CN203722344U - Micro current induction power supply type temperature measurement alarm device - Google Patents

Abstract

The utility model discloses a micro current induction power supply type temperature measurement alarm device. The micro current induction power supply type temperature measurement alarm device includes an induction current-receiving circuit and a temperature measurement alarm circuit, wherein the induction current-receiving circuit supplies a power source for the temperature measurement alarm circuit; the induction current-receiving circuit includes a current inductor, a rectifying and filtering circuit, a voltage stabilizing circuit, a voltage monitoring chip and a three-end switching device; the current inductor consists of a non-closed magnetic core and a coil wound on the non-closed magnetic core; a power source outputted by the coil is subjected to rectifying, filtering and voltage stabilizing, and thereafter is outputted by the three-end switching device in a controlled manner; and the switching on and switching off of the three-end switching device are controlled by the voltage monitoring chip. The micro current induction power supply type temperature measurement alarm device converts the weak inductive current, which is obtained by the small-sized and non-closed magnetic core-based current inductor, into a power source that can be used by the temperature measurement alarm device. The micro current induction power supply type temperature measurement alarm device is advantageous in convenient installation, small size, low cost and high reliability, and is very suitable for being used in various narrow spaces, and can prompt a user to pay attention to the temperature anomalies through indicating lights of various colors, and can facilitate remote observation for the user.

Description

Micro-electric current inductive power supply type temperature measurement and alarm device

Technical field

The utility model relates to a kind of temperature measurement and alarm device, relates in particular to a kind of micro-electric current inductive power supply type temperature measurement and alarm device that is applied to electric equipment.

Background technology

Charged demonstration and temperature measuring equipment are mainly used in power industry, mainly complete the effect that charged demonstration, temperature over-range alarm were monitored and realized to indoor and outdoor various electric equipment tie point temperature regime.

Power equipment long-time running is under high pressure, large electric current operating mode, therefore electric connecting point is easy to because thereby loose contact causes electric connecting point excess Temperature burning apparatus, even because excess Temperature causes equipment short trouble, expansion accident, equipment is badly damaged.

Because electric equipment operation is in high pressure conditions, be therefore difficult to complete by detection meanss such as thermometers the supervision of temperature.For Real-Time Monitoring temperature conditions, generally adopt at present thermal infrared imager or paste heat label and carry out monitor temperature situation of change.Thermal infrared imager cost is high, carries inconvenience, and this kind equipment cannot be observed the temperature conditions of equipment in sealing combined electric (GIS) or enclosed switchgear simultaneously, because infrared ray cannot pass through common glass window mouth; And heat label can only use once, and in the poor place of light, cannot accurately observe with the naked eye the situation of change of color, heat label also cannot use under outdoor environment in addition.

China has relevant unit to research and develop the temperature-sensitive lighted hats based on current transformer power taking at present.This equipment obtains the energy power supply according to current transformer, according to temperature sensor, obtains the actual temperature information of point for measuring temperature and points out operations staff's device exception information with light or voice mode.The utilization of this temperature-sensitive lighted hats be current transformer power taking principle, but the volume ratio of current transformer is huger, very trouble is installed, and cost is high, has seriously limited the practical application effect in fields such as Distribution Network Equipments, is therefore difficult to universal.In addition, current transformer is closed magnetic circuit, because large current circuit can form very strong electromagnetic field, if exist closed magnetic circuit can cause eddy current loss, eddy current loss can seriously be generated heat, the relevant rules regulation of power department must not adopt closed magnetic circuit for the loop that is greater than 1000A, so the temperature measuring equipment of current transformer power taking can not be applied in large current circuit.

Utility model content

The purpose of this utility model provides with regard to being the micro-electric current inductive power supply type temperature measurement and alarm device that is applied to electric equipment that a kind of volume is little, cost is low in order to address the above problem.

