CN210294672U - Novel solar energy landscape telescope - Google Patents

Abstract

The utility model relates to the technical field of intelligent viewing telescopes, in particular to a novel solar viewing telescope, which comprises a telescope body, a control module, a communication module, a battery, a solar panel, a charging module, a bracket, a turntable, an equipment cabin and a two-dimensional code; the mirror body is connected with a bracket which is fixed on the turntable; the turntable is rotationally connected with the equipment cabin; the equipment cabin is internally provided with a control module, a communication module, a charging module and a battery; the solar panel is arranged at the top of the mirror body and connected with the charging module, and the charging module is connected with the battery; the battery is connected with the control module and the communication module; the two-dimensional code is arranged on the equipment cabin, so that the problem that the viewing telescope is troublesome to maintain and use is solved.

Description

Novel solar energy landscape telescope

Technical Field

The utility model relates to an intelligence sight telescope technical field, concretely relates to novel solar energy sight telescope.

Background

With the rapid development of the business of the internet of things and the popularization of the travel idea of 'a mobile phone tours around the world', the mobile phone is used for an outdoor viewing telescope, and the payment starting mode of coin feeding payment is gradually increased or replaced by a two-dimensional code cloud-scanning payment mode.

The power consumption for coin-freed payment is small, and the use requirement can be met by a dry battery generally. The cloud payment for scanning the two-dimensional code is different, and at present, almost all code-scanning cloud payment communication modules use three wireless communication operators (China Mobile, Unicom, telecom) as a carrier communication network to exchange information (payment, collection, telescope execution and other actions) with a payment cloud server. In order to enable the tourists to watch remote scenery in time after paying, the communication module sends carrier data packets to the communication base station and transmits the carrier data packets back to the cloud server all the time, and the cloud server sends the data packets to the communication module after responding. The power consumption of the whole communication module of the internet of things is very high in the ceaseless and repeated communication process. In order to enable tourists to view more beautiful scenery, most of the viewing telescopes are put on the mountains, the sides of lakes and other places; because the battery capacity is little, the live time is short, needs frequent replacement battery, leads to the maintenance cost height. Increasing battery capacity results in battery volume and weight, ultimately increasing battery cost. In addition, because the electric quantity is large, the energy of the battery is high, the charging time is long, the charging current is large, a fire disaster easily occurs, once a short circuit occurs, high-energy explosion easily occurs, and great hidden danger is brought to the life and property safety of a user.

In the prior art, a common battery-powered viewing telescope has the defects of difficult battery replacement, weaker battery endurance and troublesome maintenance and use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a novel solar energy sightseeing telescope solves sightseeing telescope and maintains the trouble problem of using.

In order to solve the technical problem, the utility model adopts the following technical scheme:

the novel solar landscape telescope comprises a telescope body, a control module, a communication module, a battery, a solar panel, a charging module, a support, a turntable, an equipment cabin and a two-dimensional code; the mirror body is connected with a bracket which is fixed on the turntable; the turntable is rotationally connected with the equipment cabin; the equipment cabin is internally provided with a control module, a communication module, a charging module and a battery; the solar panel is arranged at the top of the mirror body and connected with the charging module, and the charging module is connected with the battery; the battery is connected with the control module and the communication module; and the equipment cabin is provided with a two-dimensional code.

Furthermore, the equipment cabin is provided with a sealing baffle plate, the upper part of the sealing baffle plate is provided with a control module, a communication module and a charging module, and the battery is independently arranged at the lower part of the sealing baffle plate; the control module, the communication module and the charging module are connected with the battery through a lead arranged in the side wall of the equipment cabin.

Furthermore, the outer wall of the equipment cabin is provided with a USB power supply hole, and the USB power supply hole is connected with the control module and the communication module.

Further, the equipment compartment is provided with a battery replacement door.

Further, the solar panel is embedded in the top of the mirror body; the solar panel is provided with a glass baffle plate.

Further, the two-dimensional code is embedded in the wall of the equipment cabin and provided with a protection block.

