KR20150007112A - Pole assembly and framework for tent, sunshade supporter for tent - Google Patents

Abstract

A pole assembly, a frame for a tent including the pole assembly, and a light-shielding film support for a tent. In order to accomplish this, a rear end fitting body is provided with a connection line support rod having a first connection line passage formed along the longitudinal direction thereof, and the upper end insertion body is provided with a connection line support portion for inserting the connection line support portion at a front end facing the rear end fitting body. And a second connecting rod moving passage is formed along the longitudinal direction. The tent pole assembly for a tent, the frame for a tent including the pole assembly and the connector, and the frame for the tent, The light shielding film support for the tent is provided. Pulling the wires connected to the poles can assemble the poles smoothly. In addition, the pole assembly according to the present invention not only can reduce the volume of the up and down generated when each pole intersects with each other at the upper part of the tent, but also causes the remaining pole to collapse when the pole tip is erected Can be prevented. Further, the light shielding film can be stably supported above the tent at a predetermined height or higher, thereby maximizing the shading effect.

Description

TECHNICAL FIELD [0001] The present invention relates to a pole assembly, a frame for a tent including the pole assembly, and a shielding film pedestal for a tent,

The present invention relates to a pole assembly, a frame for a tent including the pole assembly, and a shielding film support for a tent. More particularly, the present invention relates to a pole assembly, A frame for a tent including the pole assembly, and a light-shielding film support for a tent capable of stably mounting a light-shielding film for a tent on a top of a frame for a tent.

Generally, the tent is composed of a waterproof cloth and a plurality of poles so that the user can temporarily camp out or outdoors, and the waterproof cloth is supported and connected to a plurality of poles to form various types of tents.

That is, a plurality of pawls are connected to each other to form a straight or curved arched shape to form a skeleton thereof, and a waterproof cloth is unfolded and connected to the pawl so that a space can be formed according to the skeleton formed by the pawl.

As the total length of the tent becomes longer, the pole is divided into a plurality of pieces, and the tent and the shade are installed by connecting the divided pole in the outdoors.

FIG. 1 is a perspective view showing a general tent, and FIG. 2 is a schematic view showing an embodiment of a pole assembly for a conventional tent.

As shown in FIG. 1, the tent 1 is installed with a plurality of pole assemblies 10 so that a space is formed therein. At this time, a tip is provided at a terminal pole of a plurality of pawls constituting the pole assembly 10, and the tip is inserted and fixed in the insertion hole 5 formed in the webbing strap 3.

As shown in FIG. 2, the pole assembly includes a plurality of pawls 10 ', and the ends of the divided pawls 10' may be smaller in diameter so as to fit into the ends of the other pawls, The large connector 11 is fixed.

By connecting the plurality of divided pawls 10 'by the connecting line 13, the divided pawls 10' can be easily connected and the divided pawls 10 'can be prevented from being lost. More specifically, the connecting line 13 connects the divided pawls 10 'through the pawls 10'. One end of the connection string 13 is fixed to the tip 15 and the tip 15 is inserted and fixed to one end of the pole assembly.

As shown in FIG. 2, the tip 15 is a component located at both ends of a connected pole 10, and is connected to a connecting line 13 located inside the pole 10. And is formed to have a sharp point so that it can be easily fixed to the ground.

Referring to FIG. 2, the tip 15 will be described in detail. The tip 15 has a pointed portion 17 having a pointed end so as to be able to be embedded in the ground, And a ring 18 inserted into an end portion of the pole 10 'and connected to the connecting line 13. The hook 20 has an outer diameter that is smaller than the outer diameter of the hook 10,

Therefore, in order to connect the connection string 13 to the terminal pole 10 ', the connection string 13 is inserted into the loop 18, and then the end of the connection string 13 is clamped by the clamper to fix the connection string 13 to the connection string 13. Thus, the tip 15 to which the connecting line 13 is connected is inserted into the end of the end pole 10 '. So that the hooking jaw 19 is caught by the end of the pawl 10 'so that only the sharp point 17 of the tip 15 protrudes outside the pawl 10'.

However, the conventional pole structure has a problem in that it is inconvenient to work because the connecting rod is fixed after connecting the connecting rod to the ring in connecting the connecting rod and the tip. That is, after fixing the tip to one end of the connection string, the tip should be fixed with the connection string being tensioned in fixing the tip to the other end. Therefore, when the end of the connecting rod is pulled out of the pole, it is difficult to connect the tip according to the operator's intention due to the elasticity of the connecting rod.

Further, there is a complication in that a clamping step for fixing the connecting line is added during the assembling process because the connecting line is fixed by a clamper after the end of the connecting line is pulled to the tip.

In addition, since such a conventional tent is formed such that the pole assembly composed of a plurality of poles intersects with each other at an upper portion of the tent, in order to engage the tip provided at the end pole with the insertion hole formed in the webbing strap, A person holding a second pole assembly installed to cross the person and the first pole assembly, i. In other words, since at least two people are required to install a conventional tent, there is a problem that a single-person traveler is inconvenient to use the tent.

In the conventional tent, it is difficult to expect a sufficient sunshine area by the upper part of the dome structure in the warm daytime in summer, but the installation work becomes difficult because the unnecessary number of poles is increased in order to increase the sunshine area. Therefore, there is a disadvantage that a tarpaulin or a light-shielding film must be separately installed.

As another example, Fig. 3 is a schematic view showing a pole assembly for a tent according to the prior art.