The utility model is achieved through the following technical solutions above-mentioned purpose:

A micro-electric current inductive power supply type temperature measurement and alarm device, comprises induction power-supply circuit and thermometric warning circuit, and described induction power-supply circuit provides power supply for described thermometric warning circuit, described induction power-supply circuit comprises current inductor, current rectifying and wave filtering circuit, voltage stabilizing circuit, voltage monitoring chip and three-terminal switch device, described current inductor consists of non-closed magnetic core and the coil being wound in outside described non-closed magnetic core, the two ends of described coil are connected with two inputs of described current rectifying and wave filtering circuit respectively, the cathode power supply output of described current rectifying and wave filtering circuit is connected with the cathode power supply input of described voltage stabilizing circuit and the cathode power supply input of described voltage monitoring chip respectively, the cathode power supply output of described voltage stabilizing circuit is connected with the first end of described three-terminal switch device, the control output end of described voltage monitoring chip is connected with the control input end of described three-terminal switch device, the second end of described three-terminal switch device is the cathode power supply output of described induction power-supply circuit, the negative power supply output of described current rectifying and wave filtering circuit, the negative electricity source of described voltage stabilizing circuit and the negative power supply input of described voltage monitoring chip interconnects and as the negative power supply output of described induction power-supply circuit.

In said structure, current inductor adopts the magnetic core of non-closed magnetic circuit, can directly be installed near the electric wire of power equipment when mounted, coil can sense electric wire electric current and form power supply, the current transformer that this power is compared magnetic circuit closure is little, so need other micro-power consumption control apparatus to assist just can guarantee to meet temp measuring system power supply requirement; Current rectifying and wave filtering circuit and voltage stabilizing circuit are processed for the electric current of current inductor output is carried out to rectification, filtering and voltage stabilizing; Voltage monitoring chip and three-terminal switch device form micro-power consumption control apparatus, and voltage monitoring chip passes through the output voltage of Real-Time Monitoring current rectifying and wave filtering circuit, and control on this basis the on off state of three-terminal switch device, realize micro-power consumption object.

Particularly, described thermometric warning circuit comprises temperature sensor, microprocessor, the first triode, the second triode, the 3rd triode, the first light-emitting diode, the second light-emitting diode, the 3rd light-emitting diode, the first current-limiting resistance, the second current-limiting resistance and the 3rd current-limiting resistance, the signal output part of described temperature sensor is connected with the temperature signal input of described microprocessor, three control output ends of described microprocessor respectively with the base stage of described the first triode, the base stage of described the second triode is connected with the base stage of described the 3rd triode, the collector electrode of described the first triode is connected with the first end of described the first current-limiting resistance, the collector electrode of described the second triode is connected with the first end of described the second current-limiting resistance, the collector electrode of described the 3rd triode is connected with the first end of described the 3rd current-limiting resistance, the emitter of described the first triode is connected with the positive pole of described the first light-emitting diode, the emitter of described the second triode is connected with the positive pole of described the second light-emitting diode, the emitter of described the 3rd triode is connected with the positive pole of described the 3rd light-emitting diode, the cathode power supply input of described microprocessor, the second end of described the first current-limiting resistance, the second end of the second end of described the second current-limiting resistance and described the 3rd current-limiting resistance is all connected with the cathode power supply output of described induction power-supply circuit, the negative power supply input of described microprocessor, the negative pole of described the first light-emitting diode, the negative pole of the negative pole of described the second light-emitting diode and described the 3rd light-emitting diode is all connected with the negative power supply output of described induction power-supply circuit.

Particularly, described voltage stabilizing circuit comprises voltage stabilizing didoe and low pressure difference linear voltage regulator, the negative pole of described voltage stabilizing didoe is connected with the cathode power supply input of described low pressure difference linear voltage regulator and as the cathode power supply input of described voltage stabilizing circuit, and the positive pole of described voltage stabilizing didoe is connected with the negative power supply input of described low pressure difference linear voltage regulator and as the negative electricity source of described voltage stabilizing circuit.

In order further to solve the under powered problem of current inductor out-put supply, between the cathode power supply output of described current rectifying and wave filtering circuit and negative power supply output, be connected with storage capacitor.Storage capacitor can automatic energy accumulating, when not enough for current inductor output voltage.

