CN215255084U - Fast-assembling outdoor tent - Google Patents

Abstract

The utility model discloses an outdoor tent of ready-package, include along the first assembled unit of X direction range equipment, along the second assembled unit of Y direction range equipment and install in the switching-over unit of first assembled unit and second assembled unit handing-over department. The first assembly unit comprises a first roof beam, a first oblique beam, a first cross beam and a first upright post; the second assembly unit comprises a second roof beam, a second oblique beam, a second cross beam and a second upright post; the reversing unit comprises a roof beam reversing passage and a cross beam reversing passage, wherein the first roof beam and the second roof beam are assembled through the roof beam reversing passage, and the first cross beam and the second cross beam are assembled through the cross beam reversing passage. Compared with the prior art, the utility model discloses it leads to and the crossbeam switching-over is led to including the roof beam switching-over with the help of the switching-over unit to help the second assembly unit with the arbitrary increase and decrease in the Y direction of the first assembly unit of perpendicular to, thereby not be subject to the increase or the reduction that can only be in single direction, thereby can utilize open air space better.

Description

Fast-assembling outdoor tent

Technical Field

The utility model relates to an outdoor articles for use field especially relates to a ready-package outdoor tent.

Background

Along with the improvement of living standard of people, the spiritual life of people is more and more abundant, and traveling becomes the second choice of relaxing the body and mind and widening the visual field in the life of people. During traveling, a good accommodation environment can bring pleasant mood to people. An outdoor tent is one of outdoor accommodation appliances that can be more personally on the nature under conditions allowing.

Current outdoor tent in the existing market, overall structure is mostly rectangular type or circular that the single direction set up, and the shape is comparatively single, and is lower to area's utilization ratio, and more to the restriction of function usage, can't satisfy the diversified demand of customer.

At present, outdoor tents on the market are mostly assembled, but the outdoor tents can only increase or decrease units along the same direction, and the units cannot be increased or decreased along the vertical direction, so that the outdoor tents can only be suitable for the occupied land with long terrain, and the occupied land area cannot be arranged in the vertical direction.

Therefore, there is a need for a fast-assembling outdoor tent with good appearance, practicality, modularization, convenient assembly and disassembly and high space utilization rate to overcome the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a quick-mounting outdoor tent that pleasing to the eye practicality, modularization, installation are dismantled conveniently and space utilization is high.

In order to achieve the above object, the fast-assembly outdoor tent of the present invention comprises a first assembly unit assembled in an X-direction, a second assembly unit assembled in a Y-direction, and a direction-changing unit installed at the junction of the first assembly unit and the second assembly unit; the first assembly unit comprises first roof beams arranged along the X direction, first oblique beams assembled at two ends of the first roof beams and arranged axially symmetrically along the first roof beams, first cross beams assembled between the two first oblique beams and arranged along the X direction, and first upright posts simultaneously supporting the first oblique beams and the first cross beams; the second assembly unit comprises second roof beams arranged along the Y direction, second oblique beams assembled at two ends of the second roof beams and arranged axially symmetrically along the second roof beams, second cross beams assembled between the second oblique beams and arranged along the Y direction, and second upright posts simultaneously supporting the second oblique beams and the second cross beams; the reversing unit comprises a roof beam reversing passage and a cross beam reversing passage, the first roof beam and the second roof beam are assembled through the roof beam reversing passage, and the first cross beam and the second cross beam are assembled through the cross beam reversing passage.

Compared with the prior art, the utility model discloses a ready-package outdoor tent has the switching-over unit with the help of between first equipment unit and the second equipment unit, and the switching-over unit includes that the roof beam switching-over leads to and the crossbeam switching-over leads to help the second equipment unit can increase and decrease wantonly with the Y direction of the first equipment unit of perpendicular to, thereby make the utility model discloses a ready-package outdoor tent is whole to be the T type, is not subject to the increase or the reduction that can only be in single direction, thereby can utilize open air space better, makes to take up an area of the space more reasonable and maximize, thereby makes the ready-package outdoor tent space of building more spacious, more can be applicable to outdoor environment.

Preferably, the width of the second assembly unit is at least the length of two first assembly units.

