Composite coated thermal tent comprising aerogel slurry

Abstract

The utility model relates to the technical field of heat preservation tent, especially relates to a composite coating heat preservation tent containing aerogel slurry, including support mechanism and tent body, support mechanism includes a plurality of support faceplate, and is connected through side dovetail block and side dovetail groove between every two support faceplate, support faceplate includes first support plate and second support plate, and the lower part of first support plate and second support plate located in the outermost two sides all have support surface, is provided with the lifting piece at support surface, and the outside of first support plate and second support plate located in the outermost two sides all have reinforcing surface, is provided with reinforcing piece at reinforcing surface, through the support faceplate and lifting piece of a plurality of make tent body and ground form certain interval between, reduce the heat loss through ground, all -round avoided the tent bottom and ground direct contact, effectively reduced the heat loss, improved the heat preservation effect of tent, ensured the tent internal temperature, thereby improved the sleep quality of user.

Description

Technical Field

[0001] This utility model relates to the field of thermal insulation tent technology, and in particular to a composite coating thermal insulation tent containing aerogel paste. Background Technology

[0002] A thermal tent is a type of outdoor or temporary shelter equipment specifically designed to cope with low-temperature environments. Its core function is to provide insulation, warmth, wind protection, and rain protection through a special structure and material combination. Compared to traditional tents, thermal tents place greater emphasis on thermal resistance performance in their material selection, such as using multi-layer composite fabrics or aerogel composite coatings.

[0003] Existing patent CN214463128U discloses an outdoor tent containing aerogel, including a tent body and a tent floor. The tent floor is fixed to the bottom of the tent body. The tent body includes an outer tent, tent poles, and an inner tent. The inner tent is located inside the outer tent. Connecting rods are fixed on the tent poles. Both the outer tent and the inner tent are connected to the tent poles by connecting rods. The bottom of the tent poles extends downward through the tent floor. The inner tent includes a protective layer, an aerogel composite material layer, and a heat-reflective layer arranged and fixedly connected from the outside to the inside. The outer tent includes a surface layer, a middle layer, and a protective layer arranged and fixedly connected from the outside to the inside. The outer surface of the surface layer is also coated with a water-repellent coating. This outdoor tent is not only simple in structure and reasonable in design, but also easy to install and disassemble. It also has good heat insulation effect, is lightweight, flexible, and easy to store, and has good market application prospects.

[0004] However, in the aforementioned existing technologies, since the ground temperature is usually low, especially at night or in cold regions, the bottom of the tent is in direct contact with the ground, which causes the heat inside the tent to be lost through the ground, reducing the insulation effect of the tent and causing the temperature inside the tent to drop, affecting the user's sleep quality. Utility Model Content

[0005] The purpose of this invention is to provide a composite coating thermal insulation tent containing aerogel paste, which aims to solve the technical problem in the prior art where, due to the generally low ground temperature, especially at night or in cold regions, the bottom of the tent is in direct contact with the ground, causing heat loss from the inside of the tent through the ground, reducing the insulation effect of the tent, causing the temperature inside the tent to drop, and affecting the sleep quality of the user.

[0006] To achieve the above objectives, this utility model employs a composite coating thermal insulation tent containing aerogel slurry, comprising a support mechanism and a tent body. The support mechanism includes multiple support panels, with each pair of support panels connected by side dovetail blocks and side dovetail grooves. Each support panel includes a first support plate and a second support plate, with a support surface below the outermost first and second support plates. A lifting member is provided on the support surface, and a reinforcing surface is provided on the outer side of the outermost first and second support plates. A reinforcing member is provided on the reinforcing surface. The first and second support plates are connected by end dovetail blocks and end dovetail grooves. A support mechanism is provided on the tent body, and the multiple support panels are respectively connected to the tent body via Velcro and located below the tent body.

[0007] The lifting component includes an upper threaded sleeve, a lifting screw, and a support pad. A lower threaded sleeve is provided on the support pad. The upper threaded sleeve is located at the support surface, and the lifting screw is threaded between the upper threaded sleeve and the lower threaded sleeve.

