CN217546042U - Outdoor anti-lost backpack based on flexible wearable satellite Internet of things terminal - Google Patents

Abstract

The utility model provides an outdoor knapsack of preventing wandering away based on satellite thing networking terminal is dressed to flexibility, include: the solar cell is fixed on the outer surface of the backpack, the solar cell is connected with the rechargeable battery through a cable and an electric connector, the transceiver module is powered by the rechargeable battery or the solar cell, the transceiver module is provided with a radio frequency cable, the transceiver module automatically establishes communication connection with a satellite through the antenna, position information is sent to a satellite end, and the satellite end transmits the information to other ground base stations, so that distress information sending in an emergency state is realized. The utility model discloses with miniaturized electronic components, solar energy power supply technique and software system, can satisfy the fast self-assembly of user of service and send and receive signal, realize saving oneself under the all-weather no communication network environmental condition of outdoor remote area.

Description

Outdoor anti-lost backpack based on flexible wearable satellite Internet of things terminal

Technical Field

The utility model relates to an intelligence wearing equipment technical field specifically is an outdoor knapsack of preventing wandering away based on satellite thing networking terminal is dressed to flexibility.

Background

Nowadays, areas with weak infrastructure are widely available, the outdoor environment condition without communication network in the global range brings inconvenience to tourists and other professionals, and the cases that outdoor personnel are trapped or even endangered life are rare every year. The design of the effective anti-lost portable system for all-weather multi-scene application has important significance for avoiding unnecessary personal life and property loss and public resource waste.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem provide an outdoor knapsack of preventing wandering away based on satellite thing networking terminal is dressed to flexibility to solve the problem that provides among the above-mentioned background art.

The utility model provides a technical problem adopt following technical scheme to realize: an outdoor anti-lost backpack based on flexible wearing satellite internet of things terminal comprises: the solar cell is fixed on the outer surface of the backpack, the solar cell is connected with the rechargeable battery through a cable and an electric connector, the transceiver module is powered by the rechargeable battery or the solar cell, the transceiver module is provided with a radio frequency cable, the transceiver module automatically establishes communication connection with a satellite through the antenna, position information is sent to a satellite end, and the satellite end transmits the information to other ground base stations, so that distress information sending in an emergency state is realized.

The receiving and transmitting module is connected with the mobile phone terminal through a wireless communication means and is controlled and operated by a software interface of the mobile phone terminal, and the receiving and transmitting module receives external information and displays the information on the mobile phone terminal.

The cable, the rechargeable battery, the transceiver module, the antenna, the radio frequency cable and the electric connector are fixed in the interlayer space of the backpack in the form of magic tapes, zippers or special pockets.

The solar cell is a flexible thin film type cell, and the rechargeable battery is a rechargeable lithium ion battery.

The receiving and transmitting module is a small communication single machine which can transmit and receive satellite U/V frequency band signals; the antenna is a flexible antenna.

A battery piece shielding surface is arranged on the backpack outside the solar battery piece, the material of the battery piece shielding surface is consistent with the surface of the backpack or a rainproof surface layer material is adopted, and the size of the battery piece shielding surface is full covered on the solar battery piece; the shielding surface of the solar cell piece realizes the shielding protection effect on the solar cell piece through the form of button, zipper and magic paste.

Compared with the prior art, the beneficial effects of the utility model are that: the utility model discloses with miniaturized electronic components, solar energy power supply technique and software system, can satisfy the fast self-assembly of user of service and send and receive signal, realize saving oneself under the all-weather no communication network environmental condition of outdoor remote area.

Drawings

Fig. 1 is a schematic view of the battery of the present invention when the battery shielding surface is not opened.

Fig. 2 is a schematic view of the battery cell shielding surface in an open state.

Fig. 3 is the utility model discloses a system schematic diagram that satellite thing networking terminal realized.

In the figure: the mobile phone comprises a solar cell 1, a cable 2, a rechargeable battery 3, a transceiver module 4, an antenna 5, a mobile phone terminal 6, a backpack 7, a battery shielding surface 8, a radio frequency cable 9 and an electric connector 10.

