KR101240135B1 - Apparatus for adjusting temperature - Google Patents

Abstract

PURPOSE: A temperature control device is provided to prevent a fire due to the malfunction and heat of a triac by supplying power to a load across two traics in parallel. CONSTITUTION: A first photo triac(130) and a second photo triac(140) are connected to a control unit in parallel. A first triac(150) supplies external power to a load(190) connected to a heater and is connected to the first photo triac. A second triac(160) is connected to the second photo triac. A triac temperature sensor senses the temperatures of the first triac and the second triac. A control unit(120) controls external power supplied to the load. [Reference numerals] (10) Heating device(ex. heater etc.); (11) Heating means; (110) Temperature setting unit; (120) Control unit; (121) Timer; (130) First photo triac; (140) Second photo triac; (150) First triac; (160) Second triac

Description

Thermostat {APPARATUS FOR ADJUSTING TEMPERATURE}

The present invention relates to a temperature control device, and more particularly, to a temperature control device in which two triacs connected in parallel are alternately cooled to prevent a risk such as malfunction due to triacs and a fire due to high heat generation.

The present invention relates to a temperature control device.

The temperature control device is a device for controlling or controlling the temperature generated by the heater by being connected to various heaters such as a boiler, a heater, a heat mat, a stove, and the like.

Conventional thermostats use relays to turn on and off heaters of several kilowatts (usually within 4 kilowatts).

This is due to the fact that electronic devices such as triac and silicon controlled rectifiers (SCRs), which are non-contact (no-noise) devices, have very high heat in the operation of warming devices that consume a few KW of power despite being no-noise. It generates a lot of problems, such as causing a malfunction due to the high heat generated.

In particular, the electronic device such as TRIAC or SCR will generate higher heat and cause serious safety problems when it is packaged and operated in a narrow sealed case.

Republic of Korea Patent No. 0397583 proposes a configuration of a temperature controller with a safety device including a triac, but in the case of the Patent No. 0397583 also controls and regulates the high heat generated from the triac, The configuration that can be used continuously is not presented.

An object of the present invention devised to solve the above problems is to configure two triacs connected in parallel by connecting two triacs in parallel with each other and the two triacs connected in parallel to each other and supply power to the load side. The cooling is alternately provided to provide a temperature control device for preventing the risk of malfunction due to triac and fire due to high heat generation.

In addition, another object of the present invention further comprises a triac temperature sensor for detecting the temperature of the two triacs connected in parallel, when one or more of the temperatures of the triacs exceeds the reference temperature value, the lower temperature of the triacs connected in parallel By configuring only the triac to operate, the temperature of the triac is measured in real time and high heat is generated to stop the operation of the triac, which may cause a safety problem, and operate only the triac that can operate relatively normally. This is to provide a temperature control device that maximizes the life of the triac and ensures safety even for long-term use.

In addition, another object of the present invention further includes a relay for electrically connecting or disconnecting the triacs and the load connected in parallel with the heater temperature sensor for sensing the temperature of the heating means provided in the heater, and the temperature of the heating means. If the set temperature value is exceeded, the relay is controlled to disconnect the triacs and loads connected in parallel, so that the heater is kept only below the set temperature, and a temperature controller is provided to minimize unnecessary heat operation and power waste. To do this.

According to a feature of the temperature control device according to the present invention for achieving the above object, the present invention is electrically connected to the heater 10, the heating means 11 of the heater in accordance with a predetermined set temperature value In the temperature control device including a control unit 120 for outputting a pulse signal to generate heat, the first photo-triac (130) connected in parallel to the control unit to control the switching operation by receiving the pulse signal individually ) And second photo-triac 140; The first photo-trial solution is connected in parallel to each other, and switches the external power to be supplied to the load 190 to which the heater is coupled according to the operation of the first and second photo-triacs. A first triac 150 connected to the second triac 160 connected to the second photo-triac; And a triac temperature sensor 171 for sensing the temperature of the first triac and the second triac; And the control unit outputs the pulse signal to cross the first photo-triac and the second photo-triac at predetermined time intervals so as to intersect the first triac with the predetermined time interval. The second triac crosses each other and controls to supply external power to the load side, and is connected to the triac temperature sensor to receive temperature information of the first triac and the second triac, respectively, and receives the received first When at least one of the temperature information of the triac and the temperature information of the second triac exceeds a reference temperature value which is a preset temperature value, the first triac and the second triac may be supplied only by the lower temperature. And controlling the output of the pulse signal so that external power is supplied to the load side.

delete

The control unit may include the first photo-triac and the second photo when both the temperature information of the first triac and the second triac transmitted from the triac temperature sensor are greater than or equal to a dangerous temperature. It is characterized in that the output of the pulse signal for all the triacs is blocked.

