KR20140024730A

KR20140024730A - Small and large combined tent

Info

Publication number: KR20140024730A
Application number: KR1020120091218A
Authority: KR
Inventors: 유제우
Original assignee: 유제우
Priority date: 2012-08-21
Filing date: 2012-08-21
Publication date: 2014-03-03

Abstract

The present invention relates to a prefab tent.
Normally, when buying a tent, you'll need to buy large and small.
However, as shown in Fig. 1, the present invention prepares a plurality of roofs and walls of a prescribed size in advance, and assembles them according to the size of the campsite or the number of campers, so that they can be used in large or small sizes. .
And for the convenience of installation and withdrawal and ease of carrying the tent,
The sides of each separate tent, like an umbrella, can easily be folded up and unfolded automatically when unfolded.
And when the skeletons of the tents are connected to each other, it is possible to connect in one direction with a single connection, and used a special ball joint that is light, strong, and easy to detach for a prefabricated tent.
Healthy rest in nature is very important for modern people.
If a tent can be assembled large or small, it's quick to adapt to the camp, and this can help a needy neighbor, making a more enjoyable camping experience. The present invention will contribute to the development of general healthy leisure culture and industry as well as professional climbers and travelers.

Description

Small and large prefab tents {omitted}

tent

Prefabricated tent

Normally, when buying a tent, you'll need to buy large and small.

However, as shown in Fig. 1, the present invention prepares a plurality of roofs and walls of a prescribed size in advance, and assembles them according to the size of the campsite or the number of campers, so that they can be used in large or small sizes. .

And for the convenience of installation and withdrawal and ease of carrying the tent,

The sides of each separate tent, like an umbrella, easily fold up and need to be automatically unfolded when unfolded.

And when the skeletons of the tents are connected to each other, it is necessary to develop and use a new joint method for easy detachment.

First, as shown in (a) of FIG. 1, the tent of the hexahedron structure is composed of four identical faces and one entrance face of the same size, and as shown in (b) of FIG. 1), when the roof is sharpened, It consists of four identical sides of the same size, one side of a pentagonal structure and one entrance side.

This assembly method is mainly made of the same side is easy to produce and carry.

And as shown in Figure 2) if only the number of the same assembly surface is prepared, it is possible to make a balcony (Fig. 2-4) in front of the entrance door of the tent.

And as shown in Figure 3, if only a large number of the same assembly surface is prepared, as shown in Figure 3-5) to extend the tent to the rear of the tent, or as shown in Figure 3-6), simply stretch the tent to the side of the tent Then, by increasing, the tent capacity can be doubled or quadrupled.

And as shown in Figures 4) and 5), it is also possible to create a more stable tent with a longer base. However, this type of tent is easy to stretch backwards, but it is difficult to stretch laterally.

In the present invention, as shown in Figure 6, so as to conveniently perform the above functions, along the edge of the tent cloth (Fig. 6-10) used for the construction surface of each independent tent, general zipper or waterproof By installing a zipper (Fig. 6-7), it was possible to easily stretch the tent using this.

In addition, as shown in Figure 6, in order to simplify the carrying of the configuration surface of each independent tent, to make the skeleton of the configuration surface of each independent tent to have an umbrella-like structure, each independent side can be folded and stored like an umbrella Made it possible.

Figure 6-8) is a tent meat corresponding to the umbrella meat. 6-9 is an upper tent bar connecting link device corresponding to an upper multi-directional umbrella link connecting device installed on a central shaft of an umbrella.

This umbrella-like structure can be seen in detail in Figure 7-a). Like an umbrella that automatically unfolds, a spring (FIG. 7-13) installed above the central axis (FIG. 7-17) causes the tent surface to unfold automatically as it shrinks, as shown in FIG. 7-B). A spring installed below the shaft (Figs. 7-17) causes the tent surface to unfold automatically as it is stretched.

However, unlike an umbrella that requires a carrying handle, the central axis (Fig. 7-17), which extends long into the tent, is an unnecessary component that narrows the space utilization inside the tent.

To solve this, as shown in Fig. 8, the central axis (Fig. 7-17) was made in two stages so that the length could be increased and given. This will reduce the spring (Fig. 7-13) installed on the upper side of the central axis (Fig. 7-17) and automatically expand the tent surface, the length of the central axis (Fig. 7-17) is also automatically reduced, The problem can be solved.

And in order to secure more space inside the tent, as shown in Figure 9, it is also possible to convex the tent meat (Fig. 9-16) of the lower side to the outside.

This arrangement, however, is difficult to stretch out the surface of the independent tent.

In order to solve the above problem, the structure of the tent flesh was changed as opposed to the umbrella structure of the general umbrella.