Preferably, described storage capacitor is solid capacitor.Common electrochemical capacitor, Leakage Current is large, and easily leakage blast is dangerous; Tantalum capacitance is limited cannot meet the demands; Solid capacitor can meet requirements.

Exist on the basis of above-mentioned storage capacitor, further, between the cathode power supply output of described current rectifying and wave filtering circuit and the cathode power supply input of described voltage monitoring chip, be connected in series with light-emitting diode, the cathode power supply output of described current rectifying and wave filtering circuit is connected with the positive pole of described light-emitting diode, and the cathode power supply input of described voltage monitoring chip is connected with the negative pole of described light-emitting diode.

In order to expand the voltage utilization of storage capacitor, require storage capacitor operating voltage range larger.And at present voltage monitoring chip on the market generally only has 5% return difference, cannot meet well the needs to its control.Light-emitting diode is sealed in behind voltage monitoring chip power supply loop, can introduce Voltage Feedback.In concrete application, storage capacitor can obtain the return difference of 5.4V～3.3V and control, the voltage of storage capacitor rises to after 5.4V, voltage stabilizing circuit can be stablized output 3.3V voltage, three-terminal switch device conducting out-put supply now, the voltage of storage capacitor cuts off three-terminal switch device during lower than 3.3V, makes load obtain normal voltage.This has just been avoided slowly setting up because of power supply output, and the microprocessor arriving in power consumption equipment resets because of electricity shortage fault.

Particularly, the model of described voltage monitoring chip is HT7227A.

Described three-terminal switch device is field effect transistor, the grid of described field effect transistor is connected with the control output end of described voltage monitoring chip, the source electrode of described field effect transistor is connected with the cathode power supply output of described voltage stabilizing circuit, and the drain electrode of described field effect transistor is as the cathode power supply output of described induction power-supply circuit.

Preferably, described non-closed magnetic core is formed by silicon steel sheet stack, and described coil is the enamel covered wire of 0.06mm wire diameter, and the number of turn of described coil is 12000 circles.Coil turn is its output voltage and underpower very little, can increase internal resistance too much, reduces source current, so need to select suitable wire diameter and the number of turn.

The beneficial effects of the utility model are:

The faint induced current that micro-electric current inductive power supply type temperature measurement and alarm device described in the utility model obtains the very little current inductor based on non-closed magnetic core of volume converts to can be for the power supply of temperature measurement and alarm device, eliminated the shortcoming that adopts conventional batteries or inductive power supply, also have advantages of easy for installation, volume is little, cost is low, highly reliable, can accomplish also littlely than matchbox, be applicable to very much on-the-spot various small spaces and use; Thermometric warning circuit notices that with the light prompt user of different colours whether charging equipment or equipment exist temperature anomaly, facilitate user's distant surveillance.

Accompanying drawing explanation

Fig. 1 is the circuit diagram of micro-electric current inductive power supply type temperature measurement and alarm device described in the utility model.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail:

As shown in Figure 1, micro-electric current inductive power supply type temperature measurement and alarm device described in the utility model comprises induction power-supply circuit and thermometric warning circuit, and induction power-supply circuit provides power supply for thermometric warning circuit, answer power-supply circuit to comprise current inductor 1, current rectifying and wave filtering circuit 2, voltage stabilizing circuit, voltage monitoring chip HT7227A, field effect transistor FET, storage capacitor C2 and LED 4, current inductor 1 consists of non-closed magnetic core and the coil being wound in outside non-closed magnetic core, non-closed magnetic core is formed by silicon steel sheet stack, coil is the enamel covered wire of 0.06mm wire diameter, the number of turn of coil is 12000 circles, current rectifying and wave filtering circuit 2 comprises full bridge rectifier and filter capacitor C1, for custom circuit, voltage stabilizing circuit comprises voltage stabilizing didoe DW and low pressure difference linear voltage regulator LDO, storage capacitor C2 is solid capacitor, the two ends of coil are connected with two inputs of current rectifying and wave filtering circuit 2 respectively, the cathode power supply output of current rectifying and wave filtering circuit 2 is connected with the positive pole of LED 4 with the negative pole of first end voltage stabilizing didoe DW and the cathode power supply input of low pressure difference linear voltage regulator LDO of storage capacitor C2 respectively, the cathode power supply input of the negative pole of LED 4 and voltage monitoring chip HT7227A, the cathode power supply output of low pressure difference linear voltage regulator LDO is connected with the source S of field effect transistor FET, the control output end of voltage monitoring chip HT7227A is connected with the grid G of field effect transistor FET, the drain D of field effect transistor FET is the positive pole of the power output end Uo of described induction power-supply circuit, the negative power supply output of current rectifying and wave filtering circuit 2, the second end of storage capacitor C2, the positive pole of voltage stabilizing didoe DW, the negative power supply input of the negative power supply input of low pressure difference linear voltage regulator LDO and voltage monitoring chip HT7227A interconnects and as the negative pole of the power output end Uo of described induction power-supply circuit.

