KR101908863B1 - Apparatus for setting the multiple effective detection range of flame detector - Google Patents

Abstract

The present invention relates to an apparatus for setting multiple effective detection ranges of a flame detector. In order to allow one flame detector to have multiple detection ranges, an amplification circuit corresponding to the number of effective detection ranges to set a signal from one sensor is implemented. In order to allow one effective detection range to have one amplification circuit, the effective detection range of the flame detector is set by applying a specific voltage from the outside of a main body of the flame detector. Therefore, a flame signal can always be measured and analyzed under the optimum condition to determine whether a fire occurs.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a flame detector,

The present invention relates to an apparatus for setting a plurality of effective detection distances of a flame sensor, and more particularly, to an apparatus for setting a plurality of effective detection ranges of a flame sensor, including an amplification circuit corresponding to the number of effective detection distances for setting a signal from one sensor, In order to enable one effective sensing distance to have one amplifying circuit, a certain voltage is applied to the microcomputer inside the detector by connecting wires from the outside of the flame detector to set the effective detection distance of the flame detector And more particularly, to a plurality of effective detection distance setting apparatuses of a flame detector for measuring and analyzing flame signals under optimum conditions so as to determine whether or not a fire has occurred.

The flame detector detects the specific wavelength range of ultraviolet (UV) and infrared (IR) radiation emitted from a flame generated in the ignition of a fire and converts the light energy into electric energy It is a type of fire detector that detects the occurrence of flame in the early stage of fire using electronic characteristics and has a fast response speed.

These flame detectors have recently changed their technical standards so that one flame detector has a fixed effective detection distance and that one flame detector has a plurality of effective detection distances.

The effective sensing distance of the flame sensor is set according to the sensitivity of the infrared sensor and the ultraviolet sensor installed in the flame sensor. In order to have a plurality of effective sensing distances in one flame sensor, the following assumption is necessary.

- The detection value for the standard flame at each effective sensing distance varies with the sensitivity of the sensor by the detection distance of the flame sensor or the gain of the output signal of the sensor by the amplification circuit. Be able to obtain appropriate output value to distinguish non-fire (non-operating)

- The effective detection distance should be set by adjusting the range of the value for judging the fire from the data of the flame obtained from one sensor and one amplification circuit.

However, it is very difficult to set the boundary between the fire operation and the non-operation flame, so that there is a considerable difficulty in realizing the actual product, and the conventional methods are set by opening the flame sensor case and adjusting the dip switch Or a method of setting the wireless communication circuit as a remote control device after incorporating the wireless communication circuit, which is a relatively difficult and time consuming method.

As a conventional technique related to this, Korean Patent No. 10-1573244, "a fire detection device capable of adjusting sensitivity in a short distance" has been proposed, which will be described with reference to FIG.

The sensitivity adjustment switch 140 is installed so as to be electrically connected to the fire sensing apparatus through electric wires so as to be easily accessible by an administrator and to adjust the sensitivity by the administrator when necessary.

As shown in FIG. 1, the sensitivity adjustment switch 140 includes three terminals. The first terminal T1 is commonly connected to a negative DC power source and the second terminal T2 and the third terminal T3 are connected to a DC power source DC- ) Through a switch. When the second terminal T2 and the third terminal T3 are opened in the DC power source DC-, the input terminals I1, I2, and I3 of the signal input unit 122 of the central control unit H, L, and L are input, and the control unit performs the sensitivity adjustment algorithm stored in the memory to set the effective monitoring distance to be 30 m (the sensitivity of the sensor unit is set to decrease).

On the other hand, when the second terminal T2 is connected to the DC power source DC - and the third terminal T3 is open, the input terminals I1, I2 and I3 of the signal input section 122 of the central control unit H, H, and L are input, and the control unit executes the sensitivity adjustment algorithm stored in the memory to set the effective monitoring distance to 40 m (the sensitivity of the sensor unit is set to medium sensitivity).

When both the second terminal T2 and the third terminal T3 are connected to the DC power source DC-, the input terminals I1, I2 and I3 of the signal input unit 122 of the central control unit are respectively connected to the input terminals I, H and H are inputted, and the control unit executes the sensitivity adjustment algorithm stored in the memory to set the effective monitoring distance to be 50 m (the sensitivity of the sensor unit is set to high sensitivity).