Compared with the prior art, the utility model discloses can realize following one of beneficial effect:

1. the intelligent charging system comprises a mirror body, a control module, a communication module, a battery, a solar panel, a charging module, a support, a turntable, an equipment cabin and a two-dimensional code; the mirror body is connected with a bracket which is fixed on the turntable; the turntable is rotationally connected with the equipment cabin; the equipment cabin is internally provided with a control module, a communication module, a charging module and a battery; the solar panel is arranged at the top of the mirror body and connected with the charging module, and the charging module is connected with the battery; the battery is connected with the control module and the communication module; the two-dimensional code is arranged on the equipment cabin, so that solar energy collected by the solar panel arranged at the top of the telescope can be converted into electric energy through the charging module, and the electric energy is stored in the battery to supply power for the control module and the communication module; and the two-dimensional code is scanned, the signal is received through the communication module to control the opening of the lens in the telescope to finish the use, and the endurance time of the landscape telescope is prolonged by adopting a solar energy circulating power supply mode.

2. The equipment cabin is provided with a sealing baffle plate, the upper part of the sealing baffle plate is provided with a control module, a communication module and a charging module, and the battery is independently arranged at the lower part of the sealing baffle plate; the control module, the communication module and the charging module are connected with the battery through a lead arranged in the side wall of the equipment cabin, so that the battery, the control module, the communication module and the charging module can be separated through the sealing baffle plate, the circuit is prevented from being broken, or a fire disaster is caused by high temperature, and the use safety of the novel solar viewing telescope is improved.

3. The equipment cabin outer wall is provided with the USB power supply hole, and the USB power supply hole is connected with the control module and the communication module, so that the control module and the communication module can be temporarily powered through the USB power supply hole under the condition that the solar energy and the battery power are not used up in sky and cloudy days, and the use of the novel solar landscape telescope is ensured.

4. The equipment cabin is provided with a battery replacement door, so that the novel solar landscape telescope can be ensured to be used by replacing the battery under the condition that no sun is available in special weather for a long time.

5. The solar panel is embedded in the top of the mirror body; the solar panel is provided with the glass baffle plate, so that the effect of protecting the solar panel can be realized.

6. The two-dimensional code is embedded into the wall of the equipment cabin, the two-dimensional code is provided with the protection block, the two-dimensional code can be protected by the transparent protection block, and the novel solar landscape telescope is guaranteed to be used.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is the schematic diagram of the internal structure of the knot of the present invention.

Fig. 3 is a schematic view of the mirror body structure of the present invention.

Fig. 4 is a schematic top view of the mirror body of the present invention.

In the figure: the system comprises atelescope 1, acontrol module 2, acommunication module 3, abattery 4, asolar panel 5, acharging module 6, asupport 7, a rotary table 8, an equipment cabin 9, a two-dimensional code 10, asealing baffle plate 11, a USBpower supply hole 12, abattery replacement door 13, aglass baffle plate 14 and aprotection block 15.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Example 1

The novel solar telescope comprises atelescope body 1, acontrol module 2, acommunication module 3, abattery 4, asolar panel 5, acharging module 6, asupport 7, aturntable 8, an equipment cabin 9 and a two-dimensional code 10; thelens body 1 is connected with abracket 7, and thebracket 7 is fixed on aturntable 8; the rotary table 8 is rotationally connected with the equipment cabin 9; the equipment cabin 9 is internally provided with acontrol module 2, acommunication module 3, acharging module 6 and abattery 4; the top of themirror body 1 is provided with asolar panel 5, thesolar panel 5 is connected with acharging module 6, and thecharging module 6 is connected with abattery 4; thebattery 4 is connected with thecontrol module 2 and thecommunication module 3; the two-dimensional code 10 is arranged on the equipment cabin 9, so that solar energy collected by a solar panel arranged at the top of the telescope can be converted into electric energy through the charging module, and the electric energy is stored in the battery to supply power for the control module and the communication module; and the two-dimensional code is scanned, the signal is received through the communication module to control the opening of the lens in the telescope to finish the use, and the endurance time of the landscape telescope is prolonged by adopting a solar energy circulating power supply mode.