[0008] The reinforcement component includes a reinforcing screw and a reinforcing plate. The reinforcing screw has a tapered head at its lower end, and the reinforcing plate has a reinforcing threaded sleeve. The reinforcing screw is threadedly connected to the reinforcing threaded sleeve and is located inside the reinforcing threaded sleeve. The reinforcing plate is disposed at the reinforcing surface.

[0009] The support panel further includes a connecting screw, one end of which is provided with a rotating head. One end of the first support plate has a threaded groove, and the second support plate has a through groove. The connecting screw is threadedly connected to the first support plate and is located in the threaded groove, and also passes through the through groove. The rotating head abuts against the outside of the second support plate.

[0010] The supporting mechanism includes multiple supporting rods and connectors. Each supporting rod has multiple binding points, and an insertion head is provided below the supporting rod. The multiple supporting rods are respectively fixedly connected to the connectors and are located below the connectors. The tent body is connected to the corresponding supporting rods via ropes and is located between the multiple supporting rods, with the ropes located at the corresponding binding points.

[0011] This utility model discloses a composite coating thermal insulation tent containing aerogel slurry, comprising a support mechanism and a tent body. The support mechanism includes multiple support panels, with each pair of support panels connected by side dovetail blocks and side dovetail grooves. Each support panel includes a first support plate and a second support plate, with a support surface on the underside of the first and second support plates located on the outermost sides. A lifting member is provided on the support surface, and a reinforcing surface is provided on the outer side of the first and second support plates located on the outermost sides. A reinforcing member is provided on the reinforcing surface. The tent body is provided with a support mechanism. By using the multiple support panels and the lifting member, a certain gap is formed between the tent body and the ground, reducing heat loss through the ground and preventing direct contact between the bottom of the tent and the ground from all directions. This effectively reduces heat loss, improves the insulation effect of the tent, ensures the internal temperature of the tent, and thus improves the sleep quality of the user. Attached Figure Description

[0012] To more clearly illustrate the technical solutions in the embodiments of this utility model or the prior art, the drawings used in the description of the embodiments or the prior art will be briefly introduced below. Obviously, the drawings described below are only some embodiments of this utility model. For those skilled in the art, other drawings can be obtained based on these drawings without creative effort.

[0013] Figure 1 This is a three-dimensional view of the present invention.

[0014] Figure 2 This is a structural schematic diagram of the support mechanism in this utility model.

[0015] Figure 3 This is the front view of the support mechanism in this utility model.

[0016] Figure 4 This is the utility model Figure 3 A cross-sectional view along line AA in the middle.

[0017] Figure 5 This is a schematic diagram of the structure of the support panel in this utility model.

[0018] Figure 6 This is a structural schematic diagram of the tent body in this utility model.

[0019] Figure 7 This is a schematic diagram of the supporting mechanism in this utility model.

[0020] 1-Support mechanism, 2-Tent body, 3-Support panel, 4-Side dovetail block, 5-Side dovetail groove, 6-First support plate, 7-Second support plate, 8-Support surface, 9-Lifting component, 10-Reinforcement surface, 11-Reinforcement component, 12-End dovetail block, 13-End dovetail groove, 14-Upper threaded sleeve, 15-Lifting screw, 16-Support pad, 17-Lower threaded sleeve, 18-Reinforcement screw, 19-Reinforcement plate, 20-Conical head, 21-Reinforcement threaded sleeve, 22-Connecting screw, 23-Rotating head, 24-Threaded groove, 25-Through groove, 26-Support rod, 27-Connector head, 28-Binding point, 29-Insertion head, 30-Binding rope. Detailed Implementation

[0021] The embodiments of this utility model are described in detail below. Examples of these embodiments are shown in the accompanying drawings, wherein the same or similar reference numerals denote the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the accompanying drawings are exemplary and intended to explain this utility model, and should not be construed as limiting this utility model.

[0022] Please see Figures 1 to 7 This utility model provides a composite coating thermal insulation tent containing aerogel slurry, including a support mechanism 1 and a tent body 2. The support mechanism 1 includes multiple support panels 3, and every two support panels 3 are connected by side dovetail blocks 4 and side dovetail grooves 5. Each support panel 3 includes a first support plate 6 and a second support plate 7, and the first support plate 6 and the second support plate 7 on the outermost sides each have a support surface 8 below them. A lifting member 9 is provided at the support surface 8, and the first support plate 6 and the second support plate 7 on the outermost sides each have a reinforcing surface 10 on their outer side. A reinforcing member 11 is provided at the reinforcing surface 10. The first support plate 6 and the second support plate 7 are connected by end dovetail blocks 12 and end dovetail grooves 13. The tent body 2 is provided with a support mechanism, and the multiple support panels 3 are respectively connected to the tent body 2 by Velcro and are located below the tent body 2.