Therefore, in order to adjust the sensitivity of the conventional fire monitoring device, the user moves to the place where the fire monitoring device is installed (approximately 15m to 50m or more from the ground) so as to safely control the sensitivity of the fire monitoring device .

The sensitivity of the fire detection system is relatively easy to observe by the operator during the day when the worker resides in a lot of days. It is possible to further prevent a non-fire alarm from being generated. On the other hand, in the case of a night without a worker, by setting the fire detection apparatus at a high sensitivity, it is possible to more accurately detect a flame or flame caused by a fire.

However, in such a conventional technique, the effective sensing distance is selected by logic combination of a high signal (H) and a low signal (L) In order to further refine the effective sensing distance, there is a disadvantage in that the number of signal lines is increased by providing the terminal T and the input terminal I in correspondence with each other and electrically connecting them, which complicates the wiring.

In order to solve the problems of the conventional art as described above, in order to adjust the effective sensing distance of the flame sensor from the outside, a high or low signal corresponding to a digital signal is generated using one or two wires, So that the convenience of the user can be improved by setting a plurality of effective sensing distances.

In addition, the present invention is characterized in that an amplification circuit is constituted by the number of effective sensing distances for which a signal from one sensor is to be set so that one product can have a plurality of effective sensing distances, So that it is possible to always measure the flame signal while minimizing the malfunction in the optimum condition and to determine whether or not there is a fire.

The above objects of the present invention are achieved by a device for setting a plurality of effective sensing ranges of a flame sensor, comprising: a sensor unit for sensing a flame; A plurality of amplifying circuits for amplifying the signals of the sensor unit to correspond to a plurality of effective sensing distances; A microcomputer for receiving a signal of the amplifying circuit; And a voltage regulator for regulating a voltage supplied from the external power supply to a specific voltage value and supplying the regulated voltage to the microcomputer. The microcomputer detects a voltage supplied from a signal input unit and a voltage regulator corresponding to the plurality of amplification circuits, A plurality of effective sensing distance setting devices of the flame sensor are provided.

Therefore, in order to control the effective sensing distance from the outside of the flame sensor, the plurality of effective sensing distance setting apparatuses of the present invention can apply a specific voltage to the microcomputer by using one or two wires, The wiring used in the setting can be minimized.

In addition, the present invention is characterized in that an amplification circuit is constituted by the number of effective sensing distances for which a signal from one sensor is to be set so that one product can have a plurality of effective sensing distances, So that the parts and the cost are increased partly, but there are other effects that can realize the optimized performance per detection distance and minimize the malfunction when using the product.

FIG. 1 is an explanatory diagram of an effective sensing distance setting by connecting an external sensitivity control switch and a signal receiving unit in a fire sensing apparatus according to the related art,
FIG. 2 is a view showing a first embodiment of a plurality of effective detection distance setting devices of the flame sensor of the present invention,
3 is a diagram showing an example of effective sensing distance setting example of the first embodiment of the present invention,
4 shows a second embodiment of a plurality of effective detection distance setting devices of the flame sensor of the present invention,
5 is a third embodiment of a plurality of effective sensing range setting devices of the flame sensor of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and the inventor may appropriately define the concept of the term in order to best describe its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in this specification and the configurations shown in the drawings are merely the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention. Therefore, It is to be understood that equivalents and modifications are possible.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a first embodiment of a plurality of effective detection distance setting devices of the flame sensor of the present invention. Hereinafter, in FIGS. 2 to 5, detailed description of the technical details overlapping with the 'fire detector capable of adjusting the sensitivity in the short distance' of the Korean Patent No. 10-1573244, which is a prior art shown in FIG. 1, will be omitted.

As shown in FIG. 2, the plurality of effective sensing distance setting devices of the flame sensor of the present invention include a sensor unit including an infrared sensor and an ultraviolet sensor for detecting flame, A plurality of amplifying circuits for amplifying; And a voltage regulator for regulating a voltage supplied from a microcomputer for receiving signals of the plurality of amplifying circuits and a voltage supplied from an external power supply unit (VCC) to a specific voltage value and supplying the adjusted voltage to the microcomputer, And a control unit for detecting the voltage supplied from the signal input unit and the voltage adjusting unit and transmitting the voltage to control connection of the signal input unit.