As shown in Fig. 8, in the case of an umbrella, the length of the circumference of the circumference of the umbrella which forms the awning of the umbrella is long, and the length of the bottom of the umbrella that supports it is short.

In the present invention, as shown in Figure 10, to shorten the length of the circumferential tent meat (Fig. 9-15), the end is connected by a link to the inside of the upper side of the tent meat (Fig. 9-16) of the lower side. After fixing the position, another long circumference of the tent (Fig. 10-19), which supports the tent cloth, is connected to the circumference of the tent (Fig. 9-15) and the sliding link (Fig. 10-20). ).

This makes it possible to spread the tent surface wider even though the lower tent flesh (Fig. 9-16) is convex outward.

11) installs another 'connection aid 11-21' in place of the sliding connection link (FIG. 10-20) used in FIG. 10, and this' connection aid 11-21. 11 is an embodiment in which both positions are connected by a position fixing link as shown in FIG. This structure achieves the same effect as the sliding connection link (Fig. 10-20).

However, not only the tent structure of each tent is not only an umbrella structure of the independent tent surface, but also a solid frame structure in the overall structure of the tent.

Therefore, in order to solve this problem, as seen in FIG. 12, which secures the lower tent connecting linkage device (FIGS. 7-14), which is slid along the spring, installed at the bottom of the central shaft (FIGS. 7-17). Install a 'lower tent meat fixture' (Figure 12-22).

In this case, after the independent tent faces are unfolded, the lower tent meat connecting link device (FIGS. 7-14) cannot be slid by the lower tent meat fixing device (FIGS. 12-22), and thus can be fixed to the central shaft. Tightly fixed tents can serve as a skeleton for the entire tent.

And unlike umbrellas, tents should be larger and more sturdy and do not require a lot of tents, so the upper tents link linkage (Figures 7-9) and lower tents installed on the central axis (Figures 7-17). The connecting linkage device (Figs. 7-14), as shown in Fig. 13, may be made a more robust connecting link.

By the way, as shown in Figure 14, by the 'top tent fixing device (Fig. 14-9), the tents installed on each independent tent surface serves as a solid skeleton of the tent only in the diagonal direction of the tent surface.

Therefore, there is a need for a multi-directional integrated connection device that connects tent bars installed on the surface of an independent tent, and combines tent skeletons made of horizontal and vertical directions of tents and inclined lower side directions depending on the tents. As this multidirectional integrated connection device, as shown in Fig. 14, a multidirectional ball joint connection device (Fig. 14-9) may be used.

However, no multidirectional ball joint coupling has been developed for prefabricated tents. Therefore, as shown in Fig. 15, a specially developed special multidirectional ball joint connecting device (Fig. 14-9) is used.

As shown in Fig. 15, the apparatus forms a plurality of spherical grooves (Figs. 15-24) in the ball joint of the ball joint (Figs. 15-23), with an opening slightly smaller than the diameter of the ball joint's balls. Then, as shown in Fig. 16, at one end of the hollow pipe, a spherical groove (Fig. 15-24) inserts a ball (Fig. 16-24) with a long cross-shaped gap to form a ball joint.

The detailed principle of this multi-directional ball joint connecting device (Fig. 14-9) is as follows.

A ball made of a cross-shaped gap (Fig. 16-24) is inserted into the inlet of the groove (Fig. 15-24) of a spherical connector (Fig. 15-23) having a diameter slightly smaller than the ball's diameter. The gap reduces the diameter of the ball and easily fits into the groove (Fig. 15-24) of the spherical connector (Fig. 15-23).

As shown in Fig. 17, a metal rod (Fig. 17-26) is driven from the hole of the pipe on the opposite side of the ball so that the ball once inserted into the groove of the spherical connector (Fig. 15-23) does not fall out.

In this way, the cross-shaped gap made in the ball is filled from the inside, so that the ball once inserted does not fall out again.

In addition, a screwed metal bar (Fig. 17-27) may be used so that the embedded metal bar (Fig. 17-26) does not fall out.

This method is light and very economical, especially when the ball joint of the ball joint (FIG. 15-23) and the ball are made of reinforced plastic, respectively, by one mold and blower method. And when made of reinforced plastic, there is a disadvantage that the connection neck of the ball to be inserted easily breaks, but in the present multi-directional ball joint connecting device (Fig. 14-9), as shown in Fig. 17, the ball connecting neck part Since the metal rod (Fig. 17-26) is inserted into the inside of the, there is an advantage that this part is not easily broken.

