CN110952832A - Solar tent - Google Patents

Abstract

The utility model relates to an outdoor articles for use technical field especially relates to a solar energy tent, include: a tent main body; a solar cell module mounted on the tent main body; the adjusting device is connected with the solar cell module and used for adjusting the installation angle of the solar cell module; and a negative ion generating device electrically connected with the solar cell module, detachably mounted to the tent main body, for generating negative ions to purify the inner space of the tent main body. The installation angle of the solar cell module can be adjusted through the adjusting device, so that the solar cell module can receive sunlight on the front side, and the power generation efficiency of the solar cell module is improved. The negative ions are generated by the negative ion generating device, so that harmful substances and dust in the air can be quickly adsorbed, the air is purified, and the air quality in the inner space of the tent main body is better. And the electric energy converted by the solar cell module can be supplied to the negative ion generating device and other electric equipment, so that the energy is saved and the environment is protected.

Description

Solar tent

Technical Field

The application relates to the technical field of outdoor articles, in particular to a solar tent.

Background

The tent is one of the indispensable equipment of the people who love outdoor exercises. In order to solve the problem of electricity consumption during outdoor activities, a solar cell module is usually attached to the outside of a tent to convert solar energy into electric energy to be supplied to equipment needing electricity. However, in the existing mode that the solar cell module is attached outside the tent, the solar energy absorption conversion rate is limited, and the outdoor power utilization requirement cannot be met.

Disclosure of Invention

In view of the above, it is necessary to provide a solar tent to solve the above problems of the conventional tent.

A solar tent, comprising:

a tent main body;

a solar cell module mounted to the tent main body;

the adjusting device is connected with the solar cell module and used for adjusting the installation angle of the solar cell module; and

and the negative ion generating device is electrically connected with the solar cell module and detachably arranged on the tent main body and is used for generating negative ions to purify the inner space of the tent main body.

In one embodiment, the solar tent further comprises a transfer cloth, one side of the transfer cloth is connected with the tent main body, the transfer cloth can rotate around a joint relative to the tent main body, and the solar cell module is laid on the transfer cloth.

In one embodiment, the solar tent further includes a first hook and loop fastener disposed between the transfer fabric and the solar cell module, for fixing the solar cell module to the transfer fabric.

In one embodiment, the solar tent further comprises a fixing cloth connected to an edge of the transfer cloth, wherein the fixing cloth can be turned relative to the transfer cloth and connected with the solar cell module.

In one embodiment, the solar tent further comprises a second magic tape, which is disposed between the fixing cloth and the solar cell module and is used for fixing the fixing cloth to the solar cell module.

In one embodiment, the adjusting device comprises a telescopic rod, one end of the telescopic rod is rotatably connected with the part of the adapting cloth far away from the tent main body, and the other end of the telescopic rod is rotatably connected with the tent main body.

In one embodiment, the telescopic rod comprises a plurality of sequentially sleeved pipes, two adjacent pipes are respectively a thick pipe and a thin pipe, one end of the thin pipe is slidably arranged in the thick pipe, a plurality of locking holes are formed in the side wall of the thick pipe at intervals along the length direction, an elastic clamping protrusion is arranged at the end part of the thin pipe slidably arranged in the thick pipe, and the elastic clamping protrusion can be clamped in one of the locking holes.

In one embodiment, the solar tent further comprises an energy storage device electrically connected with the solar cell module and the negative ion power generation device.

In one embodiment, the solar tent further comprises a fan detachably mounted to the tent body.

In one embodiment, the air outlet direction of the fan is the same as the negative ion release direction of the negative ion generating device, and the fan and the negative ion generating device are sequentially installed on the tent main body along the air outlet direction of the fan.

The beneficial effect of this application includes:

the installation angle of the solar cell module can be adjusted through the adjusting device, so that the solar cell module can receive sunlight from the front side, and the power generation efficiency of the solar cell module is improved. Through anion generating device produces the anion, can adsorb harmful substance and micronic dust in the air fast, realizes the purification of air, guarantees the interior space air quality of tent main part is better. And the electric energy converted by the solar cell module can be supplied to the negative ion generating device and other electric equipment, so that the energy is saved and the environment is protected.

