KR20150138658A - Tent module block structure - Google Patents

Abstract

The present invention relates to a tent module block structure and, more specifically, relates to a tent module block structure connected to a tent rib. According to the present invention, the tent module block structure comprises: a pivot connection support pivotally connecting the tent ribs; a lower cover; and a locking connection component locking and connecting the pivot connection support and the lower cover. The pivot connection support formed into a radial shape includes at least three pivot connection grooves. The pivot connection grooves are formed on an upper surface of the pivot connection support around a rim of the pivot connection support. The pivot connection groove forms a stop platform on a lower part of the rim of the pivot connection support, and each pivot connection groove forms a spherical socket in a middle part of the pivot connection support. The spherical socket penetrates through an underside of the pivot connection support; spherical supports are formed on the spherical sockets of each pivot connection groove corresponding to the lower cover; and spherical heads used together with the spherical sockets are formed on the ends of each tent rib.

Description

Tent module block structure {TENT MODULE BLOCK STRUCTURE}

The present invention relates to a tent component, and more particularly to a tent module block structure connected to a tent component.

Tents are a diverse and complex form of tent, which is a necessity for people to use as a place for outdoor activities or as temporary shelters, but the basic tent structure of the tent is that each tent pivots to the tent parts using a pivot connection module Structure. Conventional tent and tent pit pivot modules come in many different forms to suit different locations of tent supports, such as center pivot modules, top pivot connection modules, unidirectional pivot connection modules, etc., It belongs to the structure. Therefore, such a variety of structures may reduce the integrated usability of various modules of the tent supporter, thereby raising the manufacturing cost of the tent module without knowing it. In addition, the current pivot connection module provides pivot function only, and a lock structure can be installed to limit the tent opening position. Therefore, the structure of the tent support is relatively complicated, and the operation of installing and recovering the tent is complicated and inconvenient.

It is an object of the present invention to provide a tent module block structure, which provides a simple module structure, which is convenient when installing and recovering a tent, and can be connected to tent parts existing at various positions of the tent, It has advantages.

The structure of the present invention for achieving the above-mentioned object is as follows.

Wherein the tent module block structure comprises a pivot connection for pivoting tent car parts, a bottom cover, a locking connection part for locking and connecting the pivot connection and the bottom cover, The pedestal is formed in a radial shape and includes at least three or more pivot connection grooves, the pivot connection grooves being formed along a side edge at an upper surface of the pivot connection base, the pivot connection support groove having a side edge And a lower platform having a stop platform, each pivot connection groove forming a spherical socket in the middle of the pivot connection support, the spherical socket passing through the lower end surface of the pivot connection support, The spherical socket is formed in the spherical socket of each pivot connection groove corresponding to the cover, and a spherical support is formed at the end of each tent piece A spherical socket is formed and a spherical head used together with the spherical head is formed.

The outer diameter of the above-mentioned spherical head is larger than the outer diameter of each tent piece.

The spherical head described above is in the form of a tube tube and is mounted together with the tent part.

The above-described spherical head is locked to the end of each tent piece through the locking part.

The above-mentioned spherical head is fixed to the end portion of each tent piece by glue-bonding.

On the top of the above-described pivotal connection, a pulling ring is provided.

The above-described pulling hook is formed integrally with the top portion of the locked coupling part.

The tent module block structure according to the present invention is characterized in that the pendant connecting pivots to which the tent fitting parts are pivotally connected are formed as spherical sockets and the spherical head And the universal joint formed through this structure can be used together to provide a very agile adjustment of each tent component of the tent as it is unfolded and retrieved so that all of the tent components of the tent support are connected And when the spatial confinement (α) of the tent part and the pivot connection part is less than 180 degrees, the tent support is in a stable state of support and vice versa. Therefore, the tent module block structure has a simple structure, convenient operation, and can be connected to tent parts existing at various positions of the tent, so that the tent module block structure has a very high utilization characteristic.

