A multi-functional tent with a holding pole
By using modular design and natural environmental support points, combined with composite materials and support structures, the problems of complicated tent assembly and stability have been solved, enabling fast, comfortable and safe tent use, suitable for camping and emergency rescue.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Utility models(China)
- Current Assignee / Owner
- BEIJING HANGTIANWANYUAN ARCHITECTURE ENG CO LTD
- Filing Date
- 2025-07-21
- Publication Date
- 2026-06-16
Smart Images

Figure CN224363728U_ABST
Abstract
Description
Technical Field
[0001] This utility model relates to a tent, specifically a pole-mounted multifunctional tent, belonging to the field of tents. Background Technology
[0002] Architecture serves as a place for people to live and work in peace and security, and is also a symbol of the property owner's assets, wealth, and status. Since ancient times, it has been an essential element for a high-quality life, providing shelter from the wind and rain and a fixed space. Classic architecture is also known as frozen music and art. Today, with the changing times and the accelerated pace of life and work, people are encouraged to leave their offices and homes, actively embracing nature, enjoying the earth's energy, the wind and rain, and the sunshine, relieving anxiety, gaining inspiration, and nourishing their mind and body. As a temporary and mobile form of architecture, tents offer a choice for serving an open future lifestyle and emergency functions, and are the first choice for mobile populations to share public natural resources and spaces.
[0003] Most tent enclosures on the market are made of canvas, along with supporting structures, and can be disassembled and moved at any time. Tents are carried in a modular fashion and are only assembled on-site. However, the components used for assembly in tents on the market are numerous and complicated, making assembly time-consuming and laborious. The spatial structure is unstable and susceptible to strong winds and snow. When the inside of the tent is too hot or too cold, it can feel stuffy. Temperature, ventilation, safety, and lighting cannot meet the requirements for a sustainable, healthy, and livable environment. Furthermore, traditional tents do not have waterproof and moisture-proof functions and cannot meet people's needs for a safe and healthy overnight stay. Summary of the Invention
[0004] The purpose of this utility model is to design a pole-mounted multifunctional tent that uses existing trees, streetlights, signposts, or other building structural columns as the tent's support poles, increasing its sturdiness; it adopts a modular design, has a wide range of uses, increases the comfort of people inside the tent, and also has early warning and emergency water crossing functions.
[0005] The technical solution of this utility model is as follows:
[0006] A pole-mounted multifunctional tent includes a tent body, a tent base, pole fixing straps, a tent support structure, and poles;
[0007] The tent body is made of composite material tarpaulin, including an inner layer and an outer layer; the inner layer is an aerogel insulation layer, which can keep the temperature inside the tent warm; the outer layer is a reflective layer with high reflectivity and heat insulation performance; the bottom of the tent body is an abrasion-resistant layer, which is a rubber layer and is abrasion-resistant and waterproof; the top, front and back corners of the outer layer of the tent body are provided with openings for inserting and installing cantilever composite beam structures and supports;
[0008] Furthermore, an opening is also provided at the rear center of the top of the outer layer;
[0009] Furthermore, the tent body is also provided with several ventilation windows for ventilation; a window frame is also provided outside the ventilation window, and the frame of the window frame is provided with a sliding cover; the sliding cover is connected to a push-pull mechanism and can slide up and down or left and right.
[0010] Furthermore, a tent door frame is provided on one side of the tent body, and the tent door frame is connected to the tent door by a zipper.
[0011] The tent base is installed below the tent body and has a basin-shaped structure. The tent base includes two layers: a contact layer and a base layer. The contact layer is a fleece layer. The base layer is an inflatable layer with a honeycomb structure inside, which is composed of several regular hexagonal structures arranged symmetrically back to back. Each side of the regular hexagonal structure is provided with a vent hole, which forms an independent space when gas enters. The base layer is provided with an air inlet for air intake.
[0012] Furthermore, the tent base is provided with several adjustable zippers around its four sides. The adjustable zippers are equidistant from top to bottom around the perimeter of the tent base. The adjustable zippers are used to adjust the height of the tent base and to adjust the thickness of the tent floor after inflation by opening or closing the zippers.
