KR0132537B1 - Hot air heater - Google Patents

Abstract

a housing ; a time establishing means establishing the time blowing hot air into room; an initial room temperature detecting means detecting room temperature before established time; a temperature increasing level measuring means measuring increased temperature in initial heating state; in increased time measuring means measuring time taking from the starting of heater to established temperature; an initial room temperature detecting means; a memory means storing and reading the initial room temperature, increasing the state of the room temperature and the increasing time; and the first heating start time determining means calculating a correcting time on the basis of the previous initial room temperature, the present initial room temperature and the previous detected room temperature and determining the present heating start time by adding the corrected time to the previous increased time; is disclosed.

Description

Hot air heater

1 is a block diagram of a controller in a gas warm air heater according to an embodiment of the present invention.

2 is an external view of the gas hot air heater.

3 is a schematic diagram of the structure of the gas hot air heater.

4 is a flowchart for explaining the operation (day 1) of the gas warm air heater.

Fig. 5 is a flowchart for explaining the operation (day 2) of the gas warm air heater.

* Explanation of symbols for main parts of the drawings

1: housing (heater housing) 2: time setting switch (time setting means)

3: temperature setter (room temperature setter) 4: room temperature sensor

11 gas burner (heating source) 12 convection fan (blower)

103: hot air 104: spout

511: initial room temperature detection means 512: room temperature rise degree measurement means

513: rise time measuring means 514: storage means

515: ignition start time determining means (third heating start time determining means)

A: Gas hot air heater (hot air heater) ty: Rise time

ct: Heating load correction time Ty: Initial initial room temperature (initial room temperature)

Tt: Initial room temperature (initial room temperature)