Preferably, the two adjacent first roof beams and the two opposite first inclined beams are connected by a roof mounting through, the roof mounting through is a four-way structure, the roof mounting through comprises a roof beam through pipe arranged along the X direction and inclined beam upper end through pipes which are perpendicular to the roof beam through pipe and are axially symmetrical to the roof beam through pipe, the inclined beam upper end through pipe is also obliquely arranged along the vertical direction of the roof beam through pipe at an acute angle, the first roof beam is inserted on the roof beam through pipe, and the upper end of the first inclined beam is inserted on the inclined beam upper end through pipe.

Preferably, the roof is installed between two adjacent second roof beams and between two opposite second inclined beams.

Preferably, two adjacent first crossbeam, first stand and first sloping lead to the connection through the stand between, the stand leads to and is the cross-joint structure, the stand lead to including the crossbeam siphunculus that sets up along the X direction, along the stand siphunculus that vertical direction set up and with the stand siphunculus is at the coplanar and relative the stand siphunculus is the sloping lower extreme siphunculus that the obtuse angle set up, the lower extreme of first sloping is inserted and is arranged in on the sloping lower extreme siphunculus, the upper end of first stand is inserted and is arranged in on the stand siphunculus, first crossbeam is inserted and is arranged in the crossbeam siphunculus.

Preferably, the adjacent second cross beam, the second upright and the second oblique beam are connected through the upright.

Preferably, the roof beam reversing passage is a four-way structure, and includes a first roof beam through tube disposed opposite to each other in the X direction, a second roof beam through tube disposed in the Y direction, and a first cross beam upper end through tube disposed on the same vertical plane as the second roof beam through tube, the first roof beam through tube and the second roof beam through tube are disposed on the same horizontal plane, the first roof beam is inserted into the first roof beam through tube, the second roof beam is inserted into the second roof beam through tube, and the upper end of the first cross beam is inserted into the first cross beam upper end through tube.

Preferably, the beam reversing tube comprises a first beam through tube, a second beam through tube, a common upright post through tube, a first oblique beam lower end through tube and a second oblique beam lower end through tube, wherein the first beam through tube and the second beam through tube are arranged oppositely along the X direction, the first beam through tube and the second beam through tube are positioned on the same horizontal plane and are perpendicular to each other, the common upright post through tube is vertically arranged below the first beam through tube and the second beam through tube, the first oblique beam lower end through tube and the horizontal plane where the first beam through tube is positioned are in an acute angle, the second oblique beam lower end through tube and the horizontal plane where the second beam through tube is positioned are in an acute angle, the first upright post or the second upright post is inserted into the common upright post, the first beam is inserted into the first beam through tube, the second beam is inserted into the second beam through tube, the lower end of the first oblique beam is inserted into the first oblique beam lower end through pipe, and the lower end of the second oblique beam is inserted into the second oblique beam lower end through pipe.

Preferably, the first cross member, the second cross member, the first oblique member, the second oblique member, the first upright, the second upright, the first roof beam and the second roof beam are all straight tubes.

Preferably, the straight pipe comprises a first straight pipe and a second straight pipe which are mutually detachable and assembled, a clamping hole is formed in the outer side wall of the first straight pipe, the second straight pipe comprises a clamping main body and a straight pipe main body, the outer diameter of the clamping main body is smaller than that of the straight pipe main body, the clamping main body is provided with a clamping pin with elasticity, when the clamping main body is arranged in the first straight pipe in a penetrating mode, the clamping pin is firstly elastically compressed to enter the first straight pipe along with the second straight pipe, and when the clamping pin is aligned with the clamping hole, the clamping pin is elastically restored to clamp the clamping hole.

Drawings

Fig. 1 is a schematic perspective view of the fast-assembled outdoor tent of the present invention.

Fig. 2 is a front view structure schematic diagram of the fast-assembling outdoor tent of the present invention.

Fig. 3 is a schematic perspective view of the first assembly unit of the fast-assembling outdoor tent of the present invention.

Fig. 4 is a schematic view of the three-dimensional structure of the roof installation channel of the fast-assembling outdoor tent of the present invention.

Fig. 5 is a schematic perspective view of the column of the fast-assembled outdoor tent of the present invention.

Fig. 6 is a schematic perspective view of the roof beam reversing structure of the fast-assembling outdoor tent of the present invention.