And when using the various spherical polyhedron in the groove (Fig. 15-24) of the ball joint (Fig. 15-23) of the ball joint and the shape of the ball fitted to it, while serving as a ball joint, the ball joint at a constant angle Can be stopped, which is very useful for tent assembly.

Using such a ball joint, a tent of a small geodesic dome structure can be easily assembled, as shown in Fig. 19, and it can be easily assembled, and as shown in Fig. 20, a tent of a large geodesic dome structure can be easily assembled. There is an advantage.

And, in order to combine each tent flesh, as shown in Figure 18, it is convenient to use a tent link connecting device (Fig. 18-18) that can be sliding and fixed.

And as shown in Fig. 21, for finishing the portion where the tent meets the floor, a zippered floor tent cloth (Figs. 21-28) is used for coupling with an independent tent surface.

And as shown in Fig. 22-a, the tent cloth (Fig. 22-10) may be installed outside the tent frame (Fig. 22-15), and as shown in Fig. 22-b), the tent cloth (Fig. 22-10) It can also be installed inside the tent frame (Fig. 22-15), using a detachable tent cloth fixture (Fig. 22-29) attached with a button (Fig. 22-30) or a small zipper or squeegee. It is also convenient when changing tent cloth from the tent side.

And as shown in Figure 23, the pole pole (Fig. 23-31) for fixing the tent to the floor is used to make it removable to the ball joint.

Healthy rest in nature is very important for modern people.

If a tent can be assembled large or small, it's quick to adapt to the camp, and this can help a needy neighbor, making a more enjoyable camping experience.

The present invention will contribute to the development of general healthy leisure culture and industry as well as professional climbers and travelers.

Figure 1a) is a perspective view of a prefabricated tent formed with four independent square faces and one doorway, and Figure 1-b) shows four square faces and one pentagonal surface and one doorway.
2 is a perspective view of a tent with a balcony in front of the doorway on the same independent side
Figure 3 is a perspective view of the tent extended toward the back or side of the tent to the same independent side.
Figure 4 is a perspective view of the tent extending the bottom of the tent
Fig. 5) is a perspective view of the tent which extends the tent of Fig. 4) to the rear and makes a balcony in front of the doorway;
6 is a perspective view of a shape in which a tent bar 8 is installed like an umbrella on an independent quadrangular surface of a tent and a zipper 7 for connecting the tent cloths 910 of the independent surfaces to each other is mounted;
FIG. 7 is a perspective view of an embodiment in which the tent flesh 8 is installed like an umbrella on an independent square surface of the tent of FIG. 6).
Fig. 8 is a cross-sectional view of the embodiment in which the central shaft is divided into two stages so that the length of the central shaft 17 is reduced when the tent is unfolded, and the cross section when it is folded.
Fig. 9 is a cross-sectional view of the embodiment in which the tent bar 16 on the lower side is convexly arranged outward to secure a space inside the tent when the tent is unfolded, and a cross-sectional view when it is folded.
FIG. 10) shortens the tent circumference (FIG. 9-15) to solve the disadvantage of the tent not widening by the configuration of FIG. 9), and the end of the tent salg (FIG. 9-16) After linking to the inner part, another long circumferential tent (Fig. 10-19), which supports the tent fabric, is connected to the perimeter tent (Fig. 9-15) and the sliding link (Fig. 10-20). Sectional view of the embodiment combined with) and sectional view when it is folded
FIG. 11 is a cross-sectional view of an embodiment in which another connecting aid 11-21 is used in place of the sliding connection link (FIG. 10-20) used in FIG.
12 is a lower tent meat fixing device (FIG. 7-17), which is installed at the lower end of the central shaft (FIGS. 7-17) and then secures the lower tent meat connecting link device (FIGS. 7-14) that slides along the spring (FIG. 7-14). 12-22) is a cross-sectional view of the embodiment used
FIG. 13 is a cross-sectional view of an embodiment in which the upper tent bar link link device (FIGS. 7-9) and the lower tent bar link link device (FIGS. 7-14) installed on the central shaft (FIG. 7-17) are made robust.
FIG. 14 is a cross-sectional view of an embodiment in which a ball joint device is installed to couple tent frames installed on an independent tent surface with tent frames made of horizontal and vertical directions of the tent and inclined lower side directions according to the tent.
15 is a detailed cross-sectional view of a special multidirectional ball joint connecting device.
Fig. 16 is a perspective view of a ball 24 made of an elongated cross gap at one end of a hollow pipe.
Fig. 17 is a perspective view of an embodiment in which a metal rod 26 is driven from a hole in a pipe on the opposite side of the ball so that the ball fitted in the groove of the spherical connector does not fall out.
18 is a sectional view and a perspective view of the tent link connecting device (Figs. 18-18) capable of sliding and fixing
19) and 20) are perspective views of a skeleton of a tent assembled with a geodesic dome structure;
FIG. 21 is a perspective view of a bottomed rectangular tent cloth (FIGS. 21-28) with a zipper used for joining with an independent tent surface for finishing a portion where a tent and a floor meet.
FIG. 22 is a cross-sectional view of the tent cloth 10 installed outside the tent frame 15 and the tent cloth (FIG. 22-10) installed inside the tent frame 15 using a detachable tent cloth fixing device 29. FIG. Cross-section.
Fig. 23 is a perspective view of the pointed pole 31 for securing the tent to the floor;

