CN111206819A

CN111206819A - A foldable tent based on the overall structure of tension

Info

Publication number: CN111206819A
Application number: CN202010050459.8A
Authority: CN
Inventors: 罗阿妮; 徐文龙; 刘贺平
Original assignee: Harbin Engineering University
Current assignee: Harbin Engineering University
Priority date: 2020-01-17
Filing date: 2020-01-17
Publication date: 2020-05-29
Anticipated expiration: 2040-01-17
Also published as: CN111206819B

Abstract

The invention provides a foldable tent based on a tension integral structure, which comprises two connectors, a connecting rod and a rope member; the first connector is used for connecting the connecting rod with the telescopic rod, and connecting holes are formed in the two ends of the connector and are used for being connected with the connecting rod and the end part of the telescopic rod; one end of the second connector is provided with a connecting hole which is connected with the connecting rod and the telescopic rod component, and the other end of the second connector adopts a cross-shaped structure which is used for being connected with the rope component. The technical problem that the structure of the tent is unstable in the prior art is solved by utilizing the self-balancing characteristic of the integral tensioning structure. The tent framework has a simple structure, the number of components is small, and the structure is easy to build; and because the self-balancing characteristic of the integral tensioning structure, the connection part of the components does not need to be fixed by additional bolts and screws, and the whole structure can be supported by the connection between the cable rods. And this tent structure is after accomplishing to build, can realize folding and the expansion of whole tent structure through the length that changes the telescopic link.

Description

Foldable tent based on integral tensioning structure

Technical Field

The invention relates to a foldable tent based on a tensioning integral structure, and belongs to the technical field of outdoor supporting devices.

Background

With the improvement of living standard of people, people are more and more favored to go out and travel, and more people want to visit the big good river mountain of our country to enrich own insights. Camping outdoors becomes a problem that people have to face when traveling outside for sightseeing, especially when visiting natural landscapes. One item that must be prepared for camping is a tent. The tent is a portable temporary place which can shield wind, rain, keep warm and prevent cold, and brings great convenience for people going out.

The traditional tent on the market has obvious defects, and the analysis shows that the common tent on the market has three different tent structures, namely a ridge-shaped tent, a triangular tent and a dome-shaped tent. The ridge-shaped tent has the advantages of simple structure, more parts and larger internal space, is suitable for long-time use, but is more complicated to install and disassemble; the triangular tent and the dome-shaped structure are firm, the mass is small, the carrying is convenient, the requirement on the material strength of the long tent pole is high, and the cross-shaped penetrating method at the top is difficult to install and fix. These tents all have obvious disadvantages, which bring trouble to people.

A tensioning integral tent is designed aiming at improving the space utilization performance and the folding and unfolding performance. This kind of tent structure is simpler, and the installation is also very convenient with the dismantlement to loading and unloading process does not need too big power, and this tent structure just can realize folding and the expansion of whole tent structure through the length of extension or shortening the telescopic link simultaneously, need not install and dismantle the structure repeatedly, and is bigger to market appeal.

Disclosure of Invention

The invention aims to solve the problems of difficult installation and disassembly and unstable connection in the prior art and provide a foldable tent based on a tension integral structure.

The purpose of the invention is realized as follows: the tent comprises a tent support and tent cloth arranged outside the tent support, wherein the tent support comprises an upper end surface and a lower end surface, the upper end surface and the lower end surface are in a square shape, four second connectors are respectively distributed on the upper end surface and the lower end surface, the four second connectors on the two end surfaces are respectively connected end to end through four first connecting ropes, and the squares on the upper end surface and the lower end surface deflect at an angle of 45 degrees; the upper ends of the four second connectors on the lower end face are respectively connected with a connecting rod, the end part of each connecting rod is connected with a first connector, the upper end of each first connector is connected with a telescopic rod, and the end parts of the four telescopic rods are connected with the four second connectors on the upper end face of the structure; the four second connectors on the lower end face are connected with the four second connectors on the upper end face through four second connecting ropes; and third connecting ropes are respectively arranged between the four first connecting heads and the four second connecting heads on the lower end surface and between the four first connecting heads and the 4 second connecting heads on the end surface.