[0013] The tent support structure consists of a cantilever composite beam frame, bolt balls, and uprights; the cantilever composite beam frame consists of cantilever beams, crossbeams, and short beams; the cantilever beam is an "L"-shaped structural beam, and the cantilever beam has a vertical fixed side and a support beam; the fixed side is connected to the support beam; the fixed side is used to connect the poles and is fixed to the poles by pole fixing straps; a fixing pad is installed on the inner side of the fixed side, the fixing pad is made of rubber and has several anti-slip textures on the surface to increase friction; a fixing ring is provided on the upper outer side of the fixed side to connect the steel wire rope; the steel... The wire rope is used to connect the fixed edge and the support beam; the top rear end of the support beam is provided with a rope loop for connecting the wire rope; the front part of the support beam is connected to the fixed edge; the rear part of the support beam is provided with a screw for connecting a bolt ball; there are 4 cantilever beams, which are fixed to the pole by the fixed edge, and the pole serves as a support point to form a "K"-shaped cantilever beam frame at the top of the tent, wherein 2 of the cantilever beams are fixed to the left and right sides of the pole respectively and are on the same horizontal line; the other 2 cantilever beams are fixed to the front part of the pole respectively;
[0014] The pole fixing strap is used to fix the cantilever beam. The pole fixing strap is provided with several locking holes to adjust the tightness of the fixing strap.
[0015] The crossbeam and short beams are used to connect the cantilever beams; both ends of the crossbeam and short beams are provided with screws; the left and right ends of the crossbeam are respectively connected to the rear of the other two cantilever beams by bolt balls; there are two short beams, the front ends of the two short beams are respectively connected to the rear ends of the two cantilever beams by bolt balls; the rear ends of the two short beams are respectively connected to the left and right ends of the crossbeam by bolt balls.
[0016] Furthermore, the screws on the support beam and the crossbeam and short beam are both provided with screws of the same structure at both ends, which are used to connect bolt balls;
[0017] The bolt ball has a spherical structure and is provided with several screw holes.
[0018] The top of the upright is provided with an upright screw for connecting the bolt ball; there are 4 uprights, which are respectively installed at the four corners of the cantilever composite beam frame, forming a spherical grid structure with the horizontally supported cantilever composite beam frame;
[0019] Furthermore, it also includes a power supply system, which includes a solar coating installed on the top of the tent body to convert solar energy into electrical energy; the power supply system also includes a portable rechargeable battery installed inside the tent body, the portable rechargeable battery being connected to the solar coating cable and storing electricity through the solar coating; the portable rechargeable battery is also provided with a charging port for storing electricity through an external power source.
[0020] Furthermore, it also includes an electronic fence system, which includes a controller, an ultrasonic sensor, and a buzzer. The output of the ultrasonic sensor is electrically connected to the input of the controller, and the output of the controller is electrically connected to the input of the buzzer. The controller is used to receive signals emitted by the ultrasonic sensor and manage the ultrasonic sensor and the buzzer. The ultrasonic sensor is located on the top of the tent body and is used to detect dynamic targets around the tent. The buzzer is used to issue an alarm.
[0021] Furthermore, the portable rechargeable battery powers the controller, ultrasonic sensor, and buzzer.
[0022] The beneficial effects of this utility model are as follows:
[0023] 1. By using natural elements such as large trees, utility poles, or even adjacent building walls as support points, the number of movable structures is reduced, thus enhancing the tent's wind resistance.
[0024] 2. The side poles of the rectangular pole-type tent storage box can be disassembled and reassembled as tent suspension beams, achieving two goals at once;
[0025] 3. The tent fabric and ground mat are made of heat-insulating aerogel and other materials, making them suitable for mountaineering or winter use.
[0026] 4. The tent base uses an air pressure mat, and the inflatable bottom mat has a wave-shaped accordion-style adjustable zipper to adjust the thickness. By expanding and contracting the layers and inflating simultaneously, the thickness of the airbag on the lower side of the ground can be adjusted. Even on uneven slopes, the tent can be set up, and the bottom is level for easy rest.
[0027] 5. The use of solar-powered lighting and a secure, tightly sealed space with a ground mat reduces the intrusion of insects and mosquitoes, enhancing the comfort and sense of security of sleeping in the tent at night.
[0028] 6. The tent floor mat has an adjustable thickness and volume due to its inflatable structure, making it suitable for use as a water emergency rescue device. In addition to its camping function, it also serves as a convenient place for moisture-proof rest during earthquake relief, orchard duty, and other activities.
[0029] The present invention will be further described below with reference to the accompanying drawings and embodiments. Attached Figure Description
[0030] Figure 1 This is a structural schematic diagram of a pole-mounted multifunctional tent according to an embodiment of the present invention;
[0031] Figure 2 This is a schematic diagram of the structure of the tent base according to an embodiment of the present invention;
[0032] Figure 3 This is a schematic diagram of the pole fixing structure according to an embodiment of the present utility model;
[0033] Figure 4 This is a schematic diagram of the horizontally supported cantilever composite beam structure according to an embodiment of the present invention;
[0034] Figure 5 This is a schematic diagram of the cantilever beam structure according to an embodiment of the present utility model.
