CN106136388A - A kind of self-powered positioning belt - Google Patents

Abstract

A self-powered positioning belt, mainly composed of a belt, a belt buckle and a self-powered positioning system. The self-powered positioning system consists of an upper ceramic sheet, an upper conductive sheet, a thermoelectric material P junction, a thermoelectric material N junction, a lower conductive sheet, and a lower ceramic sheet , GPS positioning, negative electrode wiring and positive electrode wiring. The effect of the present invention is that the current generated by the thermoelectric material P junction and the thermoelectric material N junction in series can directly supply power for GPS positioning. The effect of the present invention is that the self-powered positioning belt is not easy to be lost, and is not easy to be short of power. Primary and middle school students wearing this belt can find it through GPS positioning if they lose contact, which saves financial and material resources.

Description

A self-powered positioning belt

technical field

The invention relates to a daily necessities, in particular to a self-powered positioning belt.

Background technique

Nowadays, many primary and middle school students get lost or run away from home or school on purpose. After the primary and middle school students lose contact, it is difficult to find them. Some people have developed clothes or schoolbags with positioning functions, which cannot solve the problem of primary and middle school students losing contact. First, it is easy for primary and middle school students to take off their clothes and lose their schoolbags; second, the positioning device on the clothes or schoolbags cannot operate normally after a power failure.

Contents of the invention

The invention provides a self-powered positioning belt to solve the problem in the prior art that primary and middle school students are not easy to find when they lose contact.

The technical solution adopted by the present invention to solve its technical problems is:

A self-powered positioning belt, which consists of a belt, a belt buckle and a self-powered positioning system. The self-powered positioning system consists of an upper ceramic sheet, an upper conductive sheet, a thermoelectric material P junction, a thermoelectric material N junction, a lower conductive sheet, and a lower ceramic Composed of a ceramic chip, GPS positioning, negative electrode wiring and positive electrode wiring, a number of space-isolated upper conductive sheets are arranged under the upper ceramic sheet, and a group of space-isolated thermoelectric material P junctions and thermoelectric material N junctions are arranged under the upper conductive sheet. The lower ends of the P junction of the thermoelectric material and the N junction of the thermoelectric material are separately spaced and provided with a lower conductive sheet, and a lower ceramic sheet is arranged under the lower conductive sheet, the positive electrode connection is connected with the lower conductive sheet of the P junction of the thermoelectric material, and the negative The electrode wires are connected to the upper conductive sheet of the N-junction of the thermoelectric material, and the positive electrode wires and the negative electrode wires are respectively connected to the GPS positioning to supply power to the GPS positioning.

As another improvement of the present invention, the positive electrode connection is connected to the upper conductive sheet of the P junction of the thermoelectric material, and the negative electrode connection is connected to the lower conductive sheet of the N junction of the thermoelectric material.

The working principle of the present invention is that the upper ceramic sheet contacts the side close to the body, body temperature is indirectly or directly transmitted to the upper ceramic sheet, the temperature is higher, and the lower ceramic sheet contacts the external space, the temperature is lower, according to the thermoelectric effect, the thermoelectric material P junction and The thermoelectric material N-junction, the two joints are at different temperatures, and a certain electromotive force is generated. To obtain a larger power output, it is necessary to connect multiple thermoelectric material P-junctions and thermoelectric material N-junctions in series. The current generated by the thermoelectric material P junction and the thermoelectric material N junction in series directly supplies power for GPS positioning. GPS positioning can determine the ground position in time by receiving satellite signals.

The effect of the present invention is that the self-powered positioning belt is not easy to be lost, and is not easy to be short of power. Primary and middle school students wearing this belt can find it through GPS positioning if they lose contact, which saves financial and material resources.

Description of drawings

The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

Fig. 1 is a structural schematic diagram of the self-powered positioning belt of the present invention;

Fig. 2 is a schematic structural diagram of the self-powered positioning system of the self-powered positioning belt of the present invention.