Fig. 7 is a schematic view of the three-dimensional structure of the beam reversing tube of the fast-assembling outdoor tent of the present invention.

Fig. 8 is a schematic perspective view of the base of the fast-assembling outdoor tent of the present invention.

Fig. 9 is a schematic perspective view of the reinforced base of the fast-assembling outdoor tent of the present invention.

Fig. 10 is a schematic sectional view of a straight pipe of the fast-assembling outdoor tent of the present invention.

Detailed Description

In order to explain technical contents and structural features of the present invention in detail, the following description is made with reference to the embodiments and the accompanying drawings.

Referring to fig. 1, the fast-assembled outdoor tent 100 of the present invention includes a first assembly unit 1 assembled in an X-direction, a second assembly unit 2 assembled in a Y-direction, and a direction-changing unit installed at a junction of the first assembly unit 1 and the second assembly unit 2. Specifically, in the present embodiment, there are four first assembly units 1, two second assembly units 2, and the width of the second assembly unit 2 is the length of two first assembly units 1. That is, the number of the first assembling units 1 is at least two, and the number of the second assembling units 2 is at least one. It is understood that in other embodiments, the first assembly units 1 may be two, three or five different, and the second assembly units 2 may be one, three or four different. The width of the second assembly unit 2 is at least the length of two first assembly units 1, for example, the width of the second assembly unit 2 is the length of three first assembly units 1, or the width of the second assembly unit 2 is the length of four first assembly units 1, so the number of the first assembly units 1, the number of the second assembly units 2 and the width of the second assembly units 2 are not limited thereto. More specifically, the following:

referring to fig. 1 and 3, the first assembly unit 1 includes first roof beams 11 arranged along the X direction, first inclined beams 12 assembled at both ends of the first roof beams 11 and arranged axially symmetrically along the first roof beams 11, a first cross beam 13 assembled between the two first inclined beams 12 and arranged along the X direction, and a first upright 14 supporting the first inclined beams 12 and the first cross beam 13. It will be understood that the specific structure of the first assembly unit 1 coincides with the specific structure of the second assembly unit 2, only the difference in the arrangement direction. Referring to fig. 1 and 3, the second assembly unit 2 includes a second roof beam 21 disposed along the Y direction, second inclined beams 22 assembled at both ends of the second roof beam 21 and disposed axially symmetrically along the second roof beam 21, a second cross beam 23 assembled between the two second inclined beams 22 and disposed along the Y direction, and a second upright 24 supporting the second inclined beams 22 and the second cross beam 23.

Referring to fig. 1, 3 and 4, two adjacent first roof beams 11 and two opposite first inclined beams 12 are connected by a roof mounting through-hole 3. The roof mounting tube 3 is a four-way structure. The roof mounting tube 3 includes a roof beam through tube 31 arranged along the X direction and an inclined beam upper end through tube 32 perpendicular to the roof beam through tube 31 and arranged axially symmetrically with the roof beam through tube 31, the inclined beam upper end through tube 32 is also arranged obliquely at an acute angle along the vertical direction of the roof beam through tube 31, the first roof beam 11 is inserted into the roof beam through tube 31, and the upper end of the first inclined beam 12 is inserted into the inclined beam upper end through tube 32. It will be understood that in the second assembly unit 2, two adjacent second roof beams 21 and two opposite second inclined beams 22 are connected by the roof mounting through 3 in the same manner as the first assembly unit 1, and therefore, will not be described herein.

Referring to fig. 1, 3 and 5, two adjacent first cross beams 13, first vertical columns 14 and first oblique beams 12 are connected by vertical column through holes 4. The upright post tube 4 is of a four-way structure. The column through 4 comprises a cross beam through pipe 41 arranged along the X direction, a column through pipe 42 arranged along the vertical direction and an inclined beam lower end through pipe 43 which is arranged on the same plane with the column through pipe 42 and forms an obtuse angle with the column through pipe 42. The lower end of the first oblique beam 12 is inserted into the oblique beam lower end through pipe 43, the upper end of the first upright post 14 is inserted into the upright post through pipe 42, and the first cross beam 13 is inserted into the cross beam through pipe 41. It can be understood that, in the second assembly unit 2, the adjacent second cross beam 23, the second upright column 24 and the second oblique beam 22 are connected by the upright column through 4, and the connection manner is the same as that of the first assembly unit 1, and therefore, the description thereof is omitted.