The invention also includes such structural features:

1. the first connecting joint comprises two connecting holes connected with the telescopic rod and the connecting rod, and a semicircular ring structure used for being connected with the third connecting rope is arranged at the joint of the two connecting holes.

2. One end of each second connector is a connecting hole, the other end of each second connector is of a cross structure, and the first connecting ropes are arranged in a square mode through the second connectors sleeved between every two adjacent second connectors to achieve the upper end face and the lower end face.

3. The telescopic link includes thin pole, adapter sleeve, thick pole and bolt, and thick pole is fixed and is equipped with the through thread hole with the adapter sleeve, and it is downthehole that the thin pole stretches into thick pole, changes the change that the telescopic link length was realized to the downthehole position of thin pole in thick pole, and the bolt is twisted in the screw hole of adapter sleeve, screws up the bolt and makes thin pole and thick pole laminating fixed.

Compared with the prior art, the invention has the beneficial effects that: the integral tensioning tent structure based on the integral tensioning structure can realize the self-stabilization of the components without an additional locking device. And the folding and unfolding of the whole tensioned integral tent structure can be realized only by adjusting the lengths of the partial connecting rod members. The number of structural components is less, the structure is simple, and the cost is lower.

Drawings

FIG. 1 is a structural elevation view;

FIG. 2 is a top view of the structure;

FIG. 3 is a schematic view of a second connecting head;

FIG. 4 is a schematic view of a first connector configuration;

FIG. 5 is a schematic view of the connection of the second connecting head to the first connecting cord;

FIG. 6 is a schematic view of the connection of the first connector to the third connector cord;

FIG. 7 is a schematic view of the telescoping rod configuration;

fig. 8 is a partially enlarged schematic view of the telescopic rod.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

The invention provides a tensioning integral tent structure which comprises two connectors, a connecting rod, a telescopic rod and a connecting rope, wherein the two connectors are connected with the connecting rod through the connecting rod; the tent bracket based on the integral tensioning structure is realized by the following steps: the structure is divided into an upper end face and a lower end face, the upper end face and the lower end face of the structure are square, four second connectors are respectively distributed on the upper end face and the lower end face of the structure, the four second connectors on the two end faces are respectively connected end to end through four first connecting ropes, and the squares on the upper end face and the lower end face deflect at an angle of 45 degrees; meanwhile, the upper ends of the 4 second connectors on the lower end face are connected with one ends of four connecting rods, the other ends of the connecting rods are connected with the lower ends of the four first connectors, the upper ends of the first connectors are connected with one ends of 4 telescopic rods, and the other ends of the telescopic rods are connected with the four second connectors on the upper end face of the structure; meanwhile, the 4 second connectors on the lower end surface are respectively connected with the second connectors on the upper end surface through 4 second connecting ropes; simultaneously 4 first connectors are connected with 4 second connectors of lower terminal surface respectively with 4 third connection ropes, are connected with 4 second connectors of up end respectively with 4 third connection ropes. The basic structure of the tent support is formed. The outer side of the first connector is provided with a semicircular ring structure, and the semicircular ring structure is connected with one end, provided with a cross structure, of the second connector through a rope. The connecting rod and the other end of the telescopic rod stretch into the connecting hole, the connecting hole and the connecting rod are in interference fit so that the connecting rod and the telescopic rod are connected with the second connector, the other end of the second connector is provided with a cross structure, and the rope is sleeved into the cross structure so that the rope is connected with the second connector.