In the figure, 1 upper ceramic sheet, 2 upper conductive sheet, 3 thermoelectric material P junction, 4 thermoelectric material N junction, 5 lower conductive sheet, 6 lower ceramic sheet, 7 belt, 8 self-powered positioning system, 9 belt buckle, 10 GPS positioning , 11 negative electrode wiring, 12 positive electrode wiring.

detailed description

As shown in the structural diagram of the present invention in Figure 1, a self-powered positioning belt is composed of a belt 7, a belt buckle 9 and a self-powered positioning system 8, as shown in Figure 2 The structural schematic diagram of the self-powered positioning system of the present invention, the self-powered positioning system Power supply positioning system 8 is composed of upper ceramic sheet 1, upper conductive sheet 2, thermoelectric material P junction 3, thermoelectric material N junction 4, lower conductive sheet 5, lower ceramic sheet 6, GPS positioning 10, negative electrode connection 11 and positive electrode connection 12 A plurality of space-isolated upper conductive sheets 2 are arranged under the upper ceramic sheet 1, and a group of space-isolated thermoelectric material P junctions 3 and thermoelectric material N junctions 4 are arranged under the upper conductive sheet 2, and the thermoelectric material P junction 3 The lower conductive sheet 5 is spaced separately from the lower end of the thermoelectric material N junction 4 , and the lower ceramic sheet 6 is arranged under the lower conductive sheet 5 . The positive electrode connection 12 is connected to the lower conductive sheet 5 of the thermoelectric material P junction 3, the negative electrode connection 11 is connected to the upper conductive sheet 2 of the thermoelectric material N junction 4, and the positive electrode connection 12 is connected to the The negative electrode wires 11 are respectively connected to the GPS positioning 10 to supply power to the GPS positioning 10 .

The working principle of the present invention is that the upper ceramic sheet contacts the side close to the body, body temperature is indirectly or directly transmitted to the upper ceramic sheet, the temperature is higher, and the lower ceramic sheet contacts the external space, the temperature is lower, according to the thermoelectric effect, the thermoelectric material P junction and The thermoelectric material N-junction, the two joints are at different temperatures, and a certain electromotive force is generated. To obtain a larger power output, it is necessary to connect multiple thermoelectric material P-junctions and thermoelectric material N-junctions in series. The current generated by the thermoelectric material P junction and the thermoelectric material N junction in series directly supplies power for GPS positioning.

The effect of the present invention is that the self-powered positioning belt is not easy to be lost, and is not easy to be short of power. Primary and middle school students wearing this belt can find it through GPS positioning if they lose contact, which saves financial and material resources.

The above is only the specific implementation of the present invention, but the protection scope of the present invention is not limited thereto, and any change or replacement that is not thought of through creative work shall be covered within the protection scope of the present invention. Therefore, the protection scope of the present invention should be determined by the protection scope defined in the claims.

Claims (2)

1. A self-powered positioning belt, comprising a belt, a belt buckle and a self-powered positioning system, characterized in that: the self-powered positioning system consists of an upper ceramic sheet, an upper conductive sheet, a thermoelectric material P junction, a thermoelectric material N junction, It consists of a lower conductive sheet, a lower ceramic sheet, GPS positioning, a negative electrode connection and a positive electrode connection. A plurality of space-isolated upper conductive sheets are arranged under the upper ceramic sheet, and a group of space-isolated thermoelectric material P junctions are arranged under the upper conductive sheet. and the thermoelectric material N junction, the thermoelectric material P junction and the lower end of the thermoelectric material N junction are separately spaced and provided with a lower conductive sheet, and a lower ceramic sheet is arranged under the lower conductive sheet, and the positive electrode connection is connected to the lower end of the thermoelectric material P junction. The conductive sheet is connected, the negative electrode connection is connected to the upper conductive sheet of the N-junction of the thermoelectric material, and the positive electrode connection and the negative electrode connection are respectively connected to GPS positioning. 2. A self-powered positioning belt according to claim 1, characterized in that: the positive electrode connection is connected to the upper conductive sheet of the P junction of the thermoelectric material, and the negative electrode connection is connected to the N junction of the thermoelectric material The lower conductive sheet connection.