KR820001907Y1 - Temperature perception circuit - Google Patents

Abstract

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Description

Temperature Sensing Circuit of Boiler Hot Water Pipe

Circuit diagram of the present invention.

The present invention is to install a dummyster (heat sensitive resistor) on the hot water pipe that is piped to the floor to detect the temperature of the hot water pipe more sensitively, and to configure the dummyster as a ground circuit to operate the relay by the amplification circuit. It relates to the temperature sensing circuit of a hot water pipe. The relay is operated by sensing the temperature of a dummyster connected to the hot water pipe, and the boiler is automatically and manually operated according to the opening and closing degree of the switch in the movable identification circuit connected thereto. This is to maintain the proper temperature.

Conventionally, the installation of the thermostat for controlling the room temperature is generally installed to automate the operation of the boiler because the circuit is connected by the operation of the thermostat according to the change of the room temperature. There was a flaw that could not be maintained.

In order to reduce the above-mentioned drawbacks of the present invention, a dummyster is connected to a hot water pipe that is piped to the floor without using a summer star, so that a temperature sensing circuit is formed as a volume and a ground circuit. It will be described in detail by the accompanying circuit diagram to maintain the proper room temperature as follows.

Darlington connecting the transistors Tr ₁ and Tr ₂ to the resistor R _{4 with the} ground circuit 1 composed of the dummyster TH, the volume VR ₁ , and the resistors R ₁ , R ₂ , and R ₃ . the connection circuit (2) of the transistor (Tr ₁₎ of the base to the application and connect to you Mr. (TH) and a relay (Ry ₁₎ by the emitter resistor (R ₅₎ of the transistor (Tr ₁₎ the positive electrode terminal line (E ₁ ) and the emitter of the transistor Tr ₂ connected the resistor R ₆ in series and led out to the negative terminal line E1 ¹ , and the collector of the transistor Tr ₂ formed an excitation to form a relay Ry ₁ . The temperature sensing circuit 3 is formed by connecting to the coil L ₁ , and diodes D ₁ and D ₂ are connected to the secondary side of the transformer T and applied to the collector of the transistor Tr ₃ . the base of the transistor (Tr ₃₎ and drawn out in the emitter line of the positive electrode terminal (E _2), the resistance (R ₇₎ has a diode (D ₃₎ is a serial connection and a resistance (R ₈₎ is a transistor (Tr ₃₎ A juxtaposition to a serial connection to a Zener diode (ZD), and then a diode (D ₃₎ and a parallel connected to the intermediate tap of the secondary winding of the transformer (T) negative extreme charity (E ₂ ') of take-off by the temperature of the known detection circuit ( 3) was of the configuration of the power supply (4), the diodes (D _4, D _5, D _6, positive line (E ₃ of D _7), the leading lines (E _3, E ₃ ') of a well-known rectifying circuit (5) consisting of ) is connected to a relay (Ry ₁₎ terminal side in the volume (VR ₂₎ and the green auto light blocking display lamp (the temperature sensing circuit (3), G) to a series connecting switch (SW) and a juxtaposed, and a cathode ray (E ₃ ' ) Is connected to the relay (Ry ₂ ) and the switch (SW) and then connected to the terminal piece of the relay (Ry ₂ ) so as to be the positive terminal line (E ₄ ), which is the other power line (E ₄ , E ₄ ′), and the negative terminal. Line E ₄ ′ constitutes a boiler operating identification circuit 6 in which a red auto light emitting lamp R and a yellow manual light emitting lamp Y connected in parallel with a resistor R ₉ are connected to a switch SW. On the secondary shaft of the transformer (T) Eau (D _8, D ₉₎ power supply 7 of the known configured for juxtaposition to withdraw a terminal wire (E ₅₎ and a terminal line drawn from the middle tap (E ₅ ') are of the movable identification circuit 6 of the boiler It consists of the well-known power supply part 7 supplied to the relay Ry ₂ and the relay Ry ₁ of the temperature sensing circuit 3. As shown in FIG.

In the drawings, reference numerals C ₁ , C ₂ , C ₃ .... C ₆ are smoothing capacitors in the circuit.

Referring to the effect of the present invention as follows.

The relay Ry ₁ in the temperature sensing circuit 3 is operated by the ground circuit 1 connected to the power supply 4 on the secondary side of the transformer T to operate the boiler. At this time, the input power of the rectifier circuit 5 (A, A ¹ ) is in a state of 0 and when the switch SW is opened, the power of the rectifier circuit 5 is revived, so that the opening and closing degree of the switch SW and the ground circuit 1 of the temperature sensing circuit 3 are maintained. Each display lamp (G, R, Y) emits light when the boiler is automatically or manually operated or stopped according to the operation of the dummy (TH) connected to the). The input power (A, A ¹ ) of the living is a green car light lamp (G) is lighted to indicate that the boiler is stopped and the relay (Ry ₂ ) is closed, the power of the power supply unit 7 is disconnected Therefore, the boiler will stop automatically, and in this state, the temperature of the hot water pipe is below a certain value. As the resistance of the dummyster TH changes, the circuit is closed and the boiler starts to operate. At the same time, the green automatic shading indicator lamp G is blocked and the relay Ry ₁ is opened, so that the power of the power supply unit 7 is red. The light emitting display lamp R emits light to indicate that the boiler is in operation. When the boiler continues to operate in this state, and the temperature of the hot water pipe is higher than a predetermined value, the dummyster TH is opened to relay ( When Ry ₁ ) is closed, the power of the power supply unit 7 is cut off, the red automatic light emitting display lamp R is blocked, and the green automatic light blocking display lamp G is emitted again to indicate that the boiler is stopped. When the switch SW is closed down, the boiler is manually operated, and the relay Ry ₁ is opened so that the yellow manual light emitting lamp Y is emitted to operate the boiler manually. Will be displayed.

When the switch SW is closed upward, the present invention maintains the proper temperature in the room while the boiler automatically starts or stops by the operation of the dummyster attached to the hot water pipe. Is indicated by the red automatic light emitting display lamp (R) and the green automatic light blocking display lamp (G). When the switch (SW) is closed down, it is used only when used manually. The lamp (Y) is emitted to indicate whether the boiler is operating.

As such, the present invention directly constructs a temperature-sensitive dummyster directly to the hot water pipe piped to the floor and constitutes a temperature sensing circuit. It is possible to obtain a proper warming effect in the room.

Claims (1)

As shown, the operation identification circuit 6 of the boiler is connected to a temperature circuit circuit 3 configured by connecting the _ground circuit 1 connected to the dummyster TH, the Darlington connection circuit 2, and the relay Ry ₁ . The temperature sensing circuit of the boiler hot water pipe consisting of a circuit.