[0035] Figure 6 This is a schematic diagram of the bolt ball structure in an embodiment of the present utility model;
[0036] Figure 7 This is a schematic diagram of the upright structure of an embodiment of the present utility model;
[0037] In the diagram: 1. Tent body, 11. Inner layer, 12. Outer layer, 121. Opening, 122. Straps, 13. Abrasion-resistant layer, 14. Ventilation window, 15. Window frame, 151. Sliding cover, 16. Tent door frame, 17. Tent door, 18. Solar coating, 2. Tent floor, 21. Contact layer, 22. Inflatable layer, 23. Air inlet, 24. Hexagonal structure, 25. Adjustable zipper, 3. Pole fixing straps, 31. Buckle, 32. Clip, 324. Cantilever beam, 41. Fixed edge, 411. Fixing ring, 412. Fixing pad, 42. Support beam, 421. Rope ring, 422. Support beam screw, 43. Crossbeam, 44. Short beam, 45. Bolt ball, 451. Bolt hole, 5. Upright pole, 51. Upright pole screw, 6. Portable rechargeable battery, 7. Controller, 71. Ultrasonic sensor, 72. Buzzer, 8. Steel wire rope, 9. Pole. Detailed Implementation
[0038] The preferred embodiments of the present invention will be described below. It should be understood that the preferred embodiments described herein are for illustration and explanation only and are not intended to limit the present invention. Example
[0039] like Figure 1-7 As shown, a pole-mounted multifunctional tent includes a tent body 1, a tent base 2, pole fixing straps 3, a tent support structure, and poles 5.
[0040] The tent body 1 is made of composite material tarpaulin, and includes an inner layer 11 and an outer layer 12. The inner layer 11 is an aerogel insulation layer, which can keep the temperature inside the tent warm. The outer layer 12 is a reflective layer, which is a double-sided thin aluminum oxide coating with high reflectivity and heat insulation performance. The bottom of the tent body 1 is an anti-abrasion layer 13, which is made of rubber and can prevent abrasion and waterproof. The top, front and back corners of the outer layer of the tent body 1 are provided with openings 121, which are used to insert and install the horizontal support cantilever composite beam structure and bracket.
[0041] Furthermore, the tent body 1 is also provided with several ventilation windows 14 for ventilation; a window frame 15 is also provided outside the ventilation window 14, and the frame of the window frame 15 is provided with a sliding cover; the sliding cover is connected to a push-pull mechanism and can slide up and down or left and right.
[0042] Furthermore, a tent door frame 16 is provided on one side of the tent body 1, and the tent door frame 16 is connected to the tent door 17 by a zipper.
[0043] The tent base 2 is installed below the tent body 1; the tent base 2 has a basin-shaped structure; the tent base 2 includes a contact layer 21 and a base layer 22 from top to bottom; the contact layer 21 is a fleece layer; the base layer 22 is an inflatable layer, and the interior of the base layer 22 has a honeycomb structure, which is composed of several regular hexagonal structures arranged symmetrically back to back; each side of the regular hexagonal structure is provided with a vent hole, and when gas enters, it will form an independent space; the base layer 22 is provided with an air inlet 23, which is used to allow air to enter.
[0044] Furthermore, the four sides of the tent base 2 are also provided with several adjustable zippers 25. The adjustable zippers 25 are arranged equidistantly from top to bottom around the perimeter of the tent base. The adjustable zippers 25 are used to adjust the height of the tent base 2. When the zipper is opened or closed, the thickness of the tent base 2 after inflation is adjusted. When the zipper is opened, the tent base unfolds; when the zipper is closed, the tent base folds.