Drawings

Fig. 1 is a schematic structural view of a solar tent according to an embodiment of the present disclosure;

fig. 2 is a schematic view illustrating an arrangement of a negative ion generating device and a fan in a solar tent according to an embodiment of the present disclosure;

fig. 3 is a schematic structural diagram of a solar cell module in a solar tent according to an embodiment of the present disclosure;

fig. 4 is a schematic structural view illustrating a connection between a solar cell module and a transfer fabric in a solar tent according to an embodiment of the present disclosure;

fig. 5 is a schematic structural view of a telescopic rod in a solar tent according to an embodiment of the present application.

Description of reference numerals:

10-solar tent;

100-tent body;

110-transfer fabric; 120-fixed cloth;

200-a solar cell module;

210-a first magic tape; 220-second magic tape;

300-an adjustment device;

310-a telescopic rod;

311-a thick pipe body; 312-a capillary body; 313-a keyhole;

400-negative ion generating means;

500-an energy storage device;

600-a fan.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the following describes the solar tent in further detail by way of embodiments and with reference to the accompanying drawings. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. In contrast, when an element is referred to as being "directly on" another element, there are no intervening elements present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only.

Referring to fig. 1 and 2, a solar tent 10 according to an embodiment of the present disclosure includes a tent main body 100, a solar cell module 200, an adjusting device 300, and a negative ion generating device 400. The solar cell module 200 is mounted to the tent body 100. The adjusting device 300 is connected to the solar cell module 200 and is used for adjusting the installation angle of the solar cell module 200. The negative ion generating device 400 is electrically connected to the solar cell module 200. The negative ion generating device 400 is detachably installed to the tent body 100, and generates negative ions to purify the inner space of the tent body 100.

The installation angle of the solar cell module 200 can be adjusted by the adjusting device 300, so that the solar cell module 200 can receive sunlight from the front side, and the power generation efficiency of the solar cell module 200 is improved. The negative ion generating device 400 generates negative ions, so that harmful substances and fine dust in the air can be rapidly adsorbed, the air is purified, and the air quality in the inner space of the tent main body 100 is ensured to be better. The electric energy converted by the solar cell module 200 can be provided for the negative ion generating device 400 and other electric equipment, so that the energy is saved and the environment is protected.

It is understood that the installation angle of the solar cell module 200 refers to an angle between the solar cell module 200 and an installation surface when the tent body 100 is mounted on the installation surface. Generally, the optimal installation angle of the solar cell module 200 is determined according to the longitude and latitude of the place where the tent body 100 is installed or the angle of the solar irradiation at that time, so as to ensure that the solar energy received all day is optimal.

As one practical way, the solar tent 10 further includes an energy storage device 500. The energy storage device 500 is electrically connected to the solar cell module 200 and the negative ion generating device 400. The energy storage device 500 may be a super capacitor. The energy storage device 500 may also be a lead-acid battery. The energy storage device 500 may also be a lithium battery. Through the energy storage device 500, the surplus electric energy converted by the solar cell module 200 in the daytime can be stored, and the negative ion generating device 400 and other electric devices can be used normally at night or in cloudy days.

Referring to fig. 2, as one possible implementation, the solar tent 10 further includes a fan 600. The blower fan 600 is detachably installed to the tent main body 100. The fan 600 is used for driving the negative ions generated by the negative ion generating device 400 to move rapidly. The fan 600 may be installed to the tent body 100 in a suspended manner. Through fan 600, multiplicable anion activity guarantees that the anion is covered with whole tent space with the fastest speed and plays the air purification effect. When the negative ion generating device 400 does not need to be started, the fan 600 may also perform the functions of cooling and accelerating the air flow.

Referring to fig. 2, in an embodiment, an air outlet direction of the fan 600 is the same as an anion releasing direction of the anion generating device 400, and the fan 600 and the anion generating device 400 are sequentially installed on the tent main body 100 along the air outlet direction of the fan 600. Will fan 600 with anion generating device 400 installs in proper order, just anion generating device 400 is located the air-out side of fan 600 can guarantee that the anion is covered with whole tent enclosure rapidly, accelerates the purification to the air, improves purification efficiency.

The tent body 100 may include a tent frame and a tent cloth, which is fitted over the tent frame. The inner space of the tent body 100 refers to the inner space of the tent cloth. The solar cell module 200 may be movably mounted to the tent frame by using a mounting bracket or the like, and the solar cell module 200 is located at an outer side of the tent cloth. The solar cell module 200 may also be movably mounted on the outer surface of the tent cloth.