The tent module block structure of the present invention is characterized in that all of the tent parts of the tent support are connected to each other through the module, each pivot connection groove pivotally connected to the tent piece is formed of a spherical socket, By forming a spherical head for use with a spherical socket and completing the universal joint structure in this manner, it is possible to make agile adjustment when unfolding and retrieving tent parts, When the narrowed angle is less than 180 degrees, the tent support is in a stable state of support and vice versa. Therefore, the structure of the present tent module is simple in structure, convenient in operation, and can be connected to the flesh existing in each position of the tent, so that the utility of the tent module can be enhanced.

1A is a structural exploded view of Embodiment 1 of the present invention.
1B is a three-dimensional perspective view of a tent support structure according to Embodiment 1 of the present invention.
1C is a perspective view of a tent support structure according to a first embodiment of the present invention as viewed downward.
1D is a perspective view of a tent support structure according to Embodiment 1 of the present invention, viewed from the side.
2A is a structural exploded view of Embodiment 2 of the present invention.
2B is a three-dimensional perspective view of a tent support structure according to a second embodiment of the present invention.
2C is a perspective view of the tent support structure according to the second embodiment of the present invention viewed downward.
2D is a perspective view of a tent support structure according to a second embodiment of the present invention, viewed from the side.
3A is a structural exploded view of Embodiment 3 of the present invention.
3B is a three-dimensional perspective view of a tent support structure according to a third embodiment of the present invention.
3C is a perspective view of the tent support structure of the third embodiment of the present invention as viewed downward.
FIG. 3D is a perspective view of a tent support structure according to a third embodiment of the present invention. FIG.
4A is a perspective view showing the tent car parts and the module together when the tent of the present invention is in a supported state.
FIG. 4B is a perspective view showing the tent car parts and the module together when the tent of the present invention is in the semi-support state 1. FIG.
4C is a perspective view showing the tent car part and the module together when the tent of the present invention is in a semi-support state 2. Fig.
4D is a perspective view showing the tent car parts and the module together when the tent of the present invention is in a folded state.

Hereinafter, the structure of the present invention will be described in detail with reference to comparative examples and drawings.

Referring to FIGS. 1A to 4D, these drawings are perspective views of a tent module block structure. The tent module block structure consists of a pivot joint (1pivot seat), a lower lid (2), a pivot joint (1) and a lower lid (2) that pivot the tent poles, And a lock member (3) for locking the pivot connection, wherein the pivot connection support (1) is formed in a radial shape and includes at least three pivot troughs (11) The connection groove 11 is formed along the side edge at the upper surface of the pivot connection support 1 and the pivot connection groove 11 has a stop platform 12 at the lower end of the side edge of the pivot connection support 1 And the tent filler part 4 is used in connection with the pivot connection support 1 and is folded upward only to the pivot connection support 1. The key of the present invention is as follows.

Each of the pivot connection grooves 11 forms a spherical socket 13 in the pivot connection support middle portion and the spherical socket 13 penetrates the lower end surface of the pivot connection support 1, A spherical socket 21 is formed in the spherical socket 13 of each of the pivot connection grooves 11 corresponding to the spherical socket 13 and the spherical socket 13 is formed at the end of each tent mount 4, (41) is formed. The sideways direction of the sphere head 41 is extended into the spherical socket 13 of the pivot connection receiver 1 so that the locking connection part 3 is positioned between the center of the pivot connection receiver 1 and the center of the lower lid 2 The bottom cover 2 and the pivot connection support 1 are locked and connected to each other so that the spherical head is limited in position within the spherical socket 13 of the pivot connection groove 11. [

The outer diameter of the spherical head 41 described above is larger than the outer diameter of each tent piece 4 and the spherical head 41 described above is in the form of a tube tube and is mounted together with the tent piece 4, is fastened to the end of the tent piece (4) via a fixing member or is fastened to the end of the tent piece (4) in a gluing manner.

1A to 1D illustrate an embodiment 1 of a tent module block structure according to the present invention in which four pivot connection grooves 11 are formed and spherical seats 21 on a lower lid 2 corresponding to each other are formed. ). In this module structure, four tent parts 4 can be connected to each other. At this time, the pivot connection groove 11 can be formed in five or six pivot connection grooves. Figs. 2A to 2D are Embodiment 2 of the present invention, and Figs. 3A to 3D are Embodiment 3 of the present invention. Fig. The quantity of pivot connection grooves 11 installed can be determined according to the required shape in the tent and also according to the number of tangent planes after the tent is unfolded.