As shown in FIG. 3, the conventional tent pole assembly includes a plurality of connecting pawls 29, one end connected to a tip 23 coupled to one side endole 21, An elastic tube member 24 which binds the other end with an insert tube 22 connected to the connecting member 21 and a connecting member 22 which pulls the non-elastic string member 24, And the pulling and loosening means of the non-elastic string member for loosening the non-elastic string member (24) and for folding by separating the side loops (21) and the connecting pawls (29) .

More specifically, the pulling and unwinding means of the non-elastic string member comprises a threaded tube 25 which is joined by the adhesive 26 to the insert tube 22 of the other side endole 21, And a nut 27 coupled to the side end piece 21 fastened with the fastener.

However, in such a conventional pole, the side end pieces 21, the connecting pawls 29, the connecting pawls 29 and the connecting pawls 29 are connected to the adjacent pawls so as to be smaller than the diameter of the pawl, Even if the non-elastic string member 24 is loosened, the pawls 21 and 29 coupled to each other are not separated from each other naturally, so that a separate process is required for separation.

In addition, the tent pole having such a structure has a problem that the external force provided to each pole is transmitted to the entire pole as it is, and the breakage due to the external resistance is large.

It is also possible to connect the nuts 27 to the threaded pipe 25 of the side end piece 21 and the person holding the side endole 21 and the connecting pawl 29 in connecting the connecting pawls 29 to the side endole 21 A minimum of two people are required for installation, so that a single traveler is inconvenient to use.

As described above, the conventional tent pole assembly has a disadvantage in that it has a complicated process of installation and disassembly due to its structure, resulting in poor workability and high risk of breakage due to external resistance.

Fig. 4 is a schematic view showing a pole assembly for a tent according to the prior art, and Figs. 5 and 6 are schematic views showing a frame for a tent according to the prior art.

As shown in FIG. 4, the conventional pole assembly determines the number of pawls according to the size of the tent, and typically about 67 pawls are connected to form a pole assembly.

When the tent is installed in the state where the pole assembly is inserted into the insertion support portion 41 of the tent 40 as shown in FIGS. 4 to 6, when only the connection string 35 inserted through the inside of the pole assembly is pulled, The pawls 31, 36, 38 can be expected to be assembled together. At this time, when the pulled-up state of the connecting line 35 is released, the assembled pawls 31, 36, and 38 are separated from each other by the inner elastic member 32.

4 and 5, the pole assembly is divided into a plurality of pawls 31, 36, and 38, specifically, a tip pole 31, a terminal pole 36, and a plurality of intermediate poles 38 . The connecting rods 35, which are longer than the connecting lengths of the pawls 31, 36 and 38, are inserted into the inside of the respective pawls 31, 36 and 38 so as to be inserted therethrough.

The front end pawl 31 has an elastic member 32 engaged with the latching part 33 at one side end and has a line stopper 39 for preventing the connection line 35 from being detached from the pole assembly at the other end, And an earth 34 is provided at the distal end of the connecting rod 35.

The distal end pawl 36 is provided with a pipe-shaped insertion port 37 protruding by a predetermined length from the inside of one end thereof and has a releasing part 34 Is connected to the distal end of the connecting rod 35 and the distal end of the distal end pawl 36 is caught in the fixture 50 caught in the tether connection link 42 and inserted into the tent insertion support 42.

A plurality of intermediate pawls 38 connected and assembled between the front end pawls 31 and the end pawls 36 are installed so as to protrude by a predetermined length in the form of a pipe- And an elastic member 32 is provided on the inner side so as to be caught by the stopper 33.

When the tent is installed in this state, the tent 40 is flattened as shown in FIGS. 5 and 6, and then the connecting rod 35 piercing the outside of the front end pawl 31 is pulled, Since the one end is fixed to the connection ring 42 of the tent as the fastener 50 on the corner of the tent, the plurality of intermediate pawls 38 and the end pawls 36 are connected to each other by being connected to each other .

At this time, the connection and assembly of the respective pawls 31, 36, and 38 is performed by pulling the connection pawl 35 that has passed through the inside of the terminal pawl 36, pulling the connection pawls 31, 36, While moving in the opposite direction, a pipe-shaped insertion port 37 is inserted into the adjacent pole end.

When the plurality of pawls 31, 36, and 38 are connected to each other, the connection lines 35 longer than the connection length of the pawls 31, 36, and 38 are left for a predetermined length. 36 and 38 are not allowed to flow and the elongated string is bundled at the ends of the tie rods 42 by the tie rods 42. [ The installation state is completed.

When the tent is used and the tent is dismantled, the tether is tied to the tether and the tether is pulled out of the leading end pawl 31, The plurality of pawls 31, 36, and 38 are simultaneously separated by pushing the inserted pawls by the elastic force of the connected inner elastic member 32.

In this state, when the tent is folded according to the desired direction, the tent disassembly operation is completed in a state where the plurality of pawls 31, 36, 38 separated in this way are positioned inside the pole insertion support portion 41 of the tent 40.

However, in the conventional pole configuration, since the line fastener 39 is fixed by pulling the line fastener 39 connected to the connection line 35 by the force of the leading end pawl 31, When a conventional technology is applied to a tent having a large camping tendency, a strong elastic member 32 corresponding to the size and the weight of the pole is required to have a repulsive force to disengage the pole itself, There is a disadvantage in that it is difficult to pull out the line fastener 39 and the possibility of injury due to the repulsive force of the elastic member 32.