The present invention relates to a hot air heater, in which a heating source starts operation before a set time, and the room temperature reaches a set temperature at the set time. A warm air heater having a timer, for example, by setting the set time at the time of waking up and starting the ignition of the gas burner in advance of the set time, and the room temperature reaching the set temperature at the time of waking up is known in the art. In such a warm air heater, the ignition start time of the heating source is determined based on the room temperature of a predetermined time (for example, 1 hour before) the set time, and if the room temperature is low, the ignition is started quickly. When the room temperature is high, the ignition is started slowly. However, the conventional warm air heater is unsuitable as follows. Since the degree of change in room temperature that rises due to the operation of the heating source depends on the size of the room where the hot air heater is installed, when installed in a small room (the heating load is small), even if the gas reaches the set temperature before the set time, If it is wasted and installed in a large room (large heating load), the set temperature will not be reached even if the set time is reached. In addition, if the floor or the wall of the room where the warm air heater is installed is cold, the user may not feel sufficient heating due to the radiant heat from the floor or the wall even if the room temperature reaches the set temperature at the set time. The first object of the present invention is to provide a warm air heater that can reach the set temperature accurately at the set time irrespective of the size of the room to install the warm air heater, the second object is the size of the room to install the warm air heater (B) The third object is to provide a warm air heater that can make the sensed temperature most suitable at the set time regardless of the initial room temperature. It is to provide a warm air heater that can be at a temperature. MEANS TO SOLVE THE PROBLEM In order to solve the said subject, this invention employ | adopted the following structures. (1) A heater housing having a heating source and a blower for blowing hot air from the blower outlet into the room, time setting means for setting a set time, a room temperature setter for setting a room temperature at the set time, and detecting a room temperature. A room temperature sensor, an initial room temperature detection means for detecting the room temperature before the start of heating at a predetermined time before the set time, a room temperature rise degree measuring means for measuring the degree of rise of the room temperature at the beginning of heating, and detection from the start of heating Rise time measurement means for measuring the rise time until the room temperature reaches approximately the set temperature, the initial room temperature detected by the initial room temperature detection means, the room temperature rise degree measurement means, and the rise time measurement means, the rise state and rise of the room temperature Storage means capable of recording and reading the time; Calculating a correction time than heating load, and by adding the correction time to the last time the heating load of the rise time and having a first heat start time determining means for determining the heating start time of the current time. (2) A heater housing having a heating source and a blower for blowing warm air from the spout to the room, time-correction means for setting a set time, a room temperature setter for setting a room temperature at the set time, and detecting a room temperature. A room temperature sensor, an initial room temperature detection means for detecting the room temperature before the start of heating at a predetermined time before the set time, a room temperature rise degree measuring means for measuring the degree of rise of the room temperature at the beginning of heating, and detection from the start of heating Rise time measurement means for measuring the rise time until the room temperature reaches approximately the set temperature, the initial temperature detected by the initial room temperature detection means, the room temperature rise state measuring means, and the rise time measurement means, and the rise state and rise time of the room temperature The memory correction time can be calculated and calculated based on the current initial room temperature and the degree of increase in the previous room temperature. It is added to the haptic to the previous correction time of the rising time and a second heat start time determining means for determining the heating start time of the current time. (3) A heater housing having a heating source and a blower for blowing warm air from the spout to the room, time setting means for setting a set time, a room temperature setter for setting a room temperature at the set time, and detecting a room temperature. A room temperature sensor, an initial room temperature detection means for detecting the room temperature before the start of heating at a predetermined time before the set time, a room temperature rise degree measuring means for measuring the degree of rise of the room temperature at the beginning of heating, and a detection from the start of heating Rise time measurement means for measuring the rise time until the room temperature reaches approximately the set temperature, the initial room temperature detected by the initial room temperature detection means, the room temperature rise degree measurement means, and the rise time measurement means, and the rise state and rise time of the room temperature Storage means capable of recording and reading the data, and based on the initial initial room temperature, the current initial room temperature, and the degree of increase in the previous room temperature. Calculates the load correction time, calculates the haptic correction time based on the current state of the initial room temperature and the previous initial room temperature, and adds the heating load correction time and the bodily time correction time to the previous rise time to heat up this time. Third heating start time determination means for determining the start time is provided. The storage means stores the initial room temperature detection means, the room temperature rise degree measurement means, and the rise time measurement means, the initial room temperature detected by the previous operation (timer operation), the rise state of the room temperature, and the rise time. Then, the first heating start time determination means for the current operation (timer operation) calculates the heating load correction time based on the previous initial room temperature, the current initial room temperature and the previous room temperature rising state, This heating load correction time is added to determine the current heating start time. Specifically, the rising temperature per unit time according to the heating load is obtained by the last rising temperature of the room temperature, and the difference between the initial room temperature is obtained by the difference between the initial room temperature of the present time and the previous room temperature of the previous time. By dividing this difference of initial room temperature by the rising temperature per unit time, the correction amount (heating load correction time) for the previous heating start time is obtained. Therefore, this heating start time is determined by adding this heating load correction time to the previous rise time.

[Configuration relating to Claim 2]

The storage means stores the initial room temperature detecting means, the room temperature rising degree measuring means, and the rising time measuring means, the initial room temperature, the rising state of the room temperature, and the rising time during the previous operation (timer operation). During the current operation (timer operation), the second heating start time determining means calculates the tangible correction time based on the current rising temperature of the initial room temperature and the previous room temperature, and adjusts the haptic correction time to the previous rising time. In addition, this time determines the start time of heating. Specifically, the time from when the room temperature reaches the set temperature until the user no longer feels cold from the floor or the wall, that is, the time until the haptic temperature reaches the most suitable temperature is measured in the room where the initial room temperature or the heater is installed. Depends on the width Therefore, the room temperature rise per unit time is obtained from the previous room temperature rise state, and the bodily-feel correction time is calculated based on this rise state and the initial room temperature of the present time, and this haptic correction time is added to the previous rise time. Determine the heating start time.