As shown in Figure 1, thermometric warning circuit comprises temperature sensor, model is the Micro-processor MCV of " STM8L151K4 ", the first triode V1, the second triode V2, the 3rd triode V3, the first LED 1, the second LED 2, the 3rd LED 3, the first current-limiting resistance R1, the second current-limiting resistance R2 and the 3rd current-limiting resistance R3, the signal output part of temperature sensor is connected with the temperature signal input of Micro-processor MCV, three control output ends of Micro-processor MCV respectively with the base stage of the first triode V1, the base stage of the second triode V2 is connected with the base stage of the 3rd triode V3, the collector electrode of the first triode V1 is connected with the first end of the first current-limiting resistance R1, the collector electrode of the second triode V2 is connected with the first end of the second current-limiting resistance R2, the collector electrode of the 3rd triode V3 is connected with the first end of the 3rd current-limiting resistance R3, the emitter of the first triode V1 is connected with the positive pole of the first LED 1, the emitter of the second triode V2 is connected with the positive pole of the second LED 2, the emitter of the 3rd triode V3 is connected with the positive pole of the 3rd LED 3, the cathode power supply input of Micro-processor MCV, the second end of the first current-limiting resistance R1, the second end of the second end of the second current-limiting resistance R2 and the 3rd current-limiting resistance R3 is all connected with the positive pole of responding to the power output end Uo of power-supply circuit, the negative power supply input of Micro-processor MCV, the negative pole of the first LED 1, the negative pole of the negative pole of the second LED 2 and the 3rd LED 3 is all connected with the negative pole of responding to the power output end Uo of power-supply circuit.

As shown in Figure 1,1 of current inductor need to be arranged near the electric wire of power equipment, gets final product induced electricity line current, and produces voltage at the two ends of coil, forms low-energy power supply, is the consuming parts power supply of whole temperature measurement and alarm device.

Above-described embodiment is preferred embodiment of the present utility model; it is not the restriction to technical solutions of the utility model; so long as the technical scheme that can realize on the basis of above-described embodiment without creative work all should be considered as falling within the scope of the rights protection of the utility model patent.

Claims (9)

1. a micro-electric current inductive power supply type temperature measurement and alarm device, comprises induction power-supply circuit and thermometric warning circuit, and described induction power-supply circuit provides power supply for described thermometric warning circuit, it is characterized in that: described induction power-supply circuit comprises current inductor, current rectifying and wave filtering circuit, voltage stabilizing circuit, voltage monitoring chip and three-terminal switch device, described current inductor consists of non-closed magnetic core and the coil being wound in outside described non-closed magnetic core, the two ends of described coil are connected with two inputs of described current rectifying and wave filtering circuit respectively, the cathode power supply output of described current rectifying and wave filtering circuit is connected with the cathode power supply input of described voltage stabilizing circuit and the cathode power supply input of described voltage monitoring chip respectively, the cathode power supply output of described voltage stabilizing circuit is connected with the first end of described three-terminal switch device, the control output end of described voltage monitoring chip is connected with the control input end of described three-terminal switch device, the second end of described three-terminal switch device is the cathode power supply output of described induction power-supply circuit, the negative power supply output of described current rectifying and wave filtering circuit, the negative electricity source of described voltage stabilizing circuit and the negative power supply input of described voltage monitoring chip interconnects and as the negative power supply output of described induction power-supply circuit.