The first connector connecting hole is in interference fit with the connecting rod and the telescopic rod to enable the connecting rod and the telescopic rod to be connected with the first connector, and the second connector connecting hole is in interference fit with the connecting rod and the telescopic rod to enable the connecting rod and the telescopic rod to be connected with the second connector. The connecting rope comprises a first connecting rope, a second connecting rope and a third connecting rope, and the connecting rope is connected with the first connector and the second connector. One end of the connecting rod is connected with the end face of the structure, provided with the connecting hole, of the second connector, the other end of the connecting rod is connected with the end, provided with the connecting hole, of the first connector, and the end part of the connecting rod stretches into the connecting hole. One end of the telescopic rod is connected with the end face of the structure, the second connector is provided with a connecting hole, the other end of the telescopic rod is connected with the end of the first connector, which is provided with a connecting hole, and the end part of the telescopic rod extends into the connecting hole. The two ends of the first connecting head are provided with first and second connecting holes, and the end part of the connecting rod extends into the first connecting hole so as to connect the connecting rod with the first connecting head; the end part of the other connecting rod extends into the second connecting hole so as to connect the connecting rod with the first connecting joint; one end of the second connector, which is connected with the connecting rod, is provided with a connecting hole, and the end part of the other end of the connecting rod is inserted into the connecting hole of the second connector, so that the connecting rod is connected with the second connector; the two ends of the first connecting rope are provided with rope sleeves, the two ends of the second connecting heads which are respectively adjacent to the end faces of the structure are connected with one end provided with a cross structure, the end part lantern ring of the connecting rope is sleeved on the cross structure so as to enable the first connecting rope to be connected with the second connecting heads, specifically, one end of the second connecting head connected with the first connecting rope is provided with the cross structure, and one end of the first connecting rope is sleeved on the cross structure of the second connecting head so as to enable the second connecting head to be connected with the first connecting rope; the other end of the first connecting rope is sleeved on the cross-shaped structure of the other second connector on the same end face of the structure, so that the other second connector on the same end face is connected with the first connecting rope; two ends of the second connecting rope are provided with rope sleeves (lantern rings) which are respectively connected with one ends, provided with cross structures, of two adjacent second connectors of the upper end surface and the lower end surface of the structure, the end lantern rings of the connecting rope are sleeved on the cross structures so that the second connecting rope is connected with the second connectors, specifically speaking, one ends, connected with the second connecting rope, of the second connectors are provided with the cross structures, and one end of the second connecting rope is sleeved on the cross structures of the second connectors so that the second connectors are connected with the second connecting rope; the other end of the second connecting rope is sleeved on the cross-shaped structure of the second connector on the other end face, so that the second connector on the other end face is connected with the second connecting rope; one end of the third connecting rope is provided with a lantern ring and is connected with one end of the structure end face, provided with a cross structure, of the second connector, and the lantern ring at the end part of the third connecting rope is sleeved on the cross structure so as to enable the third connecting rope to be connected with the second connector; the other end of the third connecting rope is connected with the first connecting head in a winding way through a semicircular structure on the outer side of the first connecting head, so that the third connecting rope is connected with the first connecting head. The number of the connecting rods is 4, and the 4 connecting rods are connected through connectors; the number of the telescopic rods is 4, and the 4 telescopic rods are connected through connectors; the plurality of connectors are connected through a first connecting rope, a second connecting rope and a third connecting rope. According to the integral tensioning tent structure provided by the invention, 4 connecting rods are connected through the connectors, 4 telescopic rods are connected through the connectors, the tent support is formed by connecting the connecting rods with the connectors and connecting the connectors with the connecting ropes, the integral structural stability of the tent is ensured, and the built tent support realizes the folding and unfolding of the whole structure by changing the lengths of the telescopic rods.

In the tensioned integral tent structure provided by the invention, 4

second connecting heads

21, 25, 34 and 40 are distributed in a square shape on the same end surface, the cross structure and the connecting holes of the second connecting heads are shown in figure 3, 41 represents the cross structure, and 42 represents the connecting hole structure; two end rope sleeves of 4 first connecting

ropes

24, 28, 32 and 36 are respectively sleeved at one end of a cross structure of two adjacent second connectors, so that the 4 second connectors are connected with the 4 first connecting ropes end to end in a square shape, wherein the first connecting ropes and the second connectors are connected as shown in fig. 5, and the two end rope sleeves of the first connecting ropes are sleeved on the cross structure of the second connectors; one end of each of the 4

second connectors

21, 25, 34 and 40, which is provided with a connecting hole, is connected with the 4

telescopic rods

8, 10, 18 and 20 respectively, and one end of each of the 4 telescopic rods extends into the connecting hole of the second connector to form interference connection; the other ends of the 4 telescopic rod rods are connected with the 4 first connecting

