TW593942B - Heating apparatus and ventilation apparatus - Google Patents

Abstract

This invention relates to a heating apparatus and a ventilation apparatus, and provides a technique for transmitting/receiving infrared ray signals positively between the heating apparatus and the ventilation apparatus even the operator is temporarily in a position or posture that hinders from transmitting/receiving the infrared ray signals when detecting the start and stop of heating. A gas burner (22) comprises a switch detection portion (40), transmission LEDs (44a, 44b), a timer (43) and a transmission control portion (42). The switch detection portion (40) is provided for detecting the start and stop of heating. The transmission LEDs (44a, 44b) are provided for transmitting infrared ray signals to a range hood (30) in order to activating or inactivating a ventilation fan (36). The timer is provided for measuring the passage period from the start or stop of heating that is detected by the switch detection portion (40). The transmission control portion (42) is provided for transmitting infrared ray signals to the transmission LEDs (44a. 44b) in order to activate or inactivate the ventilation (36) when the start or stop of heating is detected by the switch detection portion (40), as well as for transmitting the same infrared ray signals to the transmission LEDs (44a. 44b) when the predetermined passage period measured by the timer (43) elapses.

Description

593942 A7 --------! Z__ _ V. Description of the invention (1) The present invention relates to a heating device and a ventilation device. Specifically, there is a technology related to the start or stop of the ventilation device in conjunction with the heating start or stop of the heating device. There is known a technique known in the art in which the heating device is started or stopped by the heating device to start or stop the ventilation device. In order to realize this technology, the conventional heating device includes a detection section, a transmission section, and a transmission control section. The detection section is used to detect heating start or stop. The infrared signal that the ventilation device starts to operate or the infrared signal that stops it; and the transmission control unit is used to detect when heating is started or stopped by the aforementioned detection unit (hereinafter referred to as "when heating is started or stopped") ), Send the infrared signal that causes the ventilation device to start or stop the infrared signal to the aforementioned transmitting unit. In addition, the ventilator includes an infrared signal receiving section, which is used to start the operation when the infrared signal for transmitting the ventilation device is started, and to stop the operation when the infrared signal for transmitting the ventilation device is stopped. . This linkage technology uses infrared signals, so the path through which the infrared signals pass must be cut off and still not hinder the sending and receiving of infrared signals. Therefore, it is proposed to apply a method of providing a sending section on the heating device. In this way, the infrared signal sent from the heating device to the upper reaches the receiving part of the ventilation device directly. On the other hand, it is also proposed to apply a method of providing a sending section in front of the heating device. In this way, the paper size applied by the Chinese National Standard (CNS) A4 specification (210X297 mm) is applied. 0 Please read the notes on back ore ¾ then fill out this tribute j

• 4- V. Description of the invention e) —The infrared signal sent to the front by the sending unit contacts and reflects the operator located in front of the heating device, and the reflected infrared signal reaches the receiver of the ventilation device. The conventional heating device sends the infrared signal only once when the heating is detected to start or stop. Therefore, no matter whether the sending section is installed on or above the heating device, there is a possibility of poor transmission and reception. The method of setting the sending part on the heating device, when the operator starts to bend when the heating starts or stops, and the operator's head is above the heating device, or when the operator extends his arms above the heating device, the heating starts. Or the infrared signals sent when the measurement is stopped may be blocked by the operator's head or arm and cannot reach the receiving part of the ventilation device. In the method of placing the transmitting unit in front of the heating device, if the operator is not at a predetermined position when the heating is started or stopped, the infrared signal cannot be reflected in time and cannot reach the receiving unit of the ventilation device. The object of the present invention is to realize a technology that can reliably send and receive infrared signals between the heating device and the ventilation device even when the operator temporarily assumes a position and posture that blocks the transmission and reception of infrared signals when the heating is started or stopped. The heating device related to the present invention includes a detection section, a transmission section, a timer, and a transmission control section. The detection section is used to detect the heating start or stop. The transmission section is used to send the ventilation device. The infrared signal that causes the ventilation device to start or stop the infrared signal; the timer is used to measure the elapsed time when heating starts or stops when heating is detected by the aforementioned detection unit; and the transmission control unit is Used for or in