The voltage adjusting unit includes a first resistor R1 and a second resistor R2 connected at one end to the external power supply VCC and connected in series. The first resistor R1 or the second resistor R2, And the second resistor R3 connected to at least one of the first and second resistors R2, R3, and R2.

Also, it is exemplified that one end is connected to the intermediate node between the first resistor R1 and the second resistor R2 of the voltage adjusting unit and the other end is grounded. However, the capacitor may be connected to the ground It is for protection and can be omitted.

In the first embodiment of the present invention, the third resistor R3 is connected at one end to the intermediate node of the first resistor R1 and the second resistor R2, and the other end is open or connected to the DC power source (+ Terminal) and the negative power terminal (- terminal), and the positive power source terminal (+ terminal) by switching by the switch (SW)

Further, in the case of connecting to the positive power source terminal (+ terminal), the fourth resistance portion R4 is further connected in series with the third resistance portion R3 toward the positive power source terminal (+ terminal) It is possible to further secure the diversity of the product.

FIG. 3 is a table showing an example of effective sensing distance setting in the first embodiment of the present invention. As shown in FIG. 3, the first to fourth resistors R1 to R4 are provided. And the ratio of the first resistor R1 to the third resistor R3 is the same. In this case, for example, the effective sensing distance is three .

In this case, the third resistor R3 is connected at one end to the intermediate node of the first resistor R1 and the second resistor R2, and the other end is connected to one end of the open- (- terminal) of the DC power supply unit and the positive power supply terminal (+) of the DC power supply unit by connecting the power supply terminal (-) of the DC power supply unit to the negative power supply terminal (- Terminal can be switched by the switch SW to have two detection distances.

In addition, when the other end of the third resistor R3 is connected to the positive power source terminal (+ terminal), it may be shorted directly to the positive power source terminal (+ terminal) of the DC power source, It is possible to have three detection distances by the resistance value of the fourth resistance portion R4 by making them connected in series.

This is because in the conventional technique, the effective sensing distance is selected by the logical combination of the high signal H and low signal L of the digital system on three lines. In contrast, in the present invention, The voltage values of 0.24, 1.36, and 2.38 volts, which are analog voltage values, are inputted to the microcomputer, thereby setting a plurality of effective detection distances by the analog voltage value input to the microcomputer Let it be possible.

4 is a second embodiment of a plurality of effective detection distance setting devices of the flame sensor of the present invention. As shown in FIG. 4, one end of the first resistor R1 is connected to the external power supply VCC in the inside of the flame sensor, and the negative power terminal (- terminal) of the DC power source and the positive power The wiring connected to the first resistor R1 is opened or shorted by the switch SW so that the supply voltage supplied to the voltage detector of the microcomputer is changed without being connected to the terminal (+ terminal) The flame detector has a plurality of effective detection distances.

Here, the first resistor R1 is provided with a switch SW for opening or shorting the first resistor R1, and the switch SW and the second resistor R2 are connected in series, And a third resistor R3 connected in series between the first resistor R3 and the second resistor R3.

It is further preferable that the third resistance portion R3 is capable of varying the effective sensing distance of the flame sensor by varying the resistance value of the third resistance portion R3 using a variable resistor.

In this case, it is possible to have two detection distances by opening or shorting the switch SW without the third resistor R3, and additionally, the third resistor R3 can be additionally provided It is possible to flexibly change the effective sensing distance by adjusting the voltage input to the microcomputer.

Here, the third resistor R3 and the switch SW are disposed outside the flame sensor.

5 is a third embodiment of a plurality of effective sensing range setting devices of the flame sensor of the present invention. 5, the voltage regulating unit includes a fourth resistor unit (one end of which is connected in parallel to the first resistor unit R1, one end of which is connected to the external power supply unit VCC, and the other end of which is connected in series with the third resistor unit R3) R4), and the nodes of the third resistor R3 and the fourth resistor R4 are selectively connected to the negative power terminal (- terminal), the open or the constant power terminal and the positive power terminal (+ terminal) of the DC power source So that a plurality of effective sensing distances are obtained.