[Configuration of Claim 3]

The storage means stores the initial room temperature detection means, the room temperature rise degree measuring means, and the rise time measurement means, the initial room temperature, the rise state of the room temperature, and the rise time during the previous operation (timer operation). During the current operation (timer operation), the third heating start time determining means includes a heating load correction calculated based on the previous rise time, the previous initial room temperature, the current initial room temperature, and the previous room temperature rise. Time, ③ Determine the starting time of heating this time by adding the bodily sensation correction time calculated based on the initial room temperature of this time and the rise of the previous room temperature. In other words, the heating start correction time in consideration of the area (heating load) of the room and the haptic correction time in consideration of the radiant heat amount are added to the previous rise time to determine the current heating start time. The heating load correction time is calculated based on the initial initial room temperature, the current initial room temperature, and the current room temperature rising state, and this heating load correction time is added to the previous rising time to meet the room's area (heating load). The heating start time of is set. Therefore, if the room temperature reaches the set temperature before the set time (in this case, the energy for operating the heating source is wasted) or the set time is eliminated, and the room is the same as the previous time, the initial room temperature Regardless of the current time, the room temperature can be reached to the set temperature accurately at the set time, thereby providing comfort to the user. Calculate the haptic correction time based on the initial room temperature and the previous room temperature rise state, and add this haptic correction time to the previous rise time to set the current heating start time to match the radiant heat from the floor or wall. do. Since the start time of heating at this time is determined in consideration of the amount of radiant heat, the sensed temperature actually felt by the user at the set time can be the most suitable temperature. Therefore, even if the warm air heater is installed in a large room and the initial room temperature is low, the radiant heat received from the floor or wall becomes the most suitable temperature at the set time, so that the user can feel comfort without feeling cold. The heating start correction time in consideration of the area of the room (heating load) and the haptic correction time in consideration of the radiant heat amount are added to the previous rise time to determine the current heating start time. Therefore, if the room is the same as the previous time, the user can feel the actual temperature that the user actually feels at the correct setting time regardless of the size of the room or the initial room temperature, and at the set time, the room temperature has already been set to the user. Comfort can be provided. An embodiment (corresponding to claim 3) of the present invention will be described based on FIGS. 1 to 6 and Tables 1 to 2. FIG. As shown in FIGS. 1 to 3, the gas-heated air conditioner (A) includes a housing (1) including a gas burner (11), a convection fan (12), and a time setting switch (2) for determining a set time. And a temperature setter 3 for determining the room temperature at the set time, a room temperature sensor 4 for detecting the room temperature, and a controller 5 having a microcomputer. The metal housing 1 is provided with suction ports 101 and 102 of the indoor air 100 used for mixing and combustion in the upper part of the rear side, and a blower outlet 104 for blowing the warm air 103 into the room. Installing on In addition, reference numeral 105 denotes a duct communicating with the inlet 101 and the outlet 104, and 106 denotes an air induction that guides the indoor air 100 from the inlet 102 to the gas burner 11 as the combustion air. Roy. The gas combustor 11 includes a mixing chamber 112 for mixing the gas ejected from the nozzle n disposed downstream of the air inflow path 106 and the indoor air 100 guided by the air inflow path 106. And a combustion cylinder 113 provided with a ceramic combustion plate 113 and an ignition electrode 114, a thermocouple 115, and the like. The nozzle n is formed at the tip of the gas pipe g in which the solenoid valves 117 and 118 and the proportional valve 119 are arranged in this order. The convection fan 12 is composed of an impeller 121 pivoted in the duct 105 on the downstream side of the gas burner 11 and a motor 122 for constructing the impeller 121. The time setting switch 2 is disposed in the operation unit 13 provided on the upper surface of the housing 1 to determine the setting time. The setting time is, for example, the time when the user wakes up. The temperature setter 3 is disposed in the operation unit 13 provided on the upper surface of the housing 1, and determines the room temperature and the like only when the set time is reached. The temperature sensor 4 is disposed in the air flow path 106 near the intake port 102. As shown in FIG. 1, the controller 5 includes operation control means 510, initial room temperature detection means 511, room temperature rise degree measurement means 512, rise time measurement means 513 and storage means 514, The operation control part 51 which has the ignition start time determination means 515, etc., and the temperature control control part 52 which performs temperature control are provided. When the ignition start time is reached or the operation switch 61 is turned ON, the operation