, ^ Τ— (Please read the precautions on the back before filling out this page) 593942 V. Description of the invention The infrared light from the front-end order ventilation device starts when the detection unit detects the heating and opening. The discontinued operation ^ outside signal, and when the expected time _ the amount of elapsed time, send the infrared signal to the sending department. The so-called "heating device" here is not only a gas stove or a gas stove or a microwave oven, but also a small water heater. In addition, the so-called "hair system can be set before the heating device; + workmanship" ... the side or top of the clothes and other sides can also be used. However, the "facing ventilator" includes a direct orientation and a reflective orientation. In addition, the so-called "scheduled elapsed time" is preferably between 3 seconds and 5 seconds. With the heating device of the present invention, even when the heating is started or stopped (when the heating is started or stopped), the operator temporarily assumes a position and posture that hinders the transmission and reception of infrared signals, but the heating is started or stopped. When a predetermined time elapses, an infrared signal will be sent again, so that the infrared signal can be surely sent and received between the heating device and the ventilation device. It is better that the transmission control unit continues to transmit the same infrared signal every predetermined time after measuring the predetermined elapsed time. Here, the transmission time intervals of the infrared signals may all be the same and may be changed after a period of time. With the heating device of the present invention, even when the heating is started or stopped, the operator temporarily moves to a position that will block the transmission and reception of infrared signals. However, when the heating is started or stopped, the infrared signal is repeatedly sent every time period. It can send and receive infrared signals more reliably with the ventilation device. The invention also realizes a new ventilation device. The ventilator includes the paper standard applicable to the Chinese National Standard (CNS) A4 specification (21〇297297) -6- 593942 A7 5. Description of the invention A receiving section and a receiving control section, the receiving section is used for receiving Those who receive infrared signals sent by the heating device, and the receiving control unit is used to make the receiving of the same infrared signals subsequently sent by the heating device invalid after the receiving unit receives the infrared signals. With the ventilating device of the present invention, once the infrared signal is received, the reception of the infrared signal sent by the heating device is invalidated, so the power consumption that increases with the reception can be reduced. Furthermore, for a ventilation device that has a buzzer sound during reception, it has the advantage of preventing repeated buzzer sounds. For suitable embodiments for implementing the present invention, reference is made to the illustration. First, the structures of the gas furnace (an example of a heating device) and the range hood (an example of a ventilation device) related to this embodiment will be described with reference to Figs. 1 and 2. Fig. 1 is a front view of a gas stove and a range hood related to this embodiment. Fig. 2 is a side view thereof. The one shown in FIG. 1 is a gas stove 22 embedded in a casing 29, and a range hood 30 disposed above the gas stove 22. The gas furnace 22 includes a first furnace portion 24a facing the upper part of the hearth body 23 on the left side, and a second furnace portion 24b facing the right side on the other side. A third furnace portion 24c is provided behind the first furnace portion 24a and the second furnace portion 24b (see FIG. 2). An oven portion 24d is provided in the center of the front surface of the hearth body 23. Seen from the center of the front surface of the hearth body 23 on the left side, an ignition and fire switch 26a of a first furnace portion 24a and an ignition and fire switch 26c of a third furnace portion 24c are provided. As viewed from the center of the front surface of the hearth body 23 on the right side, an ignition and fire switch 26d of an oven portion 24d and an ignition and fire switch 26b of a second furnace portion 24b are provided. In addition, the ignition of the second furnace section 24b and the paper size are subject to the Chinese National Standard (CNS) A4 specification (210X297 mm). Please read the precautions before filling out this page 593942 A7 ----—————— Magic _____ V. Description season of the invention) Below the fire switch 26b, there is a remote control switch 27 for starting or stopping the operation of the range hood 30 and the operation of the ignition and fire switch 26 independently. Transmitting portions 28 a and 28 b are provided on the front surface 2 of the hearth body 23. Here, the 'first transmitting section 28a is provided on the left side as viewed from the center, and the 苐 2 transmitting section 28b is provided on the right side as viewed from the center. The range hood 30 has a suction fan 36 'provided inside the hood body 3 丨 a first receiving portion μ provided at the center of the front lower portion of the hood body 31, and a juxtaposition on the right side of the first receiving portion 33 The operation unit 32 to be placed and a second receiving unit 35 provided inside the hood body 31 (see FIG. 2). Next, the structure of transmitting and receiving infrared signals between the gas stove 22 and the range hood 30 related to this embodiment will be described with reference to FIG. 3. The structure shown in Fig. 3 is a structure diagram of infrared transmission and reception between the gas furnace and the range hood according to this embodiment. As shown in Fig. 3, inside the gas furnace 22, micro switches (MS) 27a to 27d corresponding to the ignition and fire-off switches 26a to 26d shown in the above Fig. 1 are connected to the switch detection section 40. The switch detection unit 40 can detect that any one of the micro switches 27a to 27d is turned on (that is, the circuit formed by the switch detection unit 40 and the micro switch 27 is turned off), or the micro switches 27a to 27d are turned on. All are closed (that is, the circuit formed by the switch detection unit 40 and the micro switch 27 is in an open state). That is, it can be detected when heating of any one of the furnace sections 24a to 24c and the oven section 24d is started, or when heating of all the furnace sections 24a to 24c and the oven section 24d is stopped. The switch detection unit 40 is connected to the transmission control unit 42. The transmission control unit 42 is connected to two transmission LEDs 44a and 44b (an example of an infrared light emitting element) connected in parallel. Send This paper size applies Chinese National Standard (CNS) A4 specification (210X297 mm) (Please read the precautions on the back before filling this page) • Order 丨 -8- 593942