36 and 38 when the line fastener 39 is pulled in a state in which a plurality of pawls 31, 36 and 38 are separated and inserted into the pole insertion supporting portion 41 of the tent river deployed at the time of installation, 36 and 38 of the pawl insertion support portion 41 and the pipe-shaped insertion port 37 in the process of connecting the insertion port 37, the tent stream may be damaged. In addition, since the pawl is pushed down by gravity in the process of coupling the plurality of pawls 31, 36, and 38, not only the pole-to-pole coupling is not smooth, When the coupling is induced in a state in which the right and left sides are not correctly contacted with each other, a seam between the pawls 31, 36, and 38 may occur when the connection is as shown in FIG. Consequently, in order to connect the pipe-shaped insertion port 37 and the plurality of pawls 31, 36 and 38, there is a disadvantage that two or more installers are required or the operation is troublesome.

Also, in the case of a conventional tent, it is hard to expect a sufficient sunshine area by the upper part of the dome structure in the daytime in summer, but it is difficult to install the tent by increasing unnecessary number of poles in order to increase the sunshine area. Therefore, there is a disadvantage that a tarpaulin or awning tent is separately installed.

In such a conventional pole assembly, since the pawls are pushed downward by the gravity in the process of joining the pawls, not only the pole-to-pole connection is not smooth, but also the pole- It is difficult to assemble the poles when the coupling is induced in a state in which the left and right sides are not touched. More specifically, if the pawls separated from each other are not laid horizontally and the angle between the pawls 50 is slightly reduced as shown in Fig. 7, the connecting line 53 connecting the pawls 50 and the pawls 50 A phenomenon of being biased in one direction occurs and consequently a jamming occurs between the joint 51 of the pole and the pole. Therefore, even if tension is applied to the connecting line 53, a problem that the adjacent pawls 50 are not automatically engaged may occur.

[Prior Art Literature]

[Patent Literature]

   (Patent Document 1) Korean Patent No. 10-0408071 (published on Dec. 2003, 2003)

   (Patent Document 2) Korean Patent Laid-Open No. 10-2009-0044711 (published on May 7, 2009)

   (Patent Document 3) Korean Utility Model Publication No. 20-2011-0004350 (Published May 4, 2011)

   (Patent Document 4) Korean Utility Model Registration No. 20-0391967 (published on Aug. 10, 2005)

(Patent Document 5) Korean Patent No. 10-0408071 (published on December 3, 2003)

Accordingly, it is a first object of the present invention to provide a pole assembly for a tent that can assemble and disassemble a pole without additional work only by pulling and loosening a connection string provided inside the pole, thereby enabling quick and accurate work alone have.

A second object of the present invention is to provide a tent comprising a pole assembly for aligning each of the pole assemblies located at the top of the tent so that each pole assembly does not cross each other at the top of the tent, For example.

It is a third object of the present invention to provide a shielding film support for a tent which can stably support a pole supporting the light shielding film in a hollow state without a warp, over a predetermined height, thereby increasing the area of the shade.

In order to attain the first object of the present invention, in one embodiment of the present invention, a rear end fitting body coupled to a rear end of a first pole, and a rear end fitting body coupled to a distal end of a second pole adjacent to the first pole, The pole assembly for a tent according to claim 1, wherein the rear end fitting body includes a connection line support member having a first connection line passage formed along a longitudinal direction thereof, and the upper fitting body And a second connecting rod moving passage is formed along the longitudinal direction, wherein the second connecting rod moving passage is formed along the longitudinal direction so that the connecting rod supporting rod can be inserted into the front end facing the rear end fitting body, to provide.

In order to achieve the second object of the present invention, in an embodiment of the present invention, a plurality of pawls including a first pole and a second pole adjacent to each other, and a plurality of pawls installed to penetrate the plurality of pawls, And a connection rod support member coupled to a rear end of the first pole and having a first connection line passage formed along the length thereof, and a rear end insertion member coupled to a distal end of the second pole, And a pole connecting means composed of a front end fitting body having a support insertion groove corresponding to the connection rod support rod so that the connection rod support rod can be inserted into a front end facing the rear end fitting body and a second connecting rod moving passage is formed along the longitudinal direction A pole assembly; And a pole assembly connector including a socket portion including a plurality of sockets into which the pole assembly is fitted and a connection plate connected to the plurality of sockets to form an integral structure.

In order to accomplish the third object of the present invention, in an embodiment of the present invention, a light-shielding film supporting plate for providing a curved surface curved downward, and a light-shielding film supporting plate provided between the light-shielding film supporting plate and the tent, Provided is a light-shielding film pedestal for a tent including a support rod.

The pole assembly for a tent according to the present invention can smoothly assemble the respective pawls connected by the connecting line without having to insert the connecting part by simply pulling the connecting rod connected to each of the pawls by the user. Also, it is possible to smoothly dismount each pole connected to the connection line by merely releasing the connection line connected to each of the pawls.

In addition, the pole assembly according to the present invention maintains a strong coupling force between the pawls due to the tensile force of the connecting ropes. In addition, since the connecting ropes are connected to the respective pawls even when they are disassembled, Lt; RTI ID = 0.0 >

In addition, the pole assembly according to the present invention not only can reduce the volume of the up and down generated when each pole constituting the frame of the tent crosses each other at the top of the tent, but also the pole is connected to the pole assembly connector And the end pole is connected to a waterproof cloth (tent fly), it is possible to prevent the remaining portion from collapsing.