Referring to fig. 1, 2, 8 and 9, the quick-assembly outdoor tent 100 of the present invention further includes a base 7, the first upright 14 is connected to the floor (not shown) through the base 7, the base 7 includes a base plate 71 for connecting to the floor and an inserting hole 72 for inserting the first upright 14, the inserting hole 72 is located above the base plate 71, and screw holes 711 for fixedly connecting to the floor are disposed around the base plate 71. Preferably, the first assembly unit 1 at the head end or the tail end along the X direction further includes two first reinforcing support beams 9, two second reinforcing support beams 10 and an oppositely disposed reinforcing base 8, one end of the reinforcing base 8 is provided with a first hinge point 81 hinged to the first reinforcing support beam 9 and a second hinge point 82 hinged to the second reinforcing support beam 10, and the first hinge point 81 and the second hinge point 82 are disposed at intervals along the width direction of the first assembly unit 1. The lower extreme of first enhancement supporting beam 9 is articulated with first pin joint 81, the upper end of first enhancement supporting beam 9 is located the below of first roof beam 11, the upper end of two first enhancement supporting beams 9 is the setting of crossing and the nodical below that is located first roof beam 11, the lower extreme of second enhancement supporting beam 10 is articulated with second pin joint 82, the upper end of second enhancement supporting beam 10 is worn to arrange in a stand and is strengthened leading to on 15, the stand is strengthened leading to 15 and is equipped with first siphunculus 151 that sets up along vertical direction and the second siphunculus 152 that is the acute angle setting with the contained angle of first siphunculus 151.

Referring to fig. 1, 6 and 7, the reversing unit includes a roof beam reversing passage 5 and a cross beam reversing passage 6, the first roof beam 11 and the second roof beam 21 are assembled by the roof beam reversing passage 5, and the first cross beam 13 and the second cross beam 23 are assembled by the cross beam reversing passage 6.

Referring to fig. 1 and 6, the roof beam reversing passage 5 is a four-way structure, the roof beam reversing passage 5 includes a first roof beam through pipe 51 disposed opposite to each other along the X direction, a second roof beam through pipe 52 disposed along the Y direction, and a first inclined beam upper end through pipe 53 disposed on the same vertical plane as the second roof beam through pipe 52, the first roof beam through pipe 51 and the second roof beam through pipe 52 are disposed on the same horizontal plane, the first roof beam 11 is inserted into the first roof beam through pipe 51, the second roof beam 21 is inserted into the second roof beam through pipe 52, and the upper end of the first inclined beam 12 is inserted into the first inclined beam upper end through pipe 53.

Referring to fig. 1 and 7, the cross beam reversing pipe 6 includes a first cross beam through pipe 61, a second cross beam through pipe 62, a common upright post through pipe 63, a first oblique beam lower end through pipe 64 and a second oblique beam lower end through pipe 65, wherein the first cross beam through pipe 61 and the second cross beam through pipe 62 are arranged in a same horizontal plane and are perpendicular to each other, the common upright post through pipe 63 is vertically arranged below the first cross beam through pipe 61 and the second cross beam through pipe 62, an included angle between the first oblique beam lower end through pipe 64 and the horizontal plane of the first cross beam through pipe 61 is an acute angle, an included angle between the second oblique beam lower end through pipe 65 and the horizontal plane of the second cross beam through pipe 62 is an acute angle, the first upright post 14 or the second upright post 24 is inserted into the common upright post through pipe 63, the first cross beam 13 is inserted into the first cross beam through pipe 61, the second cross beam 23 is inserted into the second cross beam through pipe 62, the lower end of the first oblique beam 12 is inserted into the first oblique beam lower end 64, the lower end of the second oblique beam 22 is inserted on the through pipe 65 at the lower end of the second oblique beam.

