole, wherein a skylight 52 is provided near the highest point of the upper region 2, and a side window 51 is provided near the lower end of the upper region 2. Wherein, the skylight 52 is covered with a double-layer shielding structure 6, which comprises an outer light-transmitting layer 63 and an inner light-shielding layer 61, wherein the light-transmitting layer 63 can be fixedly arranged at the position of the skylight 52 or can be windable; the side window 51 has a three-layer shielding structure 6, and a light-transmitting layer 63, a screen window layer 62 and a light-shielding layer 61 are sequentially arranged from the inside to the outside of the tent body 1.

The upper region 2 of the tent body 1 corresponding to the height above the side window 51 is provided with the first transverse reinforcing columns 431 corresponding to the four bottom columns, and two ends of each first transverse reinforcing column 431 are respectively connected with different corner inflatable columns 41 and are parallel to the plane of the bottom inflatable column 454, so that the structural stability of the upper region 2 of the tent body 1 can be further reinforced. Below the side window 51, a second transverse reinforcement post 432 is further provided for structural reinforcement in correspondence of the junction of the upper region 2 and the lower region 3 of the tent body 1, which junction serves as a transition region. Wherein the second transverse reinforcement post 432 is parallel to the first transverse reinforcement post 431 and has the same ends as the first transverse reinforcement post 431 connected to different corner inflatable posts 41, respectively. The tent body 1 can be stressed more uniformly, the supporting force is stronger, and the connection is more stable. Specifically, the first transverse reinforcement post 431 and the second transverse reinforcement post 432 may be disposed outside the tent body 1, or may be disposed inside the tent body 1, as shown in fig. 1.

In the tent body 1 corresponding to the second bottom pole and the fourth bottom pole, a passing door 7 is provided through the upper area 2 and the lower area 3, and the passing door 7 may adopt a multi-layer shielding structure 6 like the window 5, or may be opened and closed by a zipper structure. By disposing the pass door 7, the sunroof 52, and the side window 51 in opposition, convection can be generated in both the window 5 and the door of the tent body 1. One of them passes outside the door 7 and can dismantle and be connected with sunshade 71, through this setting, can effectively increase the functional and the travelling comfort of tent, can provide better user experience for the user.

The embodiment provides an air column tent, which comprises a tent main body, wherein an air column is formed in the upper area of the tent main body and the lower area of the tent main body; all the inflatable columns are communicated and connected inside to form an inflation and deflation channel, so that the tent body is switched between an unfolding state and a shrinking state through inflation or deflation operation of the inflation and deflation channel. The problem of water accumulation on the top surface of the tent in rainy and snowy weather can be effectively avoided; through setting up the inflation post setting that the diversification was arranged, make all inflation posts link up and link to each other, can be for the tent inflation through a minimum inflation inlet, make its complete deployment shaping, further make the use of tent and carry all more convenient, whole atress is even, more firm.

Those skilled in the art will appreciate that the drawing is merely a schematic illustration of a preferred implementation scenario and that the modules or flows in the drawing are not necessarily required to practice the application. Those skilled in the art will appreciate that modules in an apparatus in an implementation scenario may be distributed in an apparatus in an implementation scenario according to an implementation scenario description, or that corresponding changes may be located in one or more apparatuses different from the implementation scenario. The modules of the implementation scenario may be combined into one module, or may be further split into a plurality of sub-modules. The above-mentioned inventive sequence numbers are merely for description and do not represent advantages or disadvantages of the implementation scenario. The foregoing disclosure is merely illustrative of some embodiments of the application, and the application is not limited thereto, as modifications may be made by those skilled in the art without departing from the scope of the application.

Claims (10)

1. An air column tent, comprising: a tent body;

An air column is formed in the upper area of the tent body and the lower area of the tent body; all the inflatable columns are communicated and connected inside to form an inflation and deflation channel, so that the tent main body is switched between an unfolding state and a shrinking state through inflation or deflation operation of the inflation and deflation channel;

In the unfolded state of the tent body, the height value of the upper area of the tent body is greater than that of the lower area of the tent body; the upper region of the tent body has a cross section in the horizontal direction that gradually increases from the highest point down.

2. An air column tent according to claim 1, wherein in the unfolded state of the tent body, the lower area of the tent body has a height value ranging from one fourth to one half of the height value of the upper area.

3. An air column tent according to claim 1, wherein the inflatable column comprises a corner inflatable column; the cross section of the lower area of the tent body comprises a rectangle, and the four corner edges of the lower area of the tent body are respectively and correspondingly connected with the corner inflatable columns extending to the highest point of the tent body;

The shape of the corner inflatable post in the upper region of the tent body includes an arc shape protruding toward the outside of the tent body.

4. An air column tent according to claim 1, wherein the upper and/or lower region of the tent body is provided with one or at least two windows;

Each window is sequentially provided with a multi-layer shielding structure from the inside to the outside of the tent main body;

each shielding structure corresponds to one of a light shielding layer, a light transmitting layer and a window screening layer;

Each of the shielding structures is configured to retract relative to the window to open the window or to extend to cover the window.

5. A gas column tent according to claim 4, wherein the area of said barrier structure decreases progressively from the outside to the inside of said tent body;

the edges of different shielding structures on the tent body are not overlapped.

6. An air column tent according to claim 1, wherein one or more of said inflatable columns are provided with one or more inflation and deflation holes;

And a switching valve is arranged at the joint between part or all of the connected inflatable columns, and is used for switching on or switching off the through relation between the connected inflatable columns and controlling the gas flow in the inflatable columns.

7. An air column tent according to claim 1, further comprising at least one pass gate extending through an upper region and/or a lower region of the tent body;

At least one passage door is detachably connected with a sunshade.

8. A gas column tent according to claim 3, wherein said gas column comprises: a bottom inflatable column; the bottom inflatable column is positioned in a lower region of the tent body; each bottom inflatable column is sequentially connected and arranged around the edge of the lower area of the tent body.

9. A gas column tent according to claim 3, wherein said gas column comprises: transverse reinforcement columns and/or vertical reinforcement columns;

One end of the vertical reinforcing column is connected with the lowest point of the lower area of the tent body, and the other end of the vertical reinforcing column is connected with the highest point of the upper area of the tent body; windows are arranged in the upper area and/or the lower area of the tent body at two sides of the vertical reinforcing column;

the transverse reinforcing columns are positioned above the window and/or below the window and/or at the connection position of the upper and lower areas of the tent body, and two ends of the transverse reinforcing columns are respectively connected with different corner inflatable columns.

10. A gas column tent according to claim 1, wherein said upper zone is further provided with a smoke evacuation zone;

The smoke exhaust area is provided with a movable curtain which is used for closing or opening the smoke exhaust area;

The smoke exhaust pipe is detachably connected in the smoke exhaust area.