2. micro-electric current inductive power supply type temperature measurement and alarm device according to claim 1, it is characterized in that: described thermometric warning circuit comprises temperature sensor, microprocessor, the first triode, the second triode, the 3rd triode, the first light-emitting diode, the second light-emitting diode, the 3rd light-emitting diode, the first current-limiting resistance, the second current-limiting resistance and the 3rd current-limiting resistance, the signal output part of described temperature sensor is connected with the temperature signal input of described microprocessor, three control output ends of described microprocessor respectively with the base stage of described the first triode, the base stage of described the second triode is connected with the base stage of described the 3rd triode, the collector electrode of described the first triode is connected with the first end of described the first current-limiting resistance, the collector electrode of described the second triode is connected with the first end of described the second current-limiting resistance, the collector electrode of described the 3rd triode is connected with the first end of described the 3rd current-limiting resistance, the emitter of described the first triode is connected with the positive pole of described the first light-emitting diode, the emitter of described the second triode is connected with the positive pole of described the second light-emitting diode, the emitter of described the 3rd triode is connected with the positive pole of described the 3rd light-emitting diode, the cathode power supply input of described microprocessor, the second end of described the first current-limiting resistance, the second end of the second end of described the second current-limiting resistance and described the 3rd current-limiting resistance is all connected with the cathode power supply output of described induction power-supply circuit, the negative power supply input of described microprocessor, the negative pole of described the first light-emitting diode, the negative pole of the negative pole of described the second light-emitting diode and described the 3rd light-emitting diode is all connected with the negative power supply output of described induction power-supply circuit.

3. micro-electric current inductive power supply type temperature measurement and alarm device according to claim 2, it is characterized in that: described voltage stabilizing circuit comprises voltage stabilizing didoe and low pressure difference linear voltage regulator, the negative pole of described voltage stabilizing didoe is connected with the cathode power supply input of described low pressure difference linear voltage regulator and as the cathode power supply input of described voltage stabilizing circuit, and the positive pole of described voltage stabilizing didoe is connected with the negative power supply input of described low pressure difference linear voltage regulator and as the negative electricity source of described voltage stabilizing circuit.

4. according to the micro-electric current inductive power supply type temperature measurement and alarm device described in claim 2 or 3, it is characterized in that: between the cathode power supply output of described current rectifying and wave filtering circuit and negative power supply output, be connected with storage capacitor.

5. micro-electric current inductive power supply type temperature measurement and alarm device according to claim 4, is characterized in that: described storage capacitor is solid capacitor.

6. micro-electric current inductive power supply type temperature measurement and alarm device according to claim 5, it is characterized in that: between the cathode power supply output of described current rectifying and wave filtering circuit and the cathode power supply input of described voltage monitoring chip, be connected in series with light-emitting diode, the cathode power supply output of described current rectifying and wave filtering circuit is connected with the positive pole of described light-emitting diode, and the cathode power supply input of described voltage monitoring chip is connected with the negative pole of described light-emitting diode.

7. according to the micro-electric current inductive power supply type temperature measurement and alarm device described in claim 2 or 3, it is characterized in that: the model of described voltage monitoring chip is HT7227A.

8. according to the micro-electric current inductive power supply type temperature measurement and alarm device described in claim 2 or 3, it is characterized in that: described three-terminal switch device is field effect transistor, the grid of described field effect transistor is connected with the control output end of described voltage monitoring chip, the source electrode of described field effect transistor is connected with the cathode power supply output of described voltage stabilizing circuit, and the drain electrode of described field effect transistor is as the cathode power supply output of described induction power-supply circuit.

9. according to the micro-electric current inductive power supply type temperature measurement and alarm device described in claim 2 or 3, it is characterized in that: described non-closed magnetic core is formed by silicon steel sheet stack, and described coil is the enamel covered wire of 0.06mm wire diameter, and the number of turn of described coil is 12000 circles.