[0045] The tent support structure consists of a cantilever composite beam frame, bolt balls 45, and uprights 5; the cantilever composite beam frame consists of cantilever beams 4, crossbeams 43, and short beams 44; the cantilever beams 4 are L-shaped structural beams, consisting of a vertical fixed side 41 and a support beam 42; the fixed side 41 is perpendicularly connected to the support beam 42; the fixed side 41 is used to connect the pole 9 and is fixed to the pole 9 by pole fixing straps 3; a fixing pad 412 is installed on the inner side of the fixed side 41, the fixing pad 412 is made of rubber and has several anti-slip textures on the surface to increase friction; a fixing ring 411 is provided on the upper outer side of the fixed side 41, the fixing ring 411 is used to connect the steel wire rope 8; the steel wire rope 8 is used to connect the fixed side 41 to the support beam 5. The tent consists of a fixed edge 41 and a support beam 42. The support beam 42 has a rope loop 421 at its top rear end for connecting the steel wire rope 8. The front of the support beam 42 is connected to the fixed edge 41. A screw is provided at the rear of the support beam 42 for connecting a bolt ball. There are four cantilever beams 4: a first cantilever beam, a second cantilever beam, a third cantilever beam, and a fourth cantilever beam. The four cantilever beams 4 are fixed to the pole 9 via the fixed edge, forming a "K"-shaped cantilever beam frame at the top of the tent, with the pole serving as the support point. The first and second cantilever beams are fixed to the left and right sides of the pole 9, respectively, and are on the same horizontal line. The third and fourth cantilever beams are fixed to the front of the pole 9.
[0046] The pole fixing strap 3 is used to fix the cantilever beam 4. The pole fixing strap 3 is provided with several holes 31 for fixing the clips 32. The outer side of the pole fixing strap 3 is provided with several vertical clips 32 for locking into the holes 31. The clips 32 are right-angled trapezoidal vertical bars. The right-angled side of the clip is perpendicular to the surface of the pole fixing strap. The right side of the clip is inclined.
[0047] The crossbeam and short beams are used to connect the cantilever beams; both ends of the crossbeam and short beams are provided with bolts; the left and right ends of the crossbeam are connected to the rear of the third and fourth cantilever beams respectively by bolt balls; there are two short beams, the front ends of the two short beams are connected to the rear ends of the first and second cantilever beams respectively by bolt balls; the rear ends of the two short beams are connected to the left and right ends of the crossbeam respectively by bolt balls.
[0048] Furthermore, the screws on the support beam and the crossbeam and short beam are both provided with screws of the same structure at both ends, which are used to connect bolt balls;
[0049] The bolt ball 45 has a spherical structure and is provided with several screw holes.
[0050] The top of the upright 5 is provided with a screw rod for connecting the bolt ball; there are 4 uprights, and the 4 uprights 5 are respectively installed at the four corners of the horizontal support cantilever composite beam frame to form a spherical grid structure with the cantilever composite beam frame;
[0051] Furthermore, the system also includes a power supply system, which comprises a solar coating 18 disposed on the top of the tent body to convert solar energy into electrical energy. The power supply system also includes a portable rechargeable battery 6 disposed inside the tent body. The portable rechargeable battery is connected to the solar coating cable and stores electricity through the solar coating. The portable rechargeable battery 61 is also equipped with a charging port for storing electricity through an external power source.
[0052] Furthermore, the system also includes an electronic fence system, which comprises a controller 7, an ultrasonic sensor 71, and a buzzer 72. The output of the ultrasonic sensor 71 is electrically connected to the input of the controller 7, and the output of the controller 7 is electrically connected to the input of the buzzer 72. The controller 7 is used to receive signals emitted by the ultrasonic sensor and manage the ultrasonic sensor 71 and the buzzer 72. The ultrasonic sensor 7 is located on the top of the tent body and is used to detect dynamic targets around the tent. The buzzer 71 is used to issue an alarm.
[0053] Furthermore, the mobile rechargeable battery 6 supplies power to the controller 7, the ultrasonic sensor 71, and the buzzer 72.
[0054] The usage process of this utility model is as follows: First, find a suitable object near the campsite to serve as a support pole, such as a tree, lamppost, or building pole. Then, set up the tent next to the support pole. Insert the support beam, cantilever beam, frame crossbeam, and frame short beam into the space between the outer and inner layers of the tent body through the opening of the tent body. Then, install the horizontal support cantilever combination beam structure inside using bolt balls. Then, install four poles. After installing the poles, fix the support pole fixing structure at a suitable height on the support poles. Then, connect and secure the support beam and cantilever beam with ropes.
Claims
1. A pole-mounted multi-functional tent, characterized in that: Includes the tent body, tent base, pole securing straps, tent support structure, and poles; The tent body is a composite material tarpaulin, including an inner layer and an outer layer; the inner layer is an aerogel insulation layer, the outer layer is a reflective layer, the bottom of the tent body is an anti-abrasion layer, the anti-abrasion layer is a rubber layer, and the top, front and back of the outer layer of the tent body are provided with openings for inserting and installing horizontal support cantilever composite beam structures and brackets.