control means 510 energizes the ignition electrode 114 for a predetermined time and simultaneously opens the solenoid valves 117 and 118 in the open valve state. The gas burner 11 is ignited. If the operation switch 61 is turned off, the solenoid valves 117 and 118 are placed in a closed valve state to extinguish the gas burner 11. In addition, when the output voltage of the thermocouple 115 falls below a predetermined value during combustion, the solenoid valves 117 and 118 are placed in a closed valve state to extinguish the gas burner 11. The initial room temperature detection means 511 detects room temperature before a predetermined time, for example, room temperature Ty (last initial room temperature) and Tt (current initial room temperature) one hour before the set time. The room temperature rise degree measuring unit 512 detects each room temperature one minute after the ignition and five minutes after the ignition, and the difference between the detection room temperature T5 after five minutes and the detection room temperature T1 after one minute after the ignition is measured. The elevated state of room temperature (T5-T1) is obtained. In addition, since the room temperature one minute and five minutes after the start of heating is a range rising in direct proportion to the heating capacity (8 speeds) of the gas burner 11, the rising temperature per unit time can be accurately detected by detecting each room temperature after one minute and five minutes. can do. The rise time measuring means 513 calculates the rise times Ty (the last time, this time) and ty0 (the first time) from when the detection room temperature reaches the set temperature to approximately the set temperature. The storage means 514 is the initial initial room temperature Ty detected by the initial room temperature detecting means 511, the room temperature rise degree measuring means 512, and the rise time measuring means 513, the current initial room temperature Ty, this time or the last time. The temperature rise state (T5-T1) and rise time (ty-ty0) of are stored and read out. The ignition start time determining means 515 includes (1) the previous rise time (ty), (2) the initial initial room temperature (Ty), the current initial room temperature (Tt), and the elevated state of the previous room temperature (T5-T1). Heating load correction time (ct) calculated on the basis of) and (3) the initial room temperature (Tt) and the room temperature correction time (ft) calculated based on the rising state (T5-T1). To determine the current heating start time. The temperature control controller 52, into which the outputs of the room temperature sensor 4 and the temperature setter 3 are input, operates when the forced steel burning operation (heating capacity of the level 8 during the initial stage of ignition) ends, and the room temperature The heating capacity (level 1 to level 7) is determined based on the detected room temperature detected by the sensor 4 and the set temperature difference set by the temperature setter 3. The proportional valve driving circuit 521 energizes the proportional valve 119 with a current (steps 1 to 7) corresponding to the heating capacity (levels 1 to 7) determined by the temperature control controller 52 during the temperature regulation operation. . The fan drive circuit 522 flows a fan current to the motor 122 to obtain a fan speed suitable for the heating capacity (level 1 to level 7) determined by the temperature control controller 52 during the temperature control operation. Next, the operation of the gas air conditioner A will be described based on the flowcharts of FIGS. 4 and 5 and Tables 1 and 2. FIG. [Day 1 (Previous) Operation] .... See Fig. 4. First, set time is determined by the time setting switch (2), and the room temperature at which the set time should be reached by the temperature setter (3) is determined. The switch 7 is turned on (step S1). In step S2 (setting time-60 minutes), it is determined whether it is (setting time-60 minutes) (YES), and it progresses to step S3. In step S3, the initial room temperature Ty is detected, and the initial room temperature Ty is stored in the storage means 514, and the flow advances to step S4. In step S4, it is determined whether or not the current time has reached the ignition start time = (set time-preliminary storage means 514) and the rising time ty0 stored therein. If this is the case (YES), the flow advances to step S5. The gas burner 11 is ignited, forced forced combustion is started, and the timer TM is started.In step S6, it is determined whether the measurement time Tm = 1 minute of the timer TM is Tm = 1 (YES). In step S7, the room temperature after 1 minute of ignition is measured to be the detection room temperature T1, and the flow proceeds to step S8. In step S8, it is determined whether or not the measurement time Tm is 5 minutes and Tm is 5 minutes. In case YES, the flow proceeds to step S9. In step S9, the room temperature after 5 minutes of ignition is measured to be the detection room temperature T5, and the flow proceeds to step S10. In step S10, the room temperature rise state (T5-T1) is calculated and stored. It stores in the means 514 and proceeds to step S11. In step S11, the detection temperature is set to the set temperature. If it is determined whether or not it has reached (YES), the flow proceeds to step S12. In step S12, the measurement time Tm is set as the rise time ty, and the rise time ty0 previously stored in the storage means 514. ) Is cleared and the rising time ty is stored and the flow proceeds to step S13. If it is determined whether or not the operation stop instruction has been made in step S13 (YES), the operation stops and is not performed (NO). ) Continues the temperature control operation.