In addition, the pole assembly according to the present invention can realize various shapes of the tent according to the position and quantity of the pole connector.

Further, since the pole connector located in the middle of the tent is connected to all the poles, the present invention can promptly guide the pole connector to a shape for housing, thereby reducing installation and storage time.

Meanwhile, the light-shielding film support for a tent according to the present invention can support the light-shielding film at a stable height above the tent above a certain height, thereby maximizing the shading effect.

In addition, the light-shielding film support for a tent according to the present invention can serve as a tarp for daytime sunshine and a living-room tent for chilly evening.

1 is a perspective view showing a general tent.
2 is a schematic view showing one embodiment of a pole assembly for a conventional tent.
3 is a schematic view showing another embodiment of a pole assembly for a conventional tent.
4 is a schematic view showing a pole assembly for a tent according to the prior art;
5 and 6 are schematic views showing a frame for a tent according to the prior art.
7 is a perspective view for explaining a phenomenon in which a pole assembly for a tent according to the prior art is interposed between the pawls.
8 is a perspective view illustrating a pole assembly according to an embodiment of the present invention.
9 is a sectional view for explaining the connecting means of Fig.
10 is a cross-sectional view for explaining a pole connecting means according to another embodiment of the present invention.
11 is a photograph showing a connection line control means according to an embodiment of the present invention.
12 is a partially enlarged cross-sectional view for explaining a connection line control means according to another embodiment of the present invention.
13 is a cross-sectional view for explaining a connecting line fixing means according to the present invention.
Figure 14 is a top view of a pole assembly connector according to an embodiment of the present invention.
15 is a cross-sectional view illustrating a light-shielding film pedestal according to an embodiment of the present invention.
16 is a plan view showing a frame for a tent according to an embodiment of the present invention.
17 is a plan view showing a frame for a tent according to another embodiment of the present invention.
18 is a perspective view showing a pole assembly connector and a light-shielding film pedestal used in a tent.

Hereinafter, a pole assembly according to preferred embodiments of the present invention, a frame for a tent (hereinafter, referred to as a 'frame for a tent') and a shielding film support for a tent (hereinafter, abbreviated as a 'light shielding film pedestal' Will be described in detail.

First, a pole assembly according to the present invention includes a pole connecting means composed of a rear end fitting body coupled to a rear end of an arbitrary first pole and an end fitting body coupled to a front end of a second pole adjacent to the first pole. According to need, the pole connecting means may further include a spring provided between the rear end fitting and the front end fitting to automatically separate the front end fitting and the rear end fitting by a restoring force when the tensile force of the connecting rod is eliminated .

The light-shielding film support according to the present invention includes a light-shielding film support plate for providing a curved surface bent downward, and a support bar provided between the light-shielding film support plate and the tent so as to be spaced apart from the upper portion of the tent.

Hereinafter, each component will be described in more detail with reference to the drawings.

In the present invention, the pole assembly will first be described in detail.

FIG. 8 is a perspective view for explaining a pole assembly according to an embodiment of the present invention, and FIG. 9 is a cross-sectional view for explaining the pole connecting means of FIG.

Referring to Figs. 8 and 9, the pole assembly according to the present invention includes a pole connecting means 100. Fig.

The pole connecting means 100 is provided between the pawl and the pawl to smoothly engage the adjacent pawls and pawls and includes a rear end fitting 110 and a front end fitting 120.

Specifically, the rear end fitting 110 is coupled to the rear end of any first pole, and is disposed between the pole and the pole by the connecting line 400.

In one embodiment, the rear end fitting 110 according to the present invention is formed in a cylindrical shape with an open end and is formed to have an outer diameter corresponding to the inner diameter of the pawl so that the other end corresponding to the open end can be inserted into the pawl do. At this time, the rear end insertion body 110 is provided with a connection line support 112 along the longitudinal direction.

In general, when the connecting rope penetrates through each of the pawls, if the connecting rope is provided with a tensile force, the respective pawls can be brought into close contact with each other. However, as shown in FIG. 7, since the positions of the respective pawls passing through the respective pawls are not fixed within the respective pawls, the connection between the pawls is not smooth even if tensile force acts on the connecting ropes . More specifically, if the pawls are positioned in parallel to the ground but the pawls are not correctly contacted with each other but are misaligned, engagement of the pawls is generated between the pawls. As a result, But they are not assembled together.

In contrast, since the pole connecting means 100 according to the present invention is provided with the connecting line support 112 for controlling the position of the connecting line 400 so that the connecting line 400 passing through each of the pawls is positioned at the center of each of the pawls, When the tension force is applied to the connecting line 400, the first pole and the second pole adjacent to each other are easily combined.

The connection line support 112 may be formed in a cylindrical shape, a square shape, a triangular shape or the like, but is preferably formed in a cylindrical shape so as to minimize breakage.

In addition, the rear end fitting body 110 is formed with a connecting line movement passage along the longitudinal direction at the center of the other closed end and the connection line support base 112. If desired, the rear end fitting 110 may be formed with a first flange 114 to limit the movement of the first pole 310 extruded to the other end along the outer surface adjacent to the open end.

On the other hand, the end fitting body 120 is coupled to the distal end of the second pole adjacent to the first pole and detachably attached to the rear end fitting body 110.