Detailed Description

In order to make the technical means, the creative features, the purpose and the efficacy of the present invention easily understood and appreciated, the present invention will be further explained with reference to the specific drawings, and in the description of the present invention, it should be noted that unless otherwise specified and limited, the terms "mounted", "connected" and "connected" should be understood broadly, for example, they may be fixed connection, detachable connection, or integrally connected, mechanically connected or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements.

As shown in fig. 1-3, an outdoor anti-lost backpack based on flexible wearable satellite internet of things terminal includes: the solar cell piece 1 is fixed on the outer surface of the backpack 7, the solar cell piece 1 is connected with the rechargeable battery 3 through a cable 2 and an electric connector 10, the transceiver module 4 supplies power through the rechargeable battery 3 or the solar cell piece 1, the transceiver module 4 is provided with a radio frequency cable 9, the transceiver module 4 automatically establishes communication connection with a satellite through the antenna 5, position information is sent to a satellite end, and the satellite end transmits the information to other ground base stations, so that the distress information in an emergency state is sent.

The transceiver module 4 is connected with the mobile phone terminal 6 through a wireless communication means, and is controlled and operated by a software interface of the mobile phone terminal 6, and the transceiver module 4 receives external information and displays the information on the mobile phone terminal 6.

The cable 2, the rechargeable battery 3, the transceiver module 4, the antenna 5, the radio frequency cable 9 and the electric connector 10 are fixed in the interlayer space of the backpack in the form of a magic tape, a zipper or a special pocket.

The solar cell 1 is a flexible film cell, the main material of the solar cell is a film photoelectric material, the solar cell can generate electric energy under the radiation of sunlight, and the size and the number of the solar cell are determined according to the size of the backpack. The cable 2 is a power supply line for connecting the solar cell 1, the rechargeable battery 3 and the transceiver module 4, and a low-impedance conduction path is established. The rechargeable battery 3 is a rechargeable lithium ion battery. The transceiver module 4 is a small communication single machine capable of transmitting and receiving satellite U/V frequency band signals. The antenna 5 is a flexible antenna, and when the backpack is not used, the shape of the backpack adapts to the shape and size of the backpack, so that the occupied space is small. The mobile phone terminal 6 is an intelligent mobile phone terminal which is loaded with transceiving software and can display and send information. The backpack 7 is a traveling bag or other types of backpacks, the outer layer cloth of the backpack adopts a high polymer woven fiber material with a certain heat insulation effect, and an outer layer structure with a certain space is designed in a zipper mode. The material of the cell shielding surface 8 is consistent with that of the surface of the backpack or a rainproof surface layer material is adopted, the size of the cell shielding surface is slightly larger than that of the solar cell 1, and the solar cell 1 can be completely covered. The battery piece shielding surface 8 can realize the shielding protection effect on the solar battery piece 1 through the form of button, zipper and magic paste. The radio frequency cable 9 is a cable for transmitting electromagnetic energy in a radio frequency range, and connects the transceiver module 4 and the antenna 5. The electrical connector 10 is an electrical assembly for connecting cables to individual units.

Example 1

When a communication network environment exists or the electric quantity of the rechargeable battery is sufficient, the solar battery piece 1 can be shielded and protected by the battery piece shielding surface 8. The solar cell 1 is fixed on the outer surface of the backpack, the battery shielding surface 8 is shielded and fixed in a button, magic paste or zipper mode, and other electric devices are folded in the backpack 7.

Example 2

When the electric quantity of the rechargeable battery is lower, the battery shielding surface 8 is opened, so that the solar cell sheet 1 is exposed to direct solar radiation and is connected with the rechargeable battery 3 through the cable 2 and the electric connector 10, solar energy is converted into battery electric energy, and the energy sufficiency of the rechargeable battery 3 is ensured. Under the environment without communication signals, the solar cell 1 can be directly used for supplying electric energy to electric devices except the rechargeable battery 3.