In addition, the temperature control apparatus according to the present invention includes a relay inserted between the first triac and the second triac and the load to electrically connect or disconnect the first triac and the second triac and the load; And a warmer temperature sensor for sensing a temperature of the heating means provided in the warmer. The control unit may be further connected to the relay and the heater temperature sensor. The controller further receives temperature information of the heat generating means from the heater temperature sensor, and the temperature information of the heat generating means is set to the preset set temperature value. In the case of exceeding, the relay is controlled to electrically disconnect the first triac and the second triac and the load.

According to the present invention as described above, it is possible to provide a temperature control device to prevent the risk of malfunction due to triac and fire due to high heat generated by alternately cooling two triacs connected in parallel.

In addition, it measures the temperature of the triac in real time and stops the operation of the triac, which may cause safety problems due to high heat generation, and operates only the triac, which can operate relatively normally, to maximize the triac life and It is possible to provide a thermostat that can ensure safety even in use.

In addition, according to the present invention can provide a temperature control device that can be controlled so that the hot air is kept only below the set temperature and minimize unnecessary heat generation and power waste.

1 is a block diagram showing the configuration of a temperature control device according to a preferred embodiment of the present invention.
2 is a block diagram illustrating a configuration in which a triac temperature sensor is added.
3 is a block diagram illustrating a configuration in which a heater temperature sensor and a relay are added.
4 is a circuit diagram of FIG. 3.
FIG. 5 is a block diagram illustrating a configuration in which a triac temperature sensor, a heater temperature sensor, and a relay are both added.

Advantages and features of the present invention, and methods of achieving the same will become apparent with reference to the embodiments described below in detail in conjunction with the accompanying drawings.

The present invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. To fully disclose the scope of the invention to those skilled in the art, and the invention is only defined by the scope of the claims. Like reference numerals refer to like elements throughout the specification.

Hereinafter, the present invention will be described with reference to the drawings for describing a temperature control device according to embodiments of the present invention.

1 is a block diagram showing the configuration of the temperature control device according to a preferred embodiment of the present invention, Figure 2 is a block diagram showing a configuration in which the triac temperature sensor is added, Figure 3 is a heater temperature 4 is a block diagram illustrating a configuration in which a sensor and a relay are added, and FIG. 4 is a circuit diagram of FIG. 3, and FIG. 5 is a block configuration in which a triac temperature sensor, a heater temperature sensor, and a relay are added. It is also.

The temperature control device according to the preferred embodiment of the present invention is electrically connected to a warmer 10 including a heater, a heat mat, and the like, and supplies external power to the warmer 10 and supplies a warmer ( The temperature control device for controlling the temperature of 10), which is electrically connected to the heating device 10, the control unit for outputting a pulse signal for heating the heating means 11 of the heating device in accordance with a predetermined temperature value It relates to a thermostat comprising a (120).

The thermostat according to the present invention includes a control unit 120, a first photo-trial solution 130, a second photo-trial liquid 140, a first triac 150 and a second triac 160. ) Is a basic technical feature of the present invention.

In this case, the first triac 150 and the second triac 160 are a contactless switch element of an AC circuit having the same function as connecting two thyristors in two anti-parallel. Triac (triode, triode AC switch), which refers to a bidirectional three-terminal thyristor.

In addition, the first photo-triac 130 and the second photo-triac 140 refer to a photo-triac element capable of controlling an AC load using only a low digital signal such as a microcomputer output. do.

The controller 120 is a control means for controlling the operation of the electric device, such as a general microcomputer or a microcontroller.

In general, the control unit 120 is connected to a temperature setting unit 110 for allowing the user to preset the heat generation temperature for the heat generating means 11 of the heater 10 in the temperature controller, the temperature setting unit 110 ) Outputs a pulse signal that causes the heat generating means 11 of the heater to generate heat according to a preset temperature value.

The first photo-triac 130 and the second photo-triac 140 are connected to the controller 120 individually, and individually receive pulse signals output from the controller 120. It is connected in parallel to the control unit 120 to control the operation.

The first triac 150 and the second triac 160 are respectively connected to the first photo-triac 130 and the second photo-triac 140 to supply external power to the first triac 150. Switching according to the operation of the photo-triac 130 and the second photo-triac 140, respectively, and means for supplying to the load 190 side to which the heater 10 is coupled.

In this case, the first triac 150 and the second triac 160 are connected to each other in parallel.