8, the end fitting body 120 is formed so that one end thereof facing the rear end fitting body 110 is opened and the other end of the rear end fitting body 110 is inserted so as to be inserted into one end of the rear end fitting body 110. [ And is formed to have an inner diameter corresponding to the outer diameter of the connection line support 112 so that the connection line support 112 can be inserted. At this time, the tip end fitting 120 may be formed in a cylindrical shape.

In addition, the leading end fitting body 120 is formed with a moving path of the connecting line 400 along the longitudinal direction so that the connecting line 400 passing through the rear end fitting body 110 can pass through. The second flange 122 may be formed on the outer surface of the end fitting 120 to limit movement of the second pole 320 extruded to the other end corresponding to one end of the end fitting 120 have.

10, the rear end fitting 110 according to the present invention is provided with a connection string support 112 along its length in the interior thereof, The first binding force assist rods 116 may be formed at intervals. 10, the end fitting body 120 may include a second coupling force base 124 corresponding to the first coupling force base 116 along the longitudinal direction. The second coupling power assist 124 has an inner diameter corresponding to the outer diameter of the coupling support 112 and is formed to have an outer diameter corresponding to the inner diameter of the first coupling power assist 116.

In this case, since the first and second coupling members 122 and 124 are engaged with each other, the coupling force between the coupling member 110 and the coupling member 120 is maintained.

In this case, since the second coupling force supporter 124 has an inner diameter corresponding to the outer diameter of the coupling line supporter 112, the coupling line supporter 112 is fitted into the second coupling force supporter 124, The coupling force can be provided even when the coupling force abutment 116 is removed. Therefore, it is possible to selectively remove the first binding force assist rod 116 for the purpose of reducing the weight of the rear end fitting body 110.

It is preferable that the rear end fitting body 110 and the front end fitting body 120 are made of materials that are smoothly fitted to each other at the time of engagement and have excellent durability as well as easy processing into a desired shape. For example, such materials may be synthetic resins such as acetal used as gears, aluminum alloys, fiber reinforced plastics (FRP), steel, or the like. The surface can be processed smoothly.

Referring to FIG. 8, a pole assembly according to the present invention includes a plurality of pawls 310, 320.

The plurality of pawls 310 and 320 are coupled to or separated from each other while being moved by the connecting line 400, thereby providing a skeleton of the tent.

The plurality of pawls 310 and 320 maintain a state of being coupled with each other and form a skeleton of a tent by forming a straight line or a curved arched shape, and remain separated from each other when not in use.

Each of the pawls is symmetrical in the left and right direction, and it is preferable to use a material capable of forming a space portion with its upper and lower open inside thereof and being formed into a thin thickness with excellent durability and excellent elastic force. For example, aluminum alloys, fiber reinforced plastics (FRP), steel, or acetal plastics used as gears can be used.

However, the pawls according to the present invention may be provided with the pawl connecting means 100 so that they can be coupled to each other only by the tightening action of the tension of the connecting line 400 do.

Referring to FIG. 9, the pole assembly according to the present invention includes a connecting line 400.

The connection line 400 is positioned at the center of the pole without being deviated to one side of the pole regardless of the position of the adjacent pole by the connection line support member 112. Accordingly, when the pawls are coupled to each other, the pawls are naturally coupled when pulling the connection string from one side without separately assembling the connection portions.

In addition, the connection line 400 is installed to penetrate the inside of the plurality of pawls. When the pawl 400 is stored, the connection pawl 400 maintains a loose state and connects the divided pawls together so that the respective pawls are not lost.

The connection line 400 may be formed of an elastic material or a non-elastic material. However, it is preferable that the connection line 400 is made of a non-elastic material so that the pawls can be smoothly and linearly assembled by an external force transmitted from the connection line control means 200 More specifically, it is preferable to use a wire or the like.

FIG. 11 is a photograph showing a connection line control unit according to an embodiment of the present invention, and FIG. 12 is a partially enlarged cross-sectional view illustrating a connection line control unit according to another embodiment of the present invention.

Referring to FIGS. 11 and 12, the pole assembly according to the present invention may further include a connection line control means 200.

The connection line control means 200 is installed at a terminal pole 330 located at one end of the plurality of pawls and is coupled to one end of the connection line 400 and controls the tension of the connection line 400 by an external force do.

As a first embodiment, a cargo automatic bar may be used as the connection line control means according to the present invention, as shown in FIG.

As a second embodiment, the connection line control means 200 according to the present invention may be configured to adjust the tension of the connecting line 400 as it is rotated inside the terminal pawl 330 as shown in FIG. 12 . At this time, a screw groove is formed inside the terminal pawl 330 so that the connection string 400 can be pulled out as the connection string control means 200 is rotated.

The connection line control means 200 may include a male thread 210 and a female thread 240, as shown in FIG.

More specifically, the male screw 210 is inserted into the terminal pawl 330 in a state in which the head 220 is exposed, and the body 230 is formed with a threaded structure. At this time, a square groove or a hexagonal groove is formed on the surface of the head 220 exposed to the outside. This is to easily rotate the male screw 210 by using a square wrench, a hexagonal wrench, or an electric drill having the square wrench, while minimizing wear and breakage of the head.

The female thread 240 is located inside the terminal pawl 330 and is formed with a thread groove into which the body 230 of the male thread 210 is inserted so that one end of the connecting line 400 can be coupled .

If necessary, a head insertion groove 250 having a size corresponding to the head 220 may be formed on an inner circumferential surface of the terminal pole 330 provided with the connection line control means 200. The head insertion groove 250 is formed in the end pawl 330 so that the position of the male screw 210 is fixed even if the male screw 210 is rotated by an external force in a state where the head 220 of the male screw 210 is seated on the end pawl 330 210 of the mobile terminal.