2 to 5, the display unit of the flame sensor uses red, yellow, green, and blue LEDs for the flame sensor, red is used for fire alarm, yellow is used for indicating flame sensor abnormality, Use blue to display. In this case, it is preferable to set the effective sensing distance -1 (the basic sensing distance) when the LED emits green light, the effective sensing distance -2 when the blue light is emitted, and the effective sensing distance -3 when the green and blue are alternately emitted Do.

Also, the effective detection distance setting state of the flame sensor can be transmitted to the administrator by RS485 communication or the like, thereby providing the convenience of the manager.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, Various changes and modifications will be possible.

Claims (9)

A device for setting a plurality of effective detection ranges of a flame sensor,
A sensor unit for sensing a flame;
A plurality of amplifying circuits for amplifying the signals of the sensor unit to correspond to a plurality of effective sensing distances;
A microcomputer for receiving a signal of the amplifying circuit;
And a voltage adjusting unit for adjusting the voltage supplied from the external power supply unit to a specific voltage value and supplying the voltage to the microcomputer,
The microcomputer includes a signal input unit provided corresponding to the plurality of amplification circuits, and a control unit for detecting the voltage supplied from the voltage adjustment unit and transmitting the detected voltage to control the connection of the signal input unit,
Wherein the voltage regulating unit includes a first resistor unit and a second resistor unit each having one end connected to the external power unit and connected in series and a third resistor unit connected to one or more of the first resistor unit and the second resistor unit Wherein the supply voltage supplied to the voltage detection unit of the microcomputer is changed by the connection.
delete The method according to claim 1,
Wherein one end of the capacitor is connected to an intermediate node of the first resistor unit and the second resistor unit of the voltage adjusting unit, and the other end of the capacitor is grounded.
The method according to claim 1,
The third resistor unit may have one end connected to an intermediate node of the first resistor unit and the second resistor unit and the other end connected to the negative power terminal (- terminal) of the open or DC power unit, or the positive power terminal Wherein the plurality of effective detection distance setting devices are connected to each other.
5. The method of claim 4,
Wherein the fourth resistance portion is further connected in series to the third resistor portion when the constant current source terminal is connected to the constant power source terminal.
A device for setting a plurality of effective detection ranges of a flame sensor,
A sensor unit for sensing a flame;
A plurality of amplifying circuits for amplifying the signals of the sensor unit to correspond to a plurality of effective sensing distances;
A microcomputer for receiving a signal of the amplifying circuit;
And a voltage adjusting unit for adjusting the voltage supplied from the external power supply unit to a specific voltage value and supplying the voltage to the microcomputer,
The microcomputer includes a signal input unit provided corresponding to the plurality of amplification circuits, and a control unit for detecting the voltage supplied from the voltage adjustment unit and transmitting the detected voltage to control the connection of the signal input unit,
Wherein the voltage regulator opens or shorts a first resistor part having one end connected to the external power supply part to change the supply voltage supplied to the voltage detecting part of the microcomputer.
The method according to claim 6,
Wherein the first resistor unit further comprises a switch for opening or shorting the first resistor unit and a third resistor unit connected in series between the switch and the second resistor unit. Sensing distance setting device.
8. The method of claim 7,
Wherein the third resistor portion is a variable resistor.
A device for setting a plurality of effective detection ranges of a flame sensor,
A sensor unit for sensing a flame;
A plurality of amplifying circuits for amplifying the signals of the sensor unit to correspond to a plurality of effective sensing distances;
A microcomputer for receiving a signal of the amplifying circuit;
And a voltage adjusting unit for adjusting the voltage supplied from the external power supply unit to a specific voltage value and supplying the voltage to the microcomputer,
The microcomputer includes a signal input unit provided corresponding to the plurality of amplification circuits, and a control unit for detecting the voltage supplied from the voltage adjustment unit and transmitting the detected voltage to control the connection of the signal input unit,
Wherein the voltage regulating unit includes a fourth resistor unit connected in parallel to a first resistor unit having one end connected to the external power unit and connected in series with the third resistor unit, Wherein the plurality of effective detection distance setting devices of the flame detector are selectively connected to the non-powered terminal of the power source unit, the open or the constant power source terminal (+ terminal).

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