Example 2

On the basis of theembodiment 1, the equipment cabin 9 is provided with asealing baffle plate 11, the upper part of thesealing baffle plate 11 is provided with acontrol module 2, acommunication module 3 and acharging module 6, and thebattery 4 is independently arranged at the lower part of thesealing baffle plate 11; thecontrol module 2, thecommunication module 3 and thecharging module 6 are connected with thebattery 4 through a lead arranged in the side wall of the equipment cabin 9, so that the battery, the control module, the communication module and the charging module can be separated through a sealing baffle plate, circuit disconnection is prevented, or a fire disaster is caused by high temperature, and the use safety of the novel solar landscape telescope is improved.

Example 3

On the basis of theembodiment 1, the outer wall of the equipment cabin 9 is provided with the USBpower supply hole 12, the USBpower supply hole 12 is connected with thecontrol module 2 and thecommunication module 3, and therefore the control module and the communication module can be temporarily powered through the USB power supply hole under the condition that the solar energy and the battery power are not used up in sky and cloudy days, and the novel solar landscape telescope is guaranteed to be used.

Example 4

On the basis ofembodiment 1, the equipment cabin 9 is provided with thebattery replacement door 13, so that the use of the novel solar landscape telescope can be ensured by replacing the battery under the condition that no sun is available for a long time in special weather.

Example 5

On the basis of theembodiment 1, thesolar panel 5 is embedded on the top of themirror body 1; thesolar panel 5 is provided with aglass baffle plate 14, so that the solar panel can be protected.

Example 6

On the basis of theembodiment 1, the two-dimensional code 10 is embedded in the wall of the equipment cabin 9, the two-dimensional code 10 is provided with theprotection block 15, the two-dimensional code can be protected by arranging the transparent protection block, and the use of the novel solar landscape telescope is guaranteed.

Although the invention has been described herein with reference to a number of illustrative embodiments thereof, it should be understood that numerous other modifications and embodiments can be devised by those skilled in the art that will fall within the spirit and scope of the principles of this invention. More specifically, various variations and modifications are possible in the component parts and/or arrangements of the subject combination arrangement within the scope of the disclosure, the drawings and the appended claims. In addition to variations and modifications in the component parts and/or arrangements, other uses will also be apparent to those skilled in the art.

Claims (6)

1. Novel solar energy sightseeing telescope, its characterized in that: the glasses comprise a glasses body (1), a control module (2), a communication module (3), a battery (4), a solar panel (5), a charging module (6), a support (7), a turntable (8), an equipment cabin (9) and a two-dimensional code (10); the lens body (1) is connected with a bracket (7), and the bracket (7) is fixed on a turntable (8); the turntable (8) is rotationally connected with the equipment cabin (9); a control module (2), a communication module (3), a charging module (6) and a battery (4) are arranged in the equipment cabin (9); the top of the mirror body (1) is provided with a solar panel (5), the solar panel (5) is connected with a charging module (6), and the charging module (6) is connected with a battery (4); the battery (4) is connected with the control module (2) and the communication module (3); the equipment cabin (9) is provided with a two-dimensional code (10).

2. The novel solar telescope of claim 1, wherein: the equipment cabin (9) is provided with a sealing baffle plate (11), the upper part of the sealing baffle plate (11) is provided with a control module (2), a communication module (3) and a charging module (6), and the battery (4) is independently arranged at the lower part of the sealing baffle plate (11); the control module (2), the communication module (3) and the charging module (6) are connected with the battery (4) through a lead arranged in the side wall of the equipment cabin (9).

3. The novel solar telescope of claim 1, wherein: the device cabin (9) outer wall is provided with a USB power supply hole (12), and the USB power supply hole (12) is connected with the control module (2) and the communication module (3).

4. The novel solar telescope of claim 1, wherein: the equipment compartment (9) is provided with a battery replacement door (13).

5. The novel solar telescope of claim 1, wherein: the solar panel (5) is embedded into the top of the mirror body (1); the solar panel (5) is provided with a glass baffle plate (14).

6. The novel solar telescope of claim 1, wherein: the two-dimensional code (10) is embedded in the wall of the equipment cabin (9), and the two-dimensional code (10) is provided with a protection block (15).

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