Accordingly, the use of the connection line control means 200 allows easy assembly and disassembly of the pole assembly without complicated procedures, thereby facilitating installation and dismantling of the tent and saving time.

If necessary, the pole assembly according to the present invention may further include a connecting line fixing means. FIG. 13 is a cross-sectional view illustrating a connection line fixing unit according to an embodiment of the present invention.

The connection line fixing means 260 is installed on one end pole located in the opposite direction to the end pole 330 connected to the connection line control means 200 among the plurality of pawls and is coupled to one end of the connection line 400, (260) serves to fix one end of the connection string to the webbing strap (800) or the like. That is, a configuration may be used in which the distal end 410 of the connection string 400 is connected to and fixed to the ring 810 provided in the webbing strap 800, as the connection string fixing means 260.

More specifically, the connecting line fixing means 260 is formed so as to have an outer diameter corresponding to the inner diameter of the pawl once so as to be inserted into the one-end pawl, and one side that is not inserted into the one-end pawl is formed to be opened.

The connection line fixing passage 260 is formed in the connection line fixing passage 260 so that the connection line 400 passing through the respective pawls can pass therethrough. The connection line fixing passage 260 is formed on the outer surface adjacent to one side, (262) are formed.

At this time, the connecting line 400 may be formed thicker than the other portion so that the distal end 410 thereof is not inserted into the connecting line moving path of the connecting line fixing means 260. The connecting rod 400 may be provided with a connecting rod 420 so that the distal end 410 of the connecting rod 400 is not inserted into the connecting rod moving passage of the connecting rod fixing means 260 even with a strong pulling force.

The pawl once interpolated by the connecting line fixing means 260 is coupled to the ring 810 of the webbing strap 800 by the connecting line 400 and is connected to the other pawl assembly by the webbing strap 800.

Next, in the present invention, a frame for a tent including the above-described pole assembly will be described in detail. FIG. 14 is a plan view for explaining a pole assembly connector according to an embodiment of the present invention, and FIG. 15 is a sectional view for explaining a pole assembly connector and a light-shielding film pedestal according to an embodiment of the present invention.

14 and 15, a frame for a tent according to the present invention includes a pole assembly connector 500.

The pole assembly connector 500 connects the respective pole assemblies so that the plurality of pole assemblies are not crossed with each other. The socket assembly 500 includes a plurality of sockets 511, 512, 513, and 514 into which the respective pole assemblies are fitted, And a connecting plate 520 for connecting the socket 510 and each socket.

More specifically, the socket is formed in a cylindrical structure with front and rear openings, and a pole insertion hole 518 is formed in front of the socket as shown in FIGS. 14 and 15, A connection string insertion hole 519 communicating with the insertion hole 518 is formed.

The pole insertion hole 518 is formed to have an inner diameter corresponding to the outer diameter of the tent pole so that the tent pole is inserted. The connection string insertion hole 519 is formed in the connection string 400 passing through the inside of the tent pole, And the inner diameter of the connecting line 400 is greater than the outer diameter of the connecting line 400.

The number of the sockets may vary depending on the number of the pole assemblies installed at the corners of the tent, so that it is not particularly limited. However, in a small tent for 2-3 persons, 3 to 6 sockets and in a medium tent for 4-6 persons, Sockets, large tents of seven or more can have 12 sockets.

14, the first socket 511 and the second socket 512 constituting the socket unit 510 are arranged in a line, and the third socket 513 and the fourth socket 514 are arranged in a line, And the first sockets 511 and the second sockets 512 and the third sockets 513 and the fourth sockets 514 may be arranged to intersect with each other. This is for the purpose of controlling the assembly of the pole assembly to one or more than one through the control of one connection line, without the pole assemblies installed in the tent crossing each other.

The fifth socket is disposed between the first socket 511 and the third socket 513 and the sixth socket is disposed between the second socket 512 The seventh socket is disposed between the first socket 511 and the fourth socket 514 and the eighth socket is disposed between the second socket 512 and the third socket 514, 513, respectively. At this time, each socket may be arranged to have the same internal angle with respect to the center of the socket portion 510.

Thus, when two sockets, such as first socket 511 and second socket 512, are arranged in a row, any first and second pole assemblies, respectively interpolated into two sockets, And a single connection line 400 penetrating the inside of the second pole assembly.

If desired, the socket portion 510 may be formed to have an odd number of sockets. At this time, one or two connecting lines may be disposed inside the pole assembly connected to each socket. For example, if the socket portion 510 is formed with three sockets, any of the poles connected to each socket may be coupled to any first connection line and third pole assembly connected to the second pole assembly, A second connection line may be disposed, only a first connection line may be disposed inside the second pole assembly, and only a second connection line may be disposed inside the third pole assembly.

The connection plate 520 is connected to the plurality of sockets 511, 512, 513, and 514 to form an integral structure. The connection plate 520 is formed in a circular plate- May be provided on the top or bottom.

The connection plate 520 may be integrally formed through the process of being manufactured separately from the sockets 511, 512, 513 and 514 and attached to the sockets 511, 512, 513 and 514, , 512, 513, 514), and may be integrally implemented through a single process.

The connecting plate 520 may be formed to connect only the rear ends of the sockets which are not in contact with the pawl, or may be formed to cover both the rear ends of the sockets and the front ends of the sockets contacting the pawls.