[0023] In this embodiment, a certain gap is formed between the tent body 2 and the ground by multiple support panels 3 and the lifting member 9, avoiding direct contact between the bottom of the tent and the ground, reducing heat loss through the ground, significantly improving the insulation effect of the tent, and providing users with a warmer and more comfortable internal environment. The inner side of the tent body 2 has a composite coating, and the composite coating is an aerogel paste, which can greatly improve the heat insulation capability of the tent. In cold environments, it can effectively block the intrusion of cold air from the outside, reduce heat loss inside the tent, and keep the inside warm and comfortable; in hot weather, it can block the entry of external heat and maintain a cool environment inside the tent. Every two support panels 3 are connected by side dovetail blocks 4 and side dovetail grooves 5, and the first support plate 6 and the second support plate 7 are connected by end dovetail blocks 12 and end dovetail grooves 13. This connection method makes the assembly and disassembly of the support panels 3 more convenient and quick, while ensuring the stability of the connection structure, and facilitating the construction and storage according to actual needs.

[0024] Furthermore, the lifting component 9 includes an upper threaded sleeve 14, a lifting screw 15, and a support pad 16. A lower threaded sleeve 17 is provided on the support pad 16. The upper threaded sleeve 14 is provided at the support surface 8, and the lifting screw 15 is threaded between the upper threaded sleeve 14 and the lower threaded sleeve 17.

[0025] In this embodiment, the support height can be flexibly adjusted by rotating the lifting screw 15 to adapt to different terrains and ground conditions, ensuring the tent is placed stably and effectively avoiding the problem of the tent tilting or becoming unstable due to uneven ground. At the same time, the threaded connection also makes it easy to store the tent.

[0026] Furthermore, the reinforcement member 11 includes a reinforcing screw 18 and a reinforcing plate 19. The reinforcing screw 18 has a tapered head 20 below it, and the reinforcing plate 19 has a reinforcing threaded sleeve 21. The reinforcing screw 18 is threadedly connected to the reinforcing threaded sleeve 21 and is located inside the reinforcing threaded sleeve 21. The reinforcing plate 19 is disposed at the reinforcing surface 10.

[0027] In this embodiment, by rotating the reinforcing screw 18 clockwise, the reinforcing screw 18 is threadedly connected to the reinforcing threaded sleeve 21, while the conical head 20 is inserted downward into the ground. This significantly enhances the connection strength between the support panel 3 and the ground, improves the stability of the entire tent structure, and effectively resists the effects of severe weather such as strong winds.

[0028] Furthermore, the support panel 3 also includes a connecting screw 22, one end of which is provided with a rotating head 23. One end of the first support plate 6 has a threaded groove 24, and the second support plate 7 has a through groove 25. The connecting screw 22 is threadedly connected to the first support plate 6 and is located in the threaded groove 24, and also passes through the through groove 25. The rotating head 23 abuts against the outside of the second support plate 7.

[0029] In this embodiment, a secure connection between the first support plate 6 and the second support plate 7 is achieved through a threaded connection. At the same time, the design of the rotating head 23 makes it convenient and quick for users to install or remove the connecting screw 22 by rotating it.

[0030] Furthermore, the supporting mechanism includes multiple supporting rods 26 and connectors 27. Each supporting rod 26 has multiple binding points 28, and an insertion head 29 is provided below each supporting rod 26. The multiple supporting rods 26 are respectively fixedly connected to the connectors 27 and are located below the connectors 27. The tent body 2 is connected to the corresponding supporting rod 26 via a binding rope 30 and is located between the multiple supporting rods 26, with the binding rope 30 located at the corresponding binding point 28.

[0031] In this embodiment, by inserting the insertion head 29 of the support rod 26 into the ground, the tent body 2 can be effectively supported by the combined action of multiple support rods 26, so that a certain space is formed inside the tent, thereby improving the comfort and usability of the tent.