V. Description of Invention (6)

a likes 迗 部 28a while sending. The transmission control unit 42 including the LED 44b is provided on the second transmission unit 28b. If there is an unillustrated oscillation circuit, etc., the operation signal or stop signal of the exhaust fan 36 shown in the operation example described later will be transmitted as 1 ^ 〇4 ^, * SERVICE, and the external line becomes infrared. " In addition, the operation signal and the stop signal are pulse signals with different patterns. The transmission control unit 42 is connected to the timer 43 and uses a dry battery as a power source. The internal system of the range hood 30 is described in parallel. Two receiving LEDs 48a and 48b (one example of an infrared light receiving element) for receiving infrared signals from the transmitting LEDs 44a and 44b are connected. The receiving LED 48a is provided on the first receiving section 33 shown in FIG. 1 and the receiving LED 48b is The receiving unit 48 is connected to the second receiving unit 35. The receiving LEDs 48a and 48b are connected to the receiving control unit 52. The receiving control unit 52 is connected to a buzzer 53. In addition, the receiving control unit 52 includes an infrared signal and a signal. A running signal or a stop signal is obtained, and a motor control signal corresponding to the pulse 彳 § of the pattern of each signal is output. The motor control signal is sent to the motor control section 56 connected to the reception control section 52. The motor control The 56 is connected to the motor 58 and is connected to an external commercial power source 57. The motor control unit 56 is to drive or stop the motor 58 in response to a received motor control signal. The motor 58 is connected to the exhaust fan 36. The operation of the exhaust fan 36 is started or stopped according to the driving or stopping of the motor 58. (First operation example) Next, referring mainly to FIGS. 4 and 5, the gas furnace 22 related to this embodiment will be described. The first operation example of the range hood 30. The one shown in FIG. 4 is a flowchart of the first operation example of the gas stove related to this embodiment, and the one shown in FIG. 5 is the operation example of the range hood. . This paper size is applicable to Chinese National Standard (CNS) M specifications (210X297 mm). Please note before reading.

Line -9- 593942 A7 B7 V. Description of the invention (Please read the precautions on the back before filling this page) At first, the operation of the gas furnace 22 will be explained. First, when any one of the furnace sections 24a to 24c or the oven section 24d of the gas furnace 22 shown in FIG. 1 is ignited, that is, when any one of the microswitches (MS) 27a to 27d shown in FIG. 3 is turned on It can be measured by the switch detection unit 40 of the gas furnace 22 (step s 10). In this way, the switch detection unit 40 transmits the pulse signal of the inherent pattern, that is, the heating start detection signal to the transmission control unit 42. After receiving the signal, the transmission control section 42 controls the "in progress" operation signal of the exhaust fan 36 to be transmitted by the two transmission LEDs 44a and 44b (the two transmission sections 28a and 28b) via infrared rays (step S20). That is, an infrared signal (operation signal) is transmitted when the heating starts to be measured. -Order · Subsequent 'The timer 43 connected to the transmission control unit 42 measures the elapsed time from when any one of the measurement micro switches 27a to 27d is turned on (when the heating starts to be measured). In addition, if 3 seconds elapses (step $ 30), the transmission control unit 42 reproduces the "in progress" operation of the control of the exhaust fan 36 and transmits the infrared transmission through the two transmission LEDs 44a and 44b (step S4). 〇). In other words, ►line 丨 After the 3 seconds have passed since the measurement was started, the infrared signal (operation signal) will be sent again. In addition, even if one micro switch is turned on, if another micro switch is turned on, the "in progress" operation signal will not be transmitted (step sl10). This is because the “in progress” operation signal of the exhaust fan 36 is issued when another micro switch is turned on, so the operation of the exhaust fan 36 has already started when a certain micro switch is turned on. Thereafter, when all the furnace sections 24a to 24C or the oven section 24d shown in Fig. 1 are turned off, the micro switch (ms) 27a shown in Fig. 3 is performed.