If necessary, the connection plate 520 may be provided with a holder 522 having a columnar support groove at the upper center thereof so as to allow the light-shielding film support 600 to be coupled. For example, the holder 522 may be formed in a cylindrical shape having an upper opening and an inner diameter equal to the outer diameter of the support rod 620 of the light-shielding film support 600.

The cradle 522 may be integrally formed through a process of being manufactured separately from the connection plate 520 and attached to the connection plate 520 or may be integrally formed through a single process in a state of being attached to the connection plate 520 .

FIG. 16 is a plan view showing a pole assembly according to an embodiment of the present invention, and FIG. 17 is a plan view showing a pole assembly according to another embodiment of the present invention.

The pole assembly according to the present invention may use a single pole assembly connector 500 as shown in FIG. 16 to construct a dome-shaped tent, but it is also possible to use a plurality of pole assembly connectors 500 have. As such, one or more of the pole assembly connectors 500 may be used depending on the size of the tent. At this time, the pole assembly is fitted to the socket portion 510 of the pole assembly connector 500.

Finally, in the present invention, a light-shielding film pedestal that can be used for the tent frame will be described in detail. 18 is a perspective view showing a pole connector and a light-shielding film pedestal used in a tent.

Referring to FIG. 18, the light-shielding film support 600 according to the present invention is used to support the light-shielding film 700 at a stable height above the tent or tent frame, (620).

The light-shielding film supporting plate 610 is provided for stably arranging the light-shielding film 700 on the upper portion of the tent, and provides a curved surface bent downward.

More specifically, as shown in FIG. 15, the light shielding film support plate 610 is formed such that its central portion protrudes upwardly from the rim portion, and has a gentle slope toward the central portion from the rim portion.

If necessary, the light-shielding film support plate 610 may be provided with a holder 612 having a columnar support groove at the lower end of the center thereof, as shown in FIG. For example, the holder 612 may be formed in a cylindrical structure having a lower opening and an inner diameter equal to the outer diameter of the support rod 620 of the light-

The shelf 612 is configured to separate the light-shielding film support plate 610 and the support bar 620 from each other during the storage and transportation of the light-shielding film support 600. The light-shielding film support plate 610 is attached to the light- Or may be integrally formed through a single process in a state of being attached to the light-shielding film supporting plate 610. [

The support rod 620 is provided between the light shielding plate 610 and the tent so that the light shielding plate 610 is spaced apart from the upper portion of the tent and may be a cylindrical shape, And may be formed in a polygonal columnar shape.

A support rod coupling means (not shown) for coupling the support rod 620 to the upper portion of the tent may be provided at the lower end of the support rod 620 as needed.

When the pole assembly connector 500 is provided as described later, the support rod 620 may be configured to be coupled to the connection plate 520 of the pole assembly connector 500. However, even in the case where the pole assembly connector 500 is not provided, in order to use the light-shielding film pedestal, the support rod 620 and the lower end portion, for example, a velcro tape or a ring capable of providing an adhesive force to the pole assembly or the tent, It is possible to fix the support bar 620 to the lower end by using various types of coupling means.

The support bar coupling means can be replaced with a mount plate 522 of the connection plate 520 when the support rod 620 is connected to the connection plate 520 of the pole assembly connector 500 without directly connecting the support rod 620 to the tent.

If desired, the pole assembly may further include a finishing material (not shown) joined to the terminal pole to block the entry of foreign matter into the terminal pole. The finishing material includes a body portion having an outer diameter corresponding to the inner diameter of the pawl and a lid portion extending from the body portion and covering the inside of the pawl.

The above-described tent frame and light-shielding film pedestal 600 can be used through the following methods of use.

First, a connecting line 400 is pulled through a connecting line control means 200 connected to a terminal pole 330 of each of the pole assemblies positioned around the grounded pole assembly connector 500 to form a plurality of pole assemblies Assemble the pole.

The central part of the light shielding film 700 covered with the pole assembly connector 500 and the pole or the like is coupled with the light shielding film pedestal 600 by means of a velcro or string.

Next, one side of the pole assembly coupled to the pole assembly connector 500 is connected to the end of the light shielding film 700, and then the distal end of the opposite pole assembly is lifted up and fixed to the light shielding film 700, The ends of the assembly are connected to each other by a webbing strap to be self-supporting. Since the self-supporting tent is firmly held by the light-shielding film 700 covered with the webbing strap as well as the webbing strap, a separate string is connected to the tent so that the tent can be stably . The light-shielding film installed through such a process can be used as a tarpaulin.

As described above, since the tent frame according to the present invention is connected to both the pole connectors of the respective pole assemblies, the tent frame is self-supported by a part of a tent stream such as a webbing strap and a light- Self-reliance. Therefore, after putting a tent stream on a pole assembly connected parallel to the ground, fix one end of each pole assembly to the tent stream, lift the end of each pole assembly to the opposite side and fix it with a tent stream to install a large tent .

Since the pole assembly is not installed outside the tent stream, the troublesome process of inserting or removing the pole assembly into the pole assembly insertion portion of the tent stream is omitted. As a result, the installation can be done by itself, and the installation time can be reduced.

Further, the present invention can further strengthen the durability of the tent by folding the pole assembly and the tent river even after the installation of the tent is completed, and the application thereof can be transformed and expanded from the tarpaulin to the full-chamber type tent.