That is, the first triac 150 and the second triac 160 are connected in parallel with each other, and the first triac 150 is connected in series with the first photo-triac 130 to form the first triac 150. 1 supplies external power supplied according to the operation of the photo-trial solution 130 to the load 190 side, and the second triac 160 is connected in series to the second photo-trial solution 140 The external power supplied according to the operation of the second photo-trial liquid 140 is supplied to the load 190.

In this case, the external power supply structure of the first triac 150 and the second triac 160 may be applied as it is.

The controller 120 alternately outputs the pulse signal to only one of the first photo-trial liquid 130 and the second photo-trial liquid 140.

That is, the control unit 120 generates the first photo-trial liquid (P1) at regular time intervals for a pulse signal that causes the heat generating means 11 of the heater to generate heat according to a preset temperature value in the temperature setting unit 110. By outputting only one of the 130 and the second photo-triac 140 to the intersection, the external power supply is supplied only by any one of the first triac 150 and the second triac 160 at a predetermined time interval This is to be supplied to the load 190 side.

In this case, the predetermined time interval is a timer 121 included in the controller 120 by a designer in consideration of the quality of the malfunction according to the temperature of the first triac 150 and the second triac 160. Can be adjusted by setting.

That is, the temperature control device according to the present invention has a basic technical feature that the first triac 150 and the second triac 160 are designed to cross-output an external power source to the load 190 by being connected in parallel with each other.

That is, the temperature control device according to the present invention is electrically connected to the heater 10, the control unit 120 for outputting a pulse signal for causing the heat generating means 11 of the heater in accordance with a predetermined temperature value; In the temperature control device including, the first photo-triac 130 and the second photo-triac 140 connected in parallel to the control unit to control the switching operation by receiving the pulse signal, respectively, in parallel with each other Connected and supplied external powers, respectively, according to the operations of the first photo-trial liquid 130 and the second photo-trial liquid 140 and supplied to the load 190 to which the heater 10 is coupled. And a first triac 150 connected to the first photo-triac 130 and a second triac 160 connected to the second photo-triac 140, wherein the controller 120 And the pulse signal with the first photo-triac 130 The first triac 150 and the second triac 160 cross each other at the predetermined time intervals, and output to cross the second photo-triac 140 at predetermined time intervals. It is the technical feature to control to supply external power.

The temperature control device according to the present invention may further include a triac temperature sensor as shown in FIG.

The triac temperature sensor 171 is connected to the first triac 150 and the second triac 160 to detect a temperature of the first triac 150 and the second triac 160. to be.

At this time, the control unit 120 is further connected to the triac temperature sensor 171 temperature information of the first triac 150 and the second triac 160 detected by the triac temperature sensor 171. Received.

At this time, the control unit 120, when at least one of the received temperature information of the first triac and the temperature information of the second triac exceeds a predetermined reference temperature value, the first triac 150 and The output of the pulse signal is controlled such that the supplied external power is supplied to the load side only by one of the lower temperatures of the second triacs 160.

In this case, the preset reference temperature value considers the quality of the occurrence probability of malfunction according to the heating degree of the first triac and the second triac within a temperature range in which the first triac and the second triac can be normally operated. A designer or the like may set the controller 120 in advance.

That is, at least one of the temperature information of the first triac 150 and the temperature information of the second triac 160 that is detected by the triac temperature sensor 171 and transmitted to the controller 120 may determine the reference temperature value. When exceeding, the control unit 120 outputs the pulse signal only to the photo-triac to which the lower triac of the first triac 150 and the second triac 160 is connected.

For example, when the reference temperature value is 70 ° C., when the temperature information of the first triac 150 is 71 ° C. and the temperature information of the second triac 160 is 79 ° C., the controller may control the first photo-. The pulse signal is output only to the triac 130 so that the external power is supplied to the load 190 only by the first triac 150.

At this time, the control unit 120, when both the temperature information of the first triac and the temperature information of the second triac received from the triac temperature sensor 171 is more than a dangerous temperature of a predetermined temperature value, the first The output of the pulse signal to both the photo-triac 130 and the second photo-triac 140 may be blocked.

In this case, the dangerous temperature is a temperature range in which a malfunction of the first triac 150 and the second triac 160 may occur, and the quality of the first triac 150 and the second triac 160 may be high. The designer or the like may preset the control unit 120.

That is, when the temperature of the first triac 150 and the second triac 160 is greater than or equal to the dangerous temperature, the operation of all the triacs is stopped to thereby stop the first triac 150 and the second triac. When the temperature of 160 is cooled to a temperature at which normal operation is possible again, and the temperature of one or more of the first triac 150 and the second triac 160 is cooled below the dangerous temperature, the first tri By allowing the liquid 150 and the second triac 160 to be restarted by the triac having a lower temperature, a safe temperature controller can be provided.