-10- 593942 No. A7 B7 Operation V. Description of the invention $) ~ 27d When all are closed, it can be detected by the switch detection unit 40 (step S50). In this way, the switch detection unit 40 transmits a pulse signal having a unique pattern, that is, a heating stop detection signal, to the transmission control unit 42. After receiving this signal, the transmission control unit 42 controls the stop signal of the exhaust fan 36 to be transmitted by two transmitting LEDs 44a and 44b (two transmitting units 28a and 28b) through infrared rays (step S60). That is, an infrared signal (stop signal) is transmitted when the heating stop is detected. Then, the timer 43 connected to the transmission control unit 42 measures the elapsed time from when the micro switches 27a to 27d are all turned off (when the heating is stopped). And, if the time has passed for 3 seconds (step S70), the transmission control section 42 sends the stop signal for controlling the exhaust fan 36 again via infrared rays through the transmission LEDs 44a and 44b (step S80). That is, the infrared signal (stop signal) will be sent again after 3 seconds have elapsed since the heating stop was measured. In addition, even if one of the micro-switches is turned off, as long as another micro-switch is turned on, a stop signal is not transmitted (step S50). This is because even if a micro switch is turned off, if another micro switch is turned on, the furnace section corresponding to the other micro switch continues to operate, so it is not appropriate to stop the exhaust fan 36. Next, the operation of the range hood 30 will be described. The receiving LED48a of the range hood 30 or the infrared signal is received (after step si⑷, the receiving _ section 52 "this red material" is the "Saki towel" operation signal or is stopped ^ (Step S12G, the infrared signal is "in progress ”When running &, the receiving control unit 52 can determine whether the exhaust fan 36 is already“ in progress ”(step 0). If the exhaust fan 36 has not yet been adjusted to the paper size ^ Μ specification; 2

, ^ Τ— ▼ line 丨 · c Please read the notes on the back before filling in this page} -11-