As one practical approach, the solar tent 10 further includes a transfer fabric 110. One side of the transfer cloth 110 is coupled to the tent body 100. The transfer cloth 110 can rotate with respect to the tent body 100 around the connection. The solar cell module 200 is laid on the transfer fabric 110. The transfer fabric 110 may be sewn to the tent fabric. The transfer cloth 110 may also be connected with the tent cloth through a zipper structure. The solar cell module 200 may be a thin film solar cell. The solar cell module 200 can also be formed by splicing a plurality of crystalline silicon solar cells into a foldable form. The solar cell module 200 is connected to the tent main body 100 through the transfer fabric 110, so that the tent is simple in structure and convenient to store. The size of the transfer fabric 110 can be designed to be large enough, so that the area of the solar cell module 200 which can be laid on the transfer fabric is large, and more electric energy can be converted to meet the outdoor power utilization requirement. In addition, as shown in fig. 1, both sides of the tent body 100 may be provided with the transfer cloths 110, thereby further increasing the area of the solar cell module 200.

Referring to fig. 3, in one embodiment, the solar tent 10 further includes a first magic tape 210. The first magic tape 210 is disposed between the transfer fabric 110 and the solar cell module 200, and is used to fix the solar cell module 200 to the transfer fabric 110. The solar cell module 200 and the transfer cloth 110 are connected through the first magic tape 210, so that the structure is simple, and the solar cell module 200 can be conveniently laid according to the power demand. The solar cell module 200 and the transfer fabric 110 are connected by the first hook and loop fastener 210, so that the storage of the tent main body 100 is prevented from being affected by the rigid connection of a mechanical structure. Or when the connection between the solar cell module 200 and the transfer fabric 110 is by means of a zipper, holes need to be punched in the solar cell module 200, resulting in a decrease in the waterproof performance of the solar cell module 200.

It is understood that the magic tape includes a male surface and a female surface. The male surface and the female surface of the first magic tape 210 are respectively attached to the corresponding positions of the solar cell module 200 and the transfer fabric 110. As shown in fig. 3, the first magic tape 210 may be attached to the edge of the solar cell module 200 along the circumferential direction of the solar cell module 200. When the size of the solar cell module 200 is large, the first magic tape 210 may be attached to the middle portion of the solar cell module 200.

Referring also to fig. 4, in one embodiment, the solar tent 10 further includes a fixing cloth 120 connected to the edge of the transfer cloth 110. The fixing cloth 120 may be turned over with respect to the transfer cloth 110 and connected to the solar cell module 200. When the solar cell module 200 is attached to the transfer fabric 110, the fixing fabric 120 is turned over above the solar cell module 200 and is connected to the surface of the solar cell module 200 away from the transfer fabric 110. The fixing cloth 120 can reinforce the fixation of the solar cell module 200, thereby improving the reliability of the use of the solar tent 10.

The connection between the fixing cloth 120 and the solar cell module 200 may also be achieved by a hook and loop fastener. In one embodiment, the solar tent further includes a second magic tape 220. The second hook and loop fastener 220 is disposed between the fixing cloth 120 and the solar cell module 200, and is used to fix the fixing cloth 120 to the solar cell module 200. The solar cell module 200 and the fixing cloth 120 are connected by the second hook and loop fastener 220, so that the structure is simple and the accommodation of the tent main body 100 is not affected.

The structure of the adjusting device 300 can be various. Referring also to fig. 5, as an implementation manner, the adjusting device 300 includes a telescopic rod 310. One end of the telescopic rod 310 is rotatably connected to a portion of the adapting cloth 110 far from the tent main body 100 (it is understood that the portion of the adapting cloth 110 far from the tent main body 100 may be the end of the adapting cloth 110 far from the tent main body 100, or the middle portion of the adapting cloth 110 far from the tent main body 100). The other end of the telescopic rod 310 is rotatably connected to the tent main body 100. Since the solar cell module 200 is laid on the surface of the transfer fabric 110, when the telescopic bar 310 is elongated, the portion of the transfer fabric 110 away from the tent main body 100 is pushed in a direction away from the tent main body 100, so that the installation angle (with respect to an acute angle) of the solar cell module 200 becomes small. When the telescopic bar 310 is shortened, a portion of the transfer fabric 110 away from the tent main body 100 is pulled toward a direction close to the tent main body 100, so that the installation angle (at an acute angle) of the solar cell module 200 becomes large. The angle of the transfer fabric 110 is adjusted by the length change of the telescopic rod 310, so that the installation angle of the solar cell module 200 can be adjusted, and the solar cell module 200 can have high power generation efficiency.