And as shown in Figure 6, each independent by using a normal zipper or waterproof zipper (Fig. 6-7) installed along the edge of the tent cloth (Fig. 6-10) used in the configuration surface of each independent tent The constructions of the tents can be easily connected to each other.

And as shown in Figure 3, it can be easily increased by using these zippers to increase the space of the tent.

Also, as shown in FIG. 6, in order to simplify the carrying of the construction surface of each independent tent, the skeleton of the construction surface of each independent tent is made to have an umbrella-like structure, so that it can be folded and folded like an umbrella.

Fig. 6-8) is a tent bar corresponding to an umbrella bar, and Fig. 6-9) is an upper tent bar connection link device, which corresponds to an upper multi-directional umbrella bar link device installed on a central shaft of an umbrella.

This umbrella-like structure can be seen in detail in Figure 7-a). The spring (Fig. 7-13) installed above the central axis (Fig. 7-17) causes the tent surface to unfold automatically as it is reduced, and as shown in Fig. 7-b), The springs at the bottom make the tent face unfold automatically as it stretches.

However, unlike an umbrella that requires a carrying handle, the central axis (Figs. 7-17), which extends long into the tent, becomes an unnecessary component.

To solve this, as shown in Fig. 8, the central axis (Fig. 7-17) was made in two stages so that the length could be increased and given. This reduces the length of the spring (Fig. 7-17) installed on top of the central axis (Fig. 7-17) and automatically reduces the length of the central axis (Fig. 7-17).

As shown in Fig. 10, in an umbrella, the length of the circumference of the circumference of the umbrella which forms the awning of the umbrella is long, and the length of the bottom of the umbrella that supports it is short.

In the present invention, as shown in Fig. 10, the perimeter tent meat (Fig. 9-15) is made short, and the end is connected to the inner portion of the tent meat on the bottom side (Fig. 9-16), Another long circumferential support tent (Figs. 10-19), which supports the tent cloth, was combined with a perimeter tent beam (Figs. 9-15) and a sliding link (Fig. 10-20). This will give you more room to spread your stand.

FIG. 11 is an embodiment in which another connecting auxiliary beam 11-21 is used in place of the sliding connection link (FIG. 10-20) used in FIG.

In addition, each tent is provided in the overall structure of the tent, and also should be a rigid frame structure, because the fluidity is given due to the spring device, in order to prevent this, it is installed on the bottom of the central axis (Figs. 7-17), and then slides along the spring Install the lower tent meat fixing device (Fig. 12-22) to fix the lower tent meat connecting link device (Fig. 7-14) to the central shaft.

However, tents installed on each independent tent surface serve as a tent skeleton only for the diagonal direction of the tent surface.

Therefore, as shown in Figure 14, there is a need for a comprehensive connecting device for connecting the tent frames installed on the surface of the independent tent, and joining the tent skeleton made in the inclined lower side direction, depending on the horizontal and vertical direction of the tent, and the tent .

In order to solve this problem, a multidirectional ball joint connecting device can be used.

However, few multidirectional ball joint couplings have been developed for prefabricated tents. Therefore, as shown in Fig. 15, a special multidirectional ball joint connecting device is used.

This device forms a plurality of spherical grooves (Figs. 15-24) in the ball joint of the ball joint (Figs. 15-23), with openings slightly smaller than the diameter of the balls of the ball joint.

And as shown in Fig. 16, at one end of the hollow pipe, a ball made of a cross-shaped gap is formed (Fig. 16-24).

The ball thus made (Fig. 16-24), when inserted into the inlet of the groove (Fig. 15-24) of the spherical connector (Fig. 15-23), has a diameter slightly smaller than the ball's diameter, because of its gap As the diameter of the tube is reduced, it is easily fitted into the groove (Fig. 15-24) of the spherical connector (Fig. 15-23).