joints

22, 27, 33 and 39, and the end part of the other end of the telescopic rod extends into the connecting holes of the first connecting joints to form interference connection, wherein the structural schematic diagram of the first connecting joints is shown in fig. 4, 43 represents a semicircular structure of the first connecting joints, and 44 and 45 represent two connecting holes of the first connecting joints respectively; the other ends of the 4 first connecting joints are connected with 4 connecting

rods

2, 5, 12 and 13, and the end parts of one ends of the 4 connecting rods respectively extend into the connecting holes of the 4 first connecting joints, so that the 4 first connecting joints are connected with the other 4 connecting rods; the 4 connecting rods are connected with the 4

second connectors

23, 29, 30 and 38, and the other end parts of the 4 connecting rods respectively extend into the connecting holes of the 4 second connectors, so that the 4 connecting rods are respectively connected with the other 4 second connectors; the 4 second connectors are connected with the 4 first connecting

ropes

26, 31, 35 and 37, and rope sleeves at two ends of the 4 first connecting ropes are respectively sleeved with one end of a cross structure of the 4 second connectors end to end, so that the 4 second connectors are connected with the 4 first connecting ropes end to end in a square shape; the 4

second connecting ropes

4, 6, 15 and 16 are respectively connected with the 4

second connectors

21, 25, 34 and 40 on the upper end face and the 4

second connectors

23, 29, 30 and 38 on the lower end face, and rope sleeves at two ends of the 4 second connecting ropes are respectively sleeved on the cross structures of the 4 second connectors on the upper end face and the 4 second connectors on the lower end face; the 4 third connecting ropes 7, 9, 17 and 19 are respectively connected with 4

second connectors

21, 25, 34 and 40 on the upper end surface and 4

first connectors

22, 27, 33 and 39, and rope sleeves at two ends of the 4 third connecting ropes are respectively sleeved on a cross structure of the 4 second connectors on the upper end surface and a semicircular ring structure of the 4 first connectors; the 4 third connecting

ropes

1, 3, 11 and 14 are respectively connected with 4

second connectors

23, 29, 30 and 38 at the lower end face and 4 first connectors, and rope sleeves at two ends of the 4 third connecting ropes are respectively sleeved on a cross-shaped structure of the 4 second connectors at the lower end face and a semicircular ring structure of the 4 first connectors; the structure schematic diagram and the partial enlarged schematic diagram of the telescopic rod are shown in fig. 7 and 8, the structure comprises a thin rod 50, a connecting sleeve 51, a thick rod 52 and a bolt 53, the thick rod 52 is fixed with the connecting sleeve 51 and is provided with a through threaded hole, the thin rod 50 extends into the thick rod hole, the position of the thin rod 50 in the thick rod 52 hole is changed to change the length of the telescopic rod, the bolt 53 is screwed into the threaded hole of the connecting sleeve 51, and the thin rod 50 and the thick rod 52 are attached and fixed by screwing the bolt; the whole structure is based on the self-balancing characteristic of the integral tensioning structure, all the connecting ropes are tensioned, and the whole structure stands.

Specifically, the description is made according to the sequence number: the first connector 21 of the upper layer is connected with the first telescopic rod 18, the first telescopic rod 18 is connected with the first connector 33, the first connector 33 is connected with the first connecting rod 13, and the first connecting rod 13 is connected with the third connector 38 of the lower layer; third connecting ropes are respectively arranged between the first joint 33 and the fourth second joints of the upper layer and the lower layer;

the second connector 25 on the upper layer is connected with the second telescopic rod 10, the second telescopic rod 10 is connected with the first connector 22, the first connector 22 is connected with the second connecting rod 2, and the second connecting rod 2 is connected with the fourth connector 30 on the lower layer; third connecting ropes are respectively arranged between the first joint 22 and the first joints of the upper layer and the lower layer;

the third second joint 40 at the upper layer is connected with the third telescopic rod 8, the third telescopic rod 8 is connected with the first joint 27, the first joint 27 is connected with the third connecting rod 5, the third connecting rod 5 is connected with the first joint 23 at the lower layer, third connecting ropes are respectively arranged between the first joint 27 and the second joints at the upper layer and the lower layer,

no. four second joints 34 on the upper layer are connected with No. four telescopic rods 20, No. four telescopic rods 20 are connected with first joints 39, first joints 39 are connected with No. four connecting rods 12, No. four connecting rods 12 are connected with No. two first joints 29 on the lower layer, and third connecting ropes are respectively arranged between the first joints 39 and No. three second joints on the upper layer and the lower layer.