In other embodiments, the end of the retractable rod 310 away from the transfer cloth 110 can also be supported on the ground on which the tent body 100 is installed. The installation angle of the solar cell module 200 can be adjusted by adjusting the length of the telescopic rod 310.

It is understood that the extension pole 310 is a structure that can be adjusted to a desired length and has a fixed length. In one embodiment, the telescopic rod 310 includes a plurality of tubes sleeved in sequence, and two adjacent tubes are a thick tube 311 and a thin tube 312. One end of the thin tube 312 is slidably disposed in the thick tube 311. The side wall of the thick tube body 311 is provided with a plurality of locking holes 313 at intervals along the length direction. An elastic locking protrusion (not shown) is provided at an end of the thin tube 312 slidably disposed in the thick tube 311. The elastic clamping protrusion can be clamped in one of the locking holes 313. By the elastic clamping convex blocks arranged in different locking holes 313, the thin tube body 312 can extend out for different lengths relative to the thick tube body 311, and the thin tube body 312 and the thick tube body 311 are relatively fixed. So that the extension pole 310 can be adjusted to different lengths as needed and fixed at the length.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A solar tent, comprising:

a tent main body (100);

a solar cell module (200) mounted on the tent body (100);

the adjusting device (300) is connected with the solar cell module (200) and is used for adjusting the installation angle of the solar cell module (200); and

and a negative ion generating device (400) electrically connected to the solar cell module (200), the negative ion generating device (400) being detachably mounted to the tent main body (100) for generating negative ions to purify the inner space of the tent main body (100).

2. The solar tent of claim 1, further comprising a transfer cloth (110), wherein one side of the transfer cloth (110) is connected to the tent body (100), the transfer cloth (110) is rotatable with respect to the tent body (100) around the connection, and the solar cell module (200) is laid on the transfer cloth (110).

3. The solar tent of claim 2, further comprising a first magic tape (210) disposed between the transfer fabric (110) and the solar cell module (200) for fixing the solar cell module (200) to the transfer fabric (110).

4. The solar tent of claim 2, further comprising a fixing cloth (120) attached to an edge of the transfer cloth (110), wherein the fixing cloth (120) is turned with respect to the transfer cloth (110) and attached to the solar cell module (200).

5. The solar tent of claim 4, further comprising a second hook and loop fastener (220) disposed between the fixing cloth (120) and the solar cell module (200) for fixing the fixing cloth (120) to the solar cell module (200).

6. The solar tent of claim 2, wherein the adjusting means (300) comprises a telescopic rod (310), one end of the telescopic rod (310) is rotatably connected to a portion of the transfer fabric (110) away from the tent main body (100), and the other end of the telescopic rod (310) is rotatably connected to the tent main body (100).

7. The solar tent as claimed in claim 6, wherein the telescopic rod (310) comprises a plurality of tube bodies which are sequentially sleeved, two adjacent tube bodies are a thick tube body (311) and a thin tube body (312), one end of the thin tube body (312) is slidably disposed in the thick tube body (311), a plurality of locking holes (313) are formed in the side wall of the thick tube body (311) at intervals along the length direction, and an elastic locking protrusion is disposed at the end of the thin tube body (312) slidably disposed in the thick tube body (311), and can be locked in one of the locking holes (313).

8. The solar tent of claim 1, further comprising an energy storage device (500) electrically connected to the solar cell module (200) and the negative ion generating device (400).

9. The solar tent of claim 1, further comprising a fan (600) detachably mounted to the tent body (100).

10. The solar tent of claim 9, wherein an air outlet direction of the fan (600) is the same as an anion release direction of the anion generating device (400), and the fan (600) and the anion generating device (400) are sequentially installed to the tent main body (100) along the air outlet direction of the fan (600).

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