Description of the Invention = The control unit 52 controls the buzzer 53 to send a ". Bi" message 9 4S140). And, by sending a "in progress" operation letter to identify the corresponding motor control 5 1 4 ^ ^ Don't be fooled to the motor control unit 56 to drive the motor 58, so that the exhaust fan 36 starts "in progress" Operation (step 5). Conversely, if the exhaust fan 36 is already in the "in progress" operation (㈣SUG), the operation signal of the ", Cang-丄 Receiving order in progress" received by the receiving LEDs 48a, 48b is disabled (step S160), A message beep sounds. On the other hand, when the infrared signals received by the receiving LEDs 48a and 48b are stop signals (step S120), the reception control unit 52 can determine whether the exhaust fan 36 has stopped (step sm). If the exhaust fan 36 has not stopped, the receiving control unit 52 controls the buzzer 53 to emit a "beverage" information beep (step 8180), and sends a motor control signal corresponding to the stop signal to the motor control The unit 56 drives the motor 52 to stop the "in progress" operation of the exhaust fan 36 (step S190). Conversely, if the exhaust fan 36 has been stopped (step S170), the stop signals received by the receiving LEDs 48a and 48b are invalidated (step S200), and no information beep sound is issued. This is to prevent the same range infrared signal from being repeatedly emitted after the range hood 30 starts to operate (the first infrared signal received is a running signal if it is a running signal, and a stopping signal if it is a stop signal). That is, the information beep sounds only when the first operation of the suction fan 36 is started or stopped, so the operator 60 can surely grasp the point at which the operation of the suction fan 36 is started or stopped. According to the first operation example, as shown in FIG. 2, the operator 60 is located at the measurement range of the infrared signal sent by the transmitting section 28 when the heat is started or stopped. (Please read the precautions on the back before filling this page. ) Order 丨 ▼ Line — This paper size applies to Chinese National Standards (CNs) A4 specification (21〇χ297 & ^) -12- 593942 A7 —- ^ -— _B7 V. Description of the invention and) (Please read 4? Caution When filling in this page), the infrared signal will contact the operator 60. The infrared signal reaching the operator 60 is reflected and irradiated toward the range hood 30 above the gas furnace 22. In addition, after the infrared signal is received by the first receiving section 33 provided in the front center of the range hood 30 or the internal second receiving section 35, the exhaust fan 36 is started to operate by the above-mentioned transmission and reception structure. Or stop. Also, even if the operator 60 temporarily departs from the irradiation range of the infrared signal emitted when the heating is started or stopped, since the infrared signal will be sent again after 3 seconds have passed since the heating started or stopped the measurement, if the operator now 60 is located in the irradiation range of the infrared signal, and the infrared signal sent out contacts the operator 60. The infrared signal reaching the operator 60 is reflected and irradiates toward the range hood 30 above the gas furnace 22, and is received by the first receiving section 33 or the second receiving section 35. The air fan 36 is started or stopped. Even if the operator 60 is temporarily out of the irradiation range of the infrared signal, the operator 60 is operating the ignition and fire switch 26 provided on the hearth body 23, and it is difficult to imagine that the operator will remain stationary at a constant position. The infrared signal is sent again after about 3 seconds after the ignition or fire-off operation is required, and the probability that the infrared signal touches the operator 60 should be quite high. In this way, according to the first operation example, even if the operator 60 temporarily assumes a position and posture that hinders the transmission and reception of infrared signals when the heating is started or stopped, since 3 seconds have passed since the heating started or stopped the measurement When the infrared signal is transmitted again, the infrared signal can be surely transmitted and received between the gas stove 22 and the range hood 30. That is, the start or stop of the extractor hood 30 of the range hood 30 which is linked with the ignition and fire switch 26 of the gas furnace 22 can be actually started or stopped. The paper size applies the Chinese National Standard (CNS) A4 specification (210X297 mm) -13- 593942 A7 ------------. __ 5. Description of the Invention (U) (Second Operation Example) Next, the second operation example will be described mainly with reference to FIG. 6. Fig. 6 is a flowchart of a second operation example of the gas furnace related to this embodiment. The second operation example is a modification of the first operation example. The following points are different from the first operation example. The second operation example is after the “in progress” operation signal of the exhaust fan 36 is issued when the heating start measurement is performed (step S20), after 3 seconds have elapsed since the heating start measurement (step S3 0), the “ The operation of the "in progress" operation signal (step S40) is repeated three times (step S42). Similarly, after the stop signal of the exhaust fan 36 is issued when the heating stop is detected (step S60), after 3 seconds have elapsed from the start of the heating stop measurement (step S70), the operation of sending the stop signal again (step S80) is performed. Repeat 3 times (step s82). The operation of the range hood 30 is the same as that shown in Fig. 5 and described in the first operation example. According to the second operation example, even when the heating starts or stops the measurement, the operator 60 temporarily assumes a position and posture that interferes with the transmission and reception of infrared signals. Since the heating is started or stopped, the measurement is started every 3 seconds. The infrared signal is transmitted three times, so that the transmission and reception of the infrared signal between the gas stove 22 and the range hood 30 can be more reliable. That is, it is possible to more reliably start or stop the operation of the exhaust fan 36 of the range hood 30 in conjunction with the ignition and fire-off switch% of the gas furnace 22. In the second operation example, infrared signals are sent once when the heating is started or stopped, and infrared signals are sent three times every three seconds from this time. At this time, if the main body 23 of the gas furnace 22 is provided with a paper size suitable for receiving this paper _ home scale (_ Α4 size ⑵ GX297 mm) (Please read the precautions on the back before filling this page), ^ τ— ▼ Line 丨 • 14-

593942 V. Description of the invention (? 2) Port P 'is more equipped with a sending section in the range hood 30 to enable both parties to communicate, and sends a reply signal when the range hood 30 receives an infrared signal, and the gas stove When 22 stops receiving the infrared signal from the gas furnace 22 when receiving the reply signal, the number of times of transmitting the infrared signal can be reduced, and power consumption can be suppressed. This ON state is particularly useful when using the gas furnace 22 of the dry battery 45 (see Fig. 3) as shown in this embodiment. (Third Operation Example) Next, a third operation example will be described mainly with reference to FIG. 7. Fig. 7 is a flowchart of a third operation example of the gas furnace related to this embodiment. The third operation example is a modification of the second operation example, and the following is different from the second operation example. The third operation example is to send an "in progress" operation signal of the exhaust fan% when the heating start measurement is performed (step S20), and after 3 seconds have elapsed since the heating start measurement (step S30), the command is sent again to The operation of the "middle" operation signal (step S40) is repeated until all the micro-switches 27 are turned off (when the heating is stopped) (step S50). However, the stop signal is the same as the second operation example. After 3 seconds have elapsed since the heating stop was detected (step S70), the operation of sending the stop signal again (step S80) is repeated three times (step S82). The operation of the range hood 30 is the same as that shown in Fig. 5 and described in the first operation example. According to the third operation example, the operation of sending the "in progress" operation signal again is repeated before all the micro-switches 27 are turned off. Even if the self-heating measurement is started, the operator 60 will send and receive infrared signals for a long time. Position and posture, the gas stove 22 and the range hood 30 can also send the paper standard applicable to China National Standards (CNS) A4 specifications (210X297 mm) (Please read the precautions on the back before filling in this page)