In conclusion, the invention provides a tensioning integral tent, and relates to the technical field of outdoor supporting devices. The tent structure comprises two connectors, a connecting rod and a rope component; the first connector is used for connecting the connecting rod with the telescopic rod, and connecting holes are formed in the two ends of the connector and are used for being connected with the connecting rod and the end part of the telescopic rod; one end of the second connector is provided with a connecting hole which is connected with the connecting rod and the telescopic rod component, and the other end of the second connector adopts a cross-shaped structure which is used for being connected with the rope component. The technical problem that the structure of the tent is unstable in the prior art is solved by utilizing the self-balancing characteristic of the integral tensioning structure. The tent framework has a simple structure, the number of components is small, and the structure is easy to build; and because the self-balancing characteristic of the integral tensioning structure, the connection part of the components does not need to be fixed by additional bolts and screws, and the whole structure can be supported by the connection between the cable rods. And this tent structure is after accomplishing to build, can realize folding and the expansion of whole tent structure through the length that changes the telescopic link.

Claims

1. The utility model provides a can roll over exhibition formula tent based on stretch-draw overall structure which characterized in that: the tent comprises a tent support and tent cloth arranged outside the tent support, wherein the tent support comprises an upper end surface and a lower end surface, the upper end surface and the lower end surface are in a square shape, four second connectors are respectively distributed on the upper end surface and the lower end surface, the four second connectors on the two end surfaces are respectively connected end to end through four first connecting ropes, and the squares on the upper end surface and the lower end surface deflect at an angle of 45 degrees; the upper ends of the four second connectors on the lower end face are respectively connected with a connecting rod, the end part of each connecting rod is connected with a first connector, the upper end of each first connector is connected with a telescopic rod, and the end parts of the four telescopic rods are connected with the four second connectors on the upper end face of the structure; the four second connectors on the lower end face are connected with the four second connectors on the upper end face through four second connecting ropes; and third connecting ropes are respectively arranged between the four first connecting heads and the four second connecting heads on the lower end surface and between the four first connecting heads and the 4 second connecting heads on the end surface.

2. A collapsible shelter based on a tensegrity structure, according to claim 1, wherein: the first connecting joint comprises two connecting holes connected with the telescopic rod and the connecting rod, and a semicircular ring structure used for being connected with the third connecting rope is arranged at the joint of the two connecting holes.

3. A collapsible shelter based on a tensegrity structure, according to claim 1 or 2, wherein: one end of each second connector is a connecting hole, the other end of each second connector is of a cross structure, and the first connecting ropes are arranged in a square mode through the second connectors sleeved between every two adjacent second connectors to achieve the upper end face and the lower end face.

4. A collapsible shelter based on a tensegrity structure, according to claim 1 or 2, wherein: the telescopic link includes thin pole, adapter sleeve, thick pole and bolt, and thick pole is fixed and is equipped with the through thread hole with the adapter sleeve, and it is downthehole that the thin pole stretches into thick pole, changes the change that the telescopic link length was realized to the downthehole position of thin pole in thick pole, and the bolt is twisted in the screw hole of adapter sleeve, screws up the bolt and makes thin pole and thick pole laminating fixed.

5. A collapsible shelter based on a tensegrity structure, according to claim 3, wherein: the telescopic link includes thin pole, adapter sleeve, thick pole and bolt, and thick pole is fixed and is equipped with the through thread hole with the adapter sleeve, and it is downthehole that the thin pole stretches into thick pole, changes the change that the telescopic link length was realized to the downthehole position of thin pole in thick pole, and the bolt is twisted in the screw hole of adapter sleeve, screws up the bolt and makes thin pole and thick pole laminating fixed.