This method is light and very economical, especially when the ball joint of the ball joint (FIG. 15-23) and the ball are made of reinforced plastic, respectively, by one mold and blower method. And, when made of reinforced plastic, there is a disadvantage that the connection bar portion of the ball to be inserted easily breaks, but in the present invention, as shown in Fig. 17, the metal rod is inserted into the inside of the connection bar portion of the ball, This part has the advantage of not easily broken.

Claims

In the fabrication of the tent, as shown in Fig. 1), the sides of the tent are cut into geometric shapes such as rectangles, pentagons, or hexagons along the sides of the angles connecting the corners thereof, and separated from each other. Next, as shown in Fig. 6), each of the necessary frame is installed inside each of the independent tent cloths (Fig. 6-10), and a general zipper or waterproof zipper (Fig. 6-7) is installed at the periphery thereof. By using a zipper (Fig. 6-7), each independent side can be connected, with a set of tent elements containing several pieces, depending on the size of the tent site and the number of users, Resizable prefabricated tents that can be made small or large.

1), a spring (Figs. 7-13) which allows each independent tent cloth (Figs. 6-10) to unfold automatically, as shown in Fig. 7, inside each separate tent cloth (Figs. 6-10). Resizable, prefabricated tents with or without frame, such as umbrellas.

In claim 2, in order to secure the space inside the tent when the tent is unfolded, the length is variable by dividing the central axis (Fig. 8-17) into two or multiple stages so that the length of the central axis is reduced, as shown in Figure 8). Resizable prefabricated tent, if fitted.

In claim 2), in order to secure the space inside the tent when the tent is deployed, as shown in Figure 9, the tent tent (Fig. 9-16) of the adjustable side, the convexly arranged outwardly, as shown in Figure 9).

In claim 2, in order to secure the space inside the tent when the tent is unfolded, as shown in FIG. 10, shorten the `` tent around the tent (Fig. 9-15), and the end of the tent tent ( 9-16) by connecting a link to a suitable part of the upper central shaft side, fixing the connection position, and then supporting another long 'perimeter of the tent' (Fig. 10-19) Resizable prefabricated tent, connected by a `` tent around the tent '' (Figure 9-15) and a slidable link.

In claim 5), instead of the slidable link, as shown in FIG. 11, another connecting aid 11-21 is used, both of which are connected by a link but fixed in position so as not to slide, Resizable prefab tent.

In all of the above claims, the lower tent meat fixing device installed at the lower end of the central shaft (Figs. 7-17) and then fixed to the central shaft, the lower tent meat connecting link device (Fig. 7-14) sliding along the spring ( 12-22) prefabricated tent with adjustable size.

In all the above claims, the upper tent bar linkage linkage device (Fig. 7-9) and the lower tent bar linkage linkage device (Fig. 7-14), which are installed on the central shaft (Fig. 7-17), Resizable prefab tent made of sturdy construction.

In all the above claims, a multi-directional connection ball joint device is installed that combines the tent frames installed on the independent tent surface and the tent frame made in the horizontal and vertical direction of the tent, and the inclined lower side direction, depending on the tent, Resizable prefab tent.

In all the claims above, in the ball joint device capable of connecting in a multi-directional connection to the tent frame installed on the independent tent surface and the tent frame made in the horizontal and vertical direction of the tent, and the inclined lower side direction according to the tent, Resizable prefabricated tent with a special multi-directional ball joint connection device as shown in FIG. 15).

In all the above claims, the size can be adjusted using a 'tental connection linkage device (FIG. 18-18), such as (Fig. 18-18), capable of sliding and fixing the position of the link at the same time as Fig. 18). Prefab tent.

In all of the above claims, as shown in FIG. 22, a tent cloth (FIG. 22) is used, using a detachable tent cloth fixing device (FIGS. 22-29) equipped with a button (FIG. 22-30) or a small zipper or squeaker. -10) A prefabricated tent with adjustable size, which is installed outside the tent frame (Fig. 22-15), or a tent cloth (Fig. 22-10) is installed inside the tent frame (Fig. 22-15).

In all the above claims, as shown in Fig. 23, a prefabricated tent having a pointed pole pole 31 installed at the bottom of the multidirectional ball joint connecting device for fixing the tent to the floor.

In all of the above claims, in a general zipper or waterproof zipper (FIG. 6-7) installed around the independent surfaces so as to be able to connect each independent surface, double or multiple waterproof zippers or normal zippers are used, Or a prefabricated tent with a plurality of buttons, squeaks, etc. independently or around a circumference of the separate sides or in combination with a zipper.

In all of the above claims, all or part of each independent face is provided with a reticulated screen and a window with a cover that can be opened and closed therein.

In all of the above claims, all or part of each of the independent faces, the prefabricated tent, with different collars or patterns.