2. The pole-mounted multifunctional tent according to claim 1, characterized in that: The tent body is also provided with several ventilation windows, and a window frame is provided outside the ventilation windows. The window frame is provided with a sliding cover, and the sliding cover is connected to a push-pull mechanism.
3. A pole-mounted multifunctional tent according to claim 1, characterized in that: The tent body is also provided with a tent door frame on one side, and the tent door frame is connected to the tent door by a zipper.
4. A pole-mounted multifunctional tent according to claim 1, characterized in that: The tent base is installed below the tent body and has a basin-shaped structure. The tent base includes two layers: a contact layer and a base layer. The contact layer is a fleece layer. The base layer is an inflatable layer with a honeycomb structure inside, which is composed of several regular hexagonal structures arranged symmetrically back to back. Each side of the regular hexagonal structure is provided with a ventilation hole. The base layer is provided with an air inlet.
5. A pole-mounted multifunctional tent according to claim 1, characterized in that: The tent base is also equipped with several adjustable zippers around its four sides, which are used to adjust the height of the tent base.
6. A pole-mounted multifunctional tent according to claim 1, characterized in that: The tent support structure consists of a cantilever composite beam frame, bolt balls, and uprights. The cantilever composite beam frame is composed of cantilever beams, crossbeams, and short beams. The cantilever beam is an "L"-shaped structural beam, and it has a vertical fixed side and a support beam. The fixed side is connected to the support beam. The fixed side is used to connect to the pole and is fixed to the pole with pole fixing straps. A fixing pad made of rubber with several anti-slip textures is installed on the inner side of the fixed side. A fixing ring is provided on the upper outer side of the fixed side for connecting steel wire ropes. The steel wire ropes are used to connect... The tent consists of a fixed edge and a support beam. The support beam has a rope loop at its top rear end for connecting the steel wire rope. The front of the support beam is connected to the fixed edge. A screw is located at the rear of the support beam for connecting a bolt ball. There are four cantilever beams, which are fixed to the pole via the fixed edge, forming a "K"-shaped cantilever beam frame at the top of the tent, with the pole serving as the support point. Two of the cantilever beams are fixed to the left and right sides of the pole, respectively, and are on the same horizontal line. The other two cantilever beams are fixed to the front of the pole. The pole fixing strap is used to fix the cantilever beam. The pole fixing strap has several locking holes for fixing the locking strips. The outer side of the pole fixing strap has several vertical locking strips for locking into the locking holes. The locking strips are right-angled trapezoidal vertical strips. The right-angled side of the locking strip is perpendicular to the surface of the pole fixing strap. The right side of the locking strip is an inclined side.
7. A pole-mounted multifunctional tent according to claim 6, characterized in that: The crossbeam and short beams are used to connect the cantilever beams; both ends of the crossbeam and short beams are provided with screws; the left and right ends of the crossbeam are respectively connected to the rear of the other two cantilever beams by bolt balls; there are two short beams, the front ends of the two short beams are respectively connected to the rear ends of the two cantilever beams by bolt balls; the rear ends of the two short beams are respectively connected to the left and right ends of the crossbeam by bolt balls. The screws on the support beam and the crossbeam and short beam are all equipped with screws of the same structure at both ends, which are used to connect bolt balls; The bolt ball has a spherical structure and is provided with several screw holes; The top of the upright is provided with a screw for connecting a bolt ball; there are 4 uprights, which are respectively installed at the four corners of the cantilever composite beam frame to form a spherical grid structure with the cantilever composite beam frame.
8. A pole-mounted multifunctional tent according to claim 1, characterized in that: It also includes a power supply system, which includes a solar coating installed on the top of the tent body to convert solar energy into electrical energy; the power supply system also includes a portable rechargeable battery installed inside the tent body, which is connected to the solar coating cable and stores electricity through the solar coating; the portable rechargeable battery is also provided with a charging port for storing electricity through an external power source.
9. A pole-mounted multifunctional tent according to claim 8, characterized in that: The portable rechargeable battery powers the controller, ultrasonic sensor, and buzzer.
10. A pole-mounted multifunctional tent according to claim 1, characterized in that: It also includes an electronic fence system, which includes a controller, an ultrasonic sensor, and a buzzer. The output of the ultrasonic sensor is electrically connected to the input of the controller, and the output of the controller is electrically connected to the input of the buzzer. The controller is used to receive signals emitted by the ultrasonic sensor and manage the ultrasonic sensor and the buzzer. The ultrasonic sensor is located on the top of the tent body and is used to detect dynamic targets around the tent. The buzzer is used to issue an alarm.