Referring to fig. 10, in the present embodiment, the first cross beam 13, the second cross beam 23, the first oblique beam 12, the second oblique beam 22, the first upright post 14, the second upright post 24, the first roof beam 11, the second roof beam 21, the first reinforcing support beam 9, and the second reinforcing support beam 10 are all straight tubes. Preferably, the straight pipe is arranged to be a two-section structure which can be disassembled and assembled for outdoor transportation. By way of example of the first reinforcing support beam 9, the straight tube includes the first straight tube 91 and the second straight tube 92 that can dismantle and assemble each other, the block hole 911 has been seted up on the lateral wall of the first straight tube 91, the second straight tube 92 includes block main part 921 and straight tube main part 922, the external diameter of block main part 921 is less than the external diameter of straight tube main part 922, block main part 921 is equipped with takes elastic block pin 9211, when block main part 921 wears to arrange in first straight tube 91, the first elastic compression of block pin 9211 gets into first straight tube 91 along with second straight tube 92, when block pin 9211 aligns with block hole 911, block pin 9211 elastic recovery is with block hole 911.

It is noted that the X-direction and the Y-direction refer to two mutually perpendicular directions on the same horizontal plane. The vertical direction is perpendicular to both the X-direction and the Y-direction.

In the present embodiment, the first cross beam 13, the second cross beam 23, the first inclined beam 12, the second inclined beam 22, the first upright post 14, the second upright post 24, the first roof beam 11, the second roof beam 21, the first reinforcing support beam 9, and the second reinforcing support beam 10 are all steel tube structures, but in other embodiments, the first cross beam 13, the second cross beam 23, the first inclined beam 12, the second inclined beam 22, the first upright post 14, the second upright post 24, the first roof beam 11, the second roof beam 21, the first reinforcing support beam 9, and the second reinforcing support beam 10 may be wood rod structures, and the material thereof is not limited thereto.

It is understood that the quick-assembly outdoor tent 100 of the present invention further includes an inner cloth (not shown), an outer cloth (not shown) and a rope (not shown). Taking the first assembly unit 1 as an example, the inner cloth is supported by the first roof beam 11, the first oblique beam 12 and the first beam 13, the rope is threaded on the peripheral side of the inner cloth and wound on the first beam 13 to tension the inner cloth, and similarly, the rope is threaded on the peripheral side of the outer cloth and wound on the first beam 13 to tension the outer cloth, it can be understood that the inner cloth has a curtain falling to the ground, and the outer cloth is carried outside the inner cloth and on the roof formed by all the first assembly unit 1 and the second assembly unit 2.

Compared with the prior art, the utility model discloses a ready-package outdoor tent 100 has the switching-over unit with the help of between first equipment unit 1 and the second equipment unit 2, and the switching-over unit includes that the roof beam switching-over leads to 5 and the crossbeam switching-over leads to 6 to help second equipment unit 2 can be with the arbitrary increase and decrease in the Y direction of the first equipment unit 1 of perpendicular to, thereby make the utility model discloses a ready-package outdoor tent 100 is whole to the T type, is not restricted to the increase or the reduction that can only be in single direction, thereby can utilize open air space better, makes to take up an area of the space more reasonable and maximize, thereby makes the ready-package outdoor tent 100 space of building spacious, more can be applicable to outdoor environment.

The above disclosure is only a preferred embodiment of the present invention, and the scope of the claims of the present invention should not be limited thereby, and all the equivalent changes made in the claims of the present invention are intended to be covered by the present invention.

Claims (10)

1. A fast-assembly outdoor tent is characterized by comprising a first assembly unit, a second assembly unit and a reversing unit, wherein the first assembly unit is assembled in an X-direction in an arrayed mode, the second assembly unit is assembled in a Y-direction in an arrayed mode, and the reversing unit is installed at the joint of the first assembly unit and the second assembly unit; the first assembly unit comprises first roof beams arranged along the X direction, first oblique beams assembled at two ends of the first roof beams and arranged axially symmetrically along the first roof beams, first cross beams assembled between the two first oblique beams and arranged along the X direction, and first upright posts simultaneously supporting the first oblique beams and the first cross beams; the second assembly unit comprises second roof beams arranged along the Y direction, second oblique beams assembled at two ends of the second roof beams and arranged axially symmetrically along the second roof beams, second cross beams assembled between the second oblique beams and arranged along the Y direction, and second upright posts simultaneously supporting the second oblique beams and the second cross beams; the reversing unit comprises a roof beam reversing passage and a cross beam reversing passage, the first roof beam and the second roof beam are assembled through the roof beam reversing passage, and the first cross beam and the second cross beam are assembled through the cross beam reversing passage.