Example 3

Under the state of no communication network, the rechargeable battery 3 or the solar cell 1 supplies power to the transceiver module 4, so that the system can normally work in all weather or special environment. The transceiver module 4 automatically establishes communication connection with the satellite through the antenna 5, transmits the position information to the satellite end, and the satellite end transmits the information to other ground base stations to realize the transmission of the distress information in an emergency state. The transceiver module 4 can be connected with the mobile phone terminal 6 through a bluetooth wireless communication means, and is controlled and operated by a software interface of the mobile phone terminal 6, so that the purpose of transmitting more detailed condition information to other ground base stations is achieved. Meanwhile, the transceiving module 4 can receive external information and display the information on the mobile phone terminal 6, so that interconnection and intercommunication with the outside are realized.

The solar cell 1 is fixed on the outer surface of the backpack, and the cell shielding surface 8 plays a role in shielding and protecting. The cable 2, the rechargeable battery 3, the transceiver module 4, the antenna 5, the radio frequency cable 9 and the electric connector 10 are fixed in the interlayer space of the backpack in the form of magic tape, zipper or special pocket, and are convenient to store and use.

The utility model discloses based on the comparatively ripe product technology of technique and on orbit satellite basis, designed a knapsack is prevented wandering away at no communication network environmental condition's wearing formula satellite thing networking terminal to be fit for tourism fan personnel. When the communication state is good, the volume and the weight of the satellite internet of things terminal in the backpack are small, the use of a normal backpack is not influenced, and the solar energy can be charged and stored for the terminal power supply when being sufficiently charged. Under the condition of no communication network environment, the system can meet the requirement that users can quickly and automatically assemble and send and receive signals by utilizing miniaturized electronic components, solar power supply technology and software systems, and realizes self rescue in the all-weather no-communication network environment condition of outdoor remote areas.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides an outdoor knapsack of preventing wandering away based on satellite thing networking terminal is dressed to flexibility which characterized in that: the method comprises the following steps: the solar cell comprises a solar cell (1), a rechargeable battery (3), a transceiver module (4), an antenna (5), a mobile phone terminal (6) and a backpack (7), wherein the solar cell (1) is fixed on the outer surface of the backpack (7), the solar cell (1) is connected with the rechargeable battery (3) through a cable (2) and an electric connector (10), the transceiver module (4) is powered by the rechargeable battery (3) or the solar cell (1), a radio frequency cable (9) is arranged on the transceiver module (4), the transceiver module (4) is automatically in communication connection with a satellite through the antenna (5), position information is sent to a satellite end, the satellite end transmits the information to other ground base stations, and help-seeking information sending in an emergency state is achieved.

2. The outdoor anti-lost backpack based on the flexible wearable satellite internet of things terminal as claimed in claim 1, characterized in that: the receiving and transmitting module (4) is connected with the mobile phone terminal (6) through a wireless communication means and is controlled and operated by a software interface of the mobile phone terminal (6), and the receiving and transmitting module (4) receives external information and displays the external information on the mobile phone terminal (6).

3. The outdoor anti-lost backpack based on the flexible wearable satellite internet of things terminal as claimed in claim 1, characterized in that: the cable (2), the rechargeable battery (3), the transceiver module (4), the antenna (5), the radio frequency cable (9) and the electric connector (10) are fixed in the interlayer space of the backpack in the form of magic tapes, zippers or special pockets.

4. The outdoor anti-lost backpack based on the flexible wearable satellite internet of things terminal as claimed in claim 1, characterized in that: the solar cell (1) is a flexible film type cell, and the rechargeable battery (3) is a rechargeable lithium ion battery.

5. The outdoor anti-lost backpack based on the flexible wearable satellite internet of things terminal as claimed in claim 1, characterized in that: the receiving and transmitting module (4) is a small communication single machine capable of transmitting and receiving satellite U/V frequency band signals; the antenna (5) is a flexible antenna.

6. The outdoor anti-lost backpack based on the flexible wearable satellite internet of things terminal as claimed in claim 1, characterized in that: a cell shielding surface (8) is arranged on the backpack (7) at the outer side of the solar cell (1), the material of the cell shielding surface (8) is consistent with that of the surface of the backpack or a rainproof surface layer material is adopted, and the size of the cell shielding surface is full covered on the solar cell (1); the solar cell shielding surface (8) realizes the shielding protection effect on the solar cell (1) through the form of button, zipper and magic paste.

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