• 、 Can I ▼ line 丨 -15- 593942 A7 _______B7__ 5. Description of the invention 彳 3) Receive infrared signals. In addition, in the case of the third embodiment, the communication between the two parties is also performed, so the power consumption can be significantly suppressed. In addition, if the power source of the gas furnace 22 is a commercial power source, there is no need to replace the battery, and even if it consumes a little more power, the disadvantages are reduced. The above is the description of the gas stove 22 and the range hood 30 related to the embodiment of the present invention, but the present invention is not limited to the above embodiment, but may be modified and improved in various forms according to the knowledge of the skilled person Implementation. The following is a brief description of the illustration. FIG. 1 is a front view of a gas stove and a range hood related to this embodiment. Fig. 2 is a side view of the gas stove and the range hood related to this embodiment. The structure shown in Fig. 3 is the structure of infrared transmission and reception between the gas furnace and the range hood according to this embodiment. The flowchart shown in Fig. 4 is a first operation example of the gas furnace related to this embodiment. The flowchart shown in Fig. 5 is an operation example of the range hood related to this embodiment. The flowchart shown in Fig. 6 is a second operation example of the gas furnace related to this embodiment. Fig. 7 is a flowchart of a third operation example of the gas furnace related to this embodiment. This paper size applies to China National Standard (CNS) A4 specification (210X297 mm) (Please read the precautions on the back before filling out this page), Yiding | -16- 593942 A7 B7 V. Description of the invention (ί4) [Element number Comparison table] 22 ... Gas stove (an example of a heating device) 33 ... First receiving section 23 ... Hearth body 35 ... Second receiving section 24 ... Furnace section 3 6 ... Exhaust fan 24a ... 第1 furnace section 40 ... switch detection section 24b ... second furnace section 42 ... transmission control section 24c ... third furnace section 43 ... timer 24d ... oven sections 44a, 44b ·· Send LED (Infrared emitting 25 ... One example of remote control switch light element) 26 (a ~ d) ... Ignition and fire switch 45 ... Dry battery 27 ... Micro switch 48a, 48b ... Receiving LED (Infrared receiving 28. .. An example of the optical element of the transmitting unit) 28a ... the first transmitting unit 52 ... the receiving control unit 28b ... the second transmitting unit 53 ... the buzzer 29 ... the housing 56 ... the motor control unit 30 ··· Range hood (an example of a ventilator) 5 7 ... Commercial power supply 31 ... Hood body 5 8 ... Motor 32 ... Operation section 60 + Operator (please read the note on the back first) (Fill in this page again) Zhang scale applicable Chinese National Standard (CNS) Α4 size (210X297 mm) -17-

Claims (1)

—A heating device, which includes a detection unit to detect the start or stop of heating; the sending unit 'is used to send a ventilation device to start the ventilation device to start an infrared signal or stop it. Infrared signal; :: Timing device is used to measure the elapsed time when heating is started or added by the aforementioned detection section; and 2 send control section is used to measure the heating start at the aforementioned detection section Or • ,,, and m, send an infrared signal to the transmission unit to start or stop the ventilation device i, and measure the predetermined elapsed time with the timer to the transmission unit. Send the same infrared signal. 2. As for the heating device of the scope of application for patent, the sending control unit also measures the above-mentioned pre-elapsed time and continues to send the same infrared signal every predetermined time. 3. A kind of ventilation device It includes: a receiving section for receiving infrared signals sent by the heating device of the patent application No. 丨 or 2; and a receiving control section for receiving infrared signals from the receiving section, and then Receiving the same infrared signal sent by the heating device is invalid. This paper size applies to China National Standard (CNS) A4 (210X297 mm)