In addition, the light-shielded membrane stand, which has been lifted up to the top of the pole connector, interacts with the upper tent stream to hold the pole assembly so that it can extend sideways horizontally from the center of the tent ceiling. As a result, the openness of the side of the tent is improved, and at the same time, the ceiling of the tent is increased, so that the wind can pass through and the area of the canopy can be maximized.

In other words, a single tent can combine the sleeping room, the whole room, and the tuft function, thus reducing the storage of additional equipment.

In addition, according to the present invention, it is possible to easily perform the inter-pole coupling due to the action of the piercing member penetrating the inside of the pawl assembly, the pawl connection means having the unique structure and the spring, and the pull- So that it is possible to easily connect and disassemble a plurality of pawls with less effort and effort. Therefore, it is easy to install and dismantle a tent which is large regardless of age and sex.

In addition, two or more tents may be connected to each other by using the present invention, so that a large tent and a tar can also be used. Therefore, it can be used as small tents and tarps in narrow natural recreation forests, and as a large tent and large tarp by connecting tents in large-sized auto camping grounds, it is possible to minimize the purchase of additional tents according to space and space It can also be used as an all room and tarpaer in combination with a camper, a trailer, and a roof top tent.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit and scope of the invention as defined in the appended claims. It can be understood that it is possible.

100: pole connecting means 110: rear end fitting
120: end fitting body 130: spring
200: connecting line fixing means 210: male screw
220: Head 230: Body
240: Female thread 250: Head insertion groove
310: first pole 320: second pole
400: connection line 500: pole assembly connector
510: socket portion 511: first socket
512: second socket 513: third socket
514: fourth socket 518: pole interposing hole
519: connection line insertion hole 520: connection plate
522: Cradle 600: Shade holder
610: light-shielding film supporting plate 612:
620: support rod 700: shielding film

Claims (15)

And a pole connecting means composed of a rear end fitting body coupled to a rear end of the first pole and a distal end fitting member coupled to a distal end of a second pole adjacent to the first pole and detachably attached to the rear end fitting body, ,
Wherein the rear end fitting body is provided with a connection line support having a first connection line passage formed along a longitudinal direction thereof,
The upper fitting body is formed with a support insertion groove corresponding to the connection string support so that the connection string support can be inserted into the tip end of the upper insertion body facing the rear end insertion body and a second connection string passage is formed along the longitudinal direction A pole assembly for a tent. The connector according to claim 1, wherein the rear end fitting
The other end corresponding to the one end is inserted into the first pole so as to have an outer diameter corresponding to the inner diameter of the pawl and is provided with a connection line support along the longitudinal direction thereof, Wherein a connecting line movement passage is formed along the longitudinal direction inside the tent pole assembly. 3. The apparatus according to claim 1 or 2,
And a distal end facing the distal end fitting body is formed in a conical shape. The connector according to claim 2, wherein the rear end fitting
Wherein a first flange is formed to limit movement of the first pole extruded to the other end along an outer surface adjacent the open end. The endoscope according to claim 1,
A rear end of the rear end of the rear end of the rear end of the rear end of the insertion end of the rear end of the insertion end of the rear end of the insertion end of the rear end of the insertion end, And a second connecting line moving passage is formed along the longitudinal direction so that a connecting line passing through the rear end fitting body can pass through. 6. The endoscope according to claim 5,
And a second flange is formed on an outer surface of the second flange so as to restrict movement of the second pole extruded to the other end corresponding to one end of the end fitting body. The method according to claim 1,
Further comprising a spring for automatically separating the leading end fitting body and the rear end fitting body by a restoring force as the tensile force of the connecting line is fitted to the connecting rod supporting rod of the rear end fitting body. A plurality of pawls including a first pole and a second pole adjacent to each other, a connection string installed to penetrate the plurality of pawls and interlocking the plurality of pawls, A connecting rod supporting member having a connecting rod supporting passage formed therein and having a rear end insertion member and a rear end insertion member coupled to a distal end of the second pole to be detachably attached to the rear end insertion member and to be inserted into the distal end of the rear end insertion member, A pole assembly including a pole connection means formed with a support insertion groove corresponding to a connection rod support and formed with a tip fitting having a second connection string passage along a longitudinal direction; And
And a pole assembly connector comprising a socket part composed of a plurality of sockets into which the pole assembly is fitted, and a connection plate connected to the plurality of sockets to form an integral structure. 9. The socket according to claim 8,
Wherein a pole interposing hole is formed in the front of the pole assembly for interpolating the pole assembly, and a connection string insertion hole is formed in the rear of the pole assembly for communicating with the pole insertion hole to provide a passage through the inside of the pole assembly. 9. The apparatus according to claim 8,
Wherein the tent frame is formed on the upper portion of the socket portion and is formed in a disc shape. 11. The apparatus of claim 10, wherein the connecting plate
And a cradle having a columnar support groove at an upper end of the center thereof. A light-shielding film supporting plate provided with a curved surface bent downward; And
And a support bar provided between the light-shielding film support plate and the tent so that the light-shielding film support plate is spaced apart from the top of the tent. The light-emitting device according to claim 12, wherein the light-
And a cradle having a columnar support groove at a lower end of the center thereof. 13. The method of claim 12,
Further comprising support bar coupling means provided at the lower end of the roof to join the support bar to the upper portion of the tent. The light-emitting device according to claim 12, wherein the light-
Wherein the center portion of the tent is formed so as to protrude upward from the rim portion and has a gentle slope toward the center portion from the rim portion.

Images