3 and 4, the temperature control device according to the present invention may further include a heater temperature sensor and a relay.

The relay (Realy, 180) is the first triac 150 and second triac 150 and the second triac 160 and the load 190 to electrically connect or disconnect the load 190 It is inserted between the two triacs 160 and the load 190.

That is, the relay 180 is connected to the first triac 150 and the second triac 160, and the external power supplied from the first triac 150 and the second triac 160 is supplied. The first triac 150 and the second triac 160 may be connected to or disconnected from the load 190 so that the load 190 may be transmitted or blocked.

The warmer temperature sensor 172 is a sensor for sensing the temperature of the heat generating means 11 of the warmer 10 connected to the load 190 side. In this case, the heat generating means 11 means a configuration such as a resistance coil for raising the temperature by generating actual heat in the heater 10.

At this time, the control unit 120 is further connected to the heater temperature sensor 172 is further received the temperature information of the heat generating means (11).

In addition, the control unit 120 is further connected to the relay 180, the temperature setting so that the temperature information of the received heating means is set to the predetermined set temperature value (that is, the smoke generating means of the heater is heated to a specific temperature) When the temperature exceeds the temperature set in the controller 120 by the operation of the controller 110, the relay is controlled such that the load is electrically disconnected from the first triac 150 and the second triac 160. do.

That is, when the heat generating means 11 of the warmer is heated to exceed the set temperature value, the power supplied to the load 190 is cut off, and the temperature of the heat generating means 11 is the set temperature value. By only supplying external power to the warmer in the following cases, it is possible to minimize the power wasted by the warmer and to allow safe use of the warmer.

FIG. 5 is a block diagram illustrating a configuration in which a triac temperature sensor, a heater temperature sensor, and a relay are added.

The temperature control apparatus according to the present invention may be designed to include both the triac temperature sensor 171, the heater temperature sensor 172, and the relay 180, and a detailed description thereof will be omitted since it corresponds to the above description. Let's do it.

It will be understood by those skilled in the art that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. It is therefore to be understood that the above-described embodiments are illustrative in all aspects and not restrictive. The scope of the present invention is defined by the appended claims rather than the foregoing detailed description, and all changes or modifications derived from the meaning and scope of the claims and the equivalents thereof are included in the scope of the present invention Should be interpreted.

10: heating device 11: heating means
110: temperature setting unit 120: control unit
121: timer 130: first photo-triac
140: second photo-triac 150: first triac
160: second triac 171: triac temperature sensor
172: heater temperature sensor 180: relay
190: Load

Claims (4)

In the temperature control device is electrically connected to the heater 10, and includes a control unit 120 for outputting a pulse signal for causing the heat generating means 11 of the heater in accordance with a predetermined set temperature value,
First and second photo-triacs (130) and second photo-triacs (140) connected in parallel to the controller to control the switching operation by receiving the pulse signals respectively; The first photo-trial solution is connected in parallel to each other, and switches the external power to be supplied to the load 190 to which the heater is coupled according to the operation of the first and second photo-triacs. A first triac 150 connected to the second triac 160 connected to the second photo-triac; And a triac temperature sensor 171 for sensing the temperature of the first triac and the second triac; Including,
The control unit outputs the pulse signal so as to intersect at a predetermined predetermined time interval with respect to the first photo-trial solution and the second photo-trial solution, whereby the first triac and the second triac at each predetermined time interval. Cross each other and control to supply external power to the load side, is connected to the triac temperature sensor receives the temperature information of the first triac and the second triac, respectively, the temperature of the first triac received When at least one of the information and the temperature information of the second triac exceeds a reference temperature value which is a preset temperature value, the external power supplied by the first triac and the second triac is lowered only by the lower temperature. And controlling the output of the pulse signal to be supplied to a load side.
delete The method of claim 1,
The control unit,
If both the temperature information of the first triac and the second triacac transmitted from the triac temperature sensor are above a dangerous temperature which is a preset temperature value, the first and second photo-triacs may be Temperature control device for cutting off the output of the pulse signal.
The method of claim 1,
A relay 180 inserted between the first triac and the second triac and the load to electrically connect or disconnect the load with the first triac and the second triac; And
A warmer temperature sensor 172 for sensing a temperature of a heating means provided in the warmer; Further comprising:
The control unit,
Further connected to the relay and the temperature sensor temperature sensor, when the temperature information of the heat generating means further receives the temperature information of the heat generating means from the warmer temperature sensor is the first tri And controlling the relay such that the liquid and the second triac and the load are electrically disconnected.

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