4A to 4D, the tent module block structure according to the present invention is characterized in that the tent mount 4 is formed by the combination of the spherical socket 13, the tent piece 4, and the spherical head 41 The pivot connection support 1 is fixed on a tent cloth. When the tent is expanded, each pendulum mounting part 1 (4) is fixed on a tent cloth ) And the included angle (α) of the pivot connection support (1) is less than 180 degrees, the tongue is stably supported. The universal joint composition structure of the spherical head 41 and the spherical socket 13 can be adjusted very aggressively when the tent piece 4 is unfolded and folded so that it does not occur in the folding and unfolding process It is possible to fold it. In addition, when the tent is unfolded, the tent support is applied to each module block of the tent, so that the tent parts 4 and the tent cloth are spread. when the tilt angle? exceeds 180 degrees, the pivot connection support 1 receives the stop of the low ground 12, and the tent is stably deployed and supported. A pull ring 31 is provided at the top of the pivotal connection 1 and the pulling collar 31 is connected to the locking coupling part 3 ) So that it is more convenient to apply force to the outer tent module block when the tent is deployed.

As shown in FIGS. 4B, 4C, and 4D, when the tent is folded, a force is applied to each module block from the outside of the tent to the inside thereof, and the space between the tent parts 4 and the pivot- When the narrow angle alpha becomes larger than 180 degrees, the tent can be smoothly folded.

In the tent module block structure according to the present invention, each of the tent carcass parts 4 of the tent carcass is connected to the tent carcass part 4 via the module, Is formed by the spherical socket 13 and then the spherical head 41 used with the spherical socket 13 is formed at the pivotal end of the tent piece 4 to complete the universal joint structure in this way When the tent-pole fulcrum part 4 and the pivot-fulcrum part 1 have a spatial coherence angle? Of less than 180 degrees, the tent flesh part 4 can be swiftly adjusted when the tent- The support is in a stable state of support, and vice versa. Therefore, the tent module block structure is simple in structure, convenient in operation, and can be connected to tent parts existing at each position of the tent, so that the tent module has a very high utilization characteristic.

The foregoing is in no way intended to limit the scope of the invention in any way since it is a specific embodiment of the invention. It is to be understood that any additions or modifications made within the scope of the present invention fall within the scope of the present invention.

1. Pivot connection 11. Pivot connection groove
12. Low Ground 13. Rectangular Socket
2. Bottom cover 21. Old base
3. Locked connection part 31. Pull ring
4. Tent parts 41. Spherical head
α. Space narrowing

Claims (7)

Tent module block structure, wherein the tent module block structure includes a pivot connection for pivotally connecting a tent mount component, a bottom cover, a locking connection component for locking and connecting the pivot connection base and the bottom cover, Wherein the pivot connection groove is formed along a side edge at an upper surface of the pivot connection base and the pivot connection groove is formed at a lower edge of the side edge of the pivot connection base, Wherein each of the pivot connection grooves forms a spherical socket in an intermediate portion of the pivot connection support, the spherical socket penetrates a lower end surface of the pivot connection support, and the spherical socket of each pivot connection groove, And a spherical socket at the end of each tent piece, Wherein a spherical head is formed in the tent module.
The method according to claim 1,
Wherein the outer diameter of the spherical head is greater than the outer diameter of the tent impeller.
The method according to claim 1,
Wherein the spherical head is in the form of a tube and is mounted together with the tent part.
The method of claim 3,
Wherein the spherical head is locked to an end portion of the tent piece through a locking component.
The method of claim 3,
Wherein the spherical head is fixed to an end portion of the tent piece by glueing.
The method according to claim 1,
And a pulling ring is installed on the top of the pivot connection support.
The method according to claim 6,
Wherein the pulling collar is formed integrally with the top of the locked coupling part.

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