2. The quick-fit outdoor tent of claim 1, wherein the width of the second assembly unit is at least the length of two of the first assembly units.

3. The outdoor tent of claim 1, wherein two adjacent first roof beams and two opposite first diagonal beams are connected by a roof installation through, the roof installation through is a four-way structure, the roof installation through comprises a roof beam through tube arranged along the X direction and diagonal beam upper end through tubes arranged perpendicular to the roof beams and axisymmetrically with the roof beam through tube, the diagonal beam upper end through tubes are also arranged along the vertical plane of the roof beam through tubes at acute angles, the first roof beams are inserted on the roof beam through tubes, and the upper ends of the first diagonal beams are inserted on the diagonal beam upper end through tubes.

4. The quick-install outdoor tent of claim 3, wherein the roof mount through connection is formed between two adjacent second roof beams and between two opposite second sloping beams.

5. The outdoor tent of ready-package of claim 1, characterized in that two adjacent first crossbeam, first stand and first sloping lead to the connection through the stand between, the stand leads to and is the cross-joint structure, the stand lead to including the crossbeam siphunculus that sets up along the X direction, along the stand siphunculus that vertical direction set up and with the stand siphunculus is at the coplanar and relative the stand siphunculus is the sloping lower extreme siphunculus that the obtuse angle set up, the lower extreme of first sloping is inserted and is placed in on the siphunculus of sloping lower extreme, the upper end of first stand is inserted and is placed in on the stand siphunculus, first crossbeam is inserted and is placed in the crossbeam siphunculus.

6. The quick-assembly outdoor tent of claim 4, wherein the second cross beam, the second vertical column and the second oblique beam are connected with each other by the vertical column.

7. The outdoor tent of claim 1, wherein the roof beam reversing channel has a four-way structure, and comprises a first roof beam through tube disposed opposite to each other in the X direction, a second roof beam through tube disposed in the Y direction, and a first cross beam upper end through tube disposed on the same vertical plane as the second roof beam through tube, wherein the first roof beam through tube and the second roof beam through tube are disposed on the same horizontal plane, the first roof beam is inserted into the first roof beam through tube, the second roof beam is inserted into the second roof beam through tube, and the upper end of the first cross beam is inserted into the first cross beam upper end through tube.

8. The fast-assembling outdoor tent of claim 1, wherein the beam reversing channel comprises a first beam through tube, a second beam through tube, a common column through tube, a first oblique beam lower end through tube and a second oblique beam lower end through tube, the first beam through tube and the second beam through tube are arranged in the X direction, the first beam through tube and the second beam through tube are arranged in the same horizontal plane and are perpendicular to each other, the common column through tube is vertically arranged below the first beam through tube and the second beam through tube, the first oblique beam lower end through tube and the horizontal plane where the first beam through tube is arranged are at an acute angle, the second oblique beam lower end through tube and the horizontal plane where the second beam through tube is arranged are at an acute angle, the first column or the second column is inserted into the common column through tube, the first beam is inserted into the first beam through tube, the second cross beam is inserted in the second cross beam through pipe, the lower end of the first oblique beam is inserted in the first oblique beam lower end through pipe, and the lower end of the second oblique beam is inserted in the second oblique beam lower end through pipe.

9. The fast-assembled outdoor tent of claim 1, wherein the first cross member, second cross member, first oblique member, second oblique member, first upright member, second upright member, first roof member, and second roof member are straight tubes.

10. The outdoor fast-assembling tent of claim 9, wherein the straight pipe comprises a first straight pipe and a second straight pipe which are detachable and assembled with each other, the outer sidewall of the first straight pipe is provided with a locking hole, the second straight pipe comprises a locking body and a straight pipe body, the outer diameter of the locking body is smaller than the outer diameter of the straight pipe body, the locking body is provided with a locking pin with elasticity, when the locking body is inserted into the first straight pipe, the locking pin is firstly elastically compressed to enter the first straight pipe along with the second straight pipe, and when the locking pin is aligned with the locking hole, the locking pin is elastically restored to lock the locking hole.

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