[0032] When using this utility model, firstly, the dovetail blocks 12 and dovetail grooves 13 at the ends of the first support plate 6 and the second support plate 7 are used to assemble multiple support panels 3. Then, the connecting screw 22 passes through the through groove 25 and is threadedly connected to the threaded groove 24. The rotating head 23 is rotated to abut against the outside of the second support plate 7 to complete the assembly. Then, the multiple support panels 3 are spliced ​​together by the side dovetail blocks 4 and side dovetail grooves 5. The assembled support mechanism 1 is placed in a suitable position, and the height of the lifting member 9 is adjusted by rotating the lifting screw 15 so that the support pad 16 can stably contact the ground. At the same time, the reinforcing screw 18 is threadedly connected to the reinforcing threaded sleeve 21 so that the conical head 2 0. Insert the tent body 2 into the ground to enhance stability; then connect the tent body 2 to the multiple support panels 3 via Velcro and place it above the support mechanism 1; finally, insert the insertion heads 29 of the multiple support rods 26 of the support mechanism into the ground, and use the binding ropes 30 to connect the tent body 2 to the corresponding binding points 28 on the support rods 26, so that the tent body 2 is supported between the multiple support rods 26, completing the setup. This method solves the technical problem that, due to the usually low ground temperature, especially at night or in cold regions, the bottom of the tent is in direct contact with the ground, which causes the heat inside the tent to be lost through the ground, reducing the insulation effect of the tent, causing the temperature inside the tent to drop, and affecting the user's sleep quality.

[0033] The above-disclosed embodiments are merely preferred embodiments of the present utility model and should not be construed as limiting the scope of the present utility model. Those skilled in the art can understand that implementing all or part of the above-described embodiments and making equivalent changes in accordance with the claims of the present utility model are still within the scope of the utility model.

Claims

1. A composite-coated thermal insulation tent containing aerogel slurry, characterized in that, The tent includes a support mechanism and a tent body. The support mechanism includes multiple support panels, and each pair of support panels is connected by side dovetail blocks and side dovetail grooves. Each support panel includes a first support plate and a second support plate. The first and second support plates on the outermost sides each have a support surface below them, and a support member is provided on the support surface. The first and second support plates on the outermost sides each have a reinforcement surface, and a reinforcement member is provided on the reinforcement surface. The first and second support plates are connected by end dovetail blocks and end dovetail grooves. The tent body is provided with a support mechanism. The multiple support panels are connected to the tent body by Velcro and are located below the tent body.

2. The composite coating thermal insulation tent containing aerogel slurry as described in claim 1, characterized in that, The lifting component includes an upper threaded sleeve, a lifting screw, and a support pad. A lower threaded sleeve is provided on the support pad. The upper threaded sleeve is located at the support surface, and the lifting screw is threaded between the upper threaded sleeve and the lower threaded sleeve.

3. The composite coating thermal insulation tent containing aerogel slurry as described in claim 2, characterized in that, The reinforcement component includes a reinforcing screw and a reinforcing plate. The reinforcing screw has a tapered head at its lower end, and the reinforcing plate has a reinforcing threaded sleeve. The reinforcing screw is threadedly connected to the reinforcing threaded sleeve and is located inside the reinforcing threaded sleeve. The reinforcing plate is disposed at the reinforcing surface.

4. The composite coating thermal insulation tent containing aerogel slurry as described in claim 3, characterized in that, The support panel further includes a connecting screw, one end of which is provided with a rotating head. One end of the first support plate has a threaded groove, and the second support plate has a through groove. The connecting screw is threadedly connected to the first support plate and is located in the threaded groove, and also passes through the through groove. The rotating head abuts against the outside of the second support plate.

5. The composite coating thermal insulation tent containing aerogel slurry as described in claim 4, characterized in that, The supporting mechanism includes multiple supporting rods and connectors. Each supporting rod has multiple binding points, and an insertion head is provided below the supporting rod. The multiple supporting rods are respectively fixedly connected to the connectors and are located below the connectors. The tent body is connected to the corresponding supporting rods via ropes and is located between the multiple supporting rods, with the ropes located at the corresponding binding points.

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