[2nd day (current time) operation] ..... See FIG. 5, Table 1, 2

The gas hot air heater A is installed in the same room as it is, and the timer switch 7 is turned on without changing the room temperature at which the set time must be reached (step St1). In step st2, it is determined whether or not (set time-60 minutes), and when (set time-60 minutes) (YES), the flow goes to step st3. The initial room temperature Tt is detected at step st3, the initial room temperature Tt is stored in the storage means 514, and the flow proceeds to step st4. In step st4, on the basis of the initial room temperature Tt and the previous room temperature rising state T5-T1, the bodily-feel correction time ft is determined from the data table shown in Table 1, and the process proceeds to step st5. In step st5, the heating load correction time (ct) is calculated from the data table shown in Table 2 based on the initial initial room temperature (Tt), the current initial room temperature (Tt), and the previous room temperature rising state (T5-T1). Proceed to step st6. In step st6 (the previous rise time ty) + heating load correction time ct + bodily sensation correction time ft), the current ignition leading time tt is calculated, and the process proceeds to step st7. In step st7, when the ignition leading time tt0 minutes is tt = 0 minutes, and when ignition leading time and tt 60 minutes, tt = 60 minutes, and it progresses to step st8. If it is determined in step st8 whether or not the current time has reached the ignition start time = (set time-ignition lead time tt) (YES), the processing proceeds to step st9. At step st9, the gas burner 11 is ignited to start the forced combustion, and the timer TM is started to proceed to step st10. In step st10, it is determined whether or not the measurement time Tm is 1 minute, and when Tm is 1 minute (YES), the processing proceeds to step st11. In step st11, the room temperature one minute after the ignition is measured to be the detection room temperature T1, and the procedure proceeds to step st12. At step st12, it is determined whether the measurement time Tm is 5 minutes, and if Tm is 5 minutes (YES), the processing proceeds to step st13. In step st13, the room temperature 5 minutes after the ignition is measured, and the detection room temperature T5 is reached. In step st14, the room temperature rising state (T5-T1) is calculated and stored in the storage means 514, and the process proceeds to step st15. In step st15, it is determined whether or not the detected temperature has reached the set temperature (YES). In step st16, the measurement time Tm is set as the rise time ty, the previous ty is cleared, the current rise time ty is stored, and the flow advances to step st17. In step st17, it is determined whether or not the operation stop instruction has been made, and if it is performed (YES), the operation is stopped, and if not, (NO) continues the temperature control operation.

The gas hot air heater A of this embodiment has the following advantages. After the second day (after the second time of the timer operation) after the installation of the gas hot air heater A, the ignition start time determining means 515 of the operation control unit 51 is the initial initial room temperature (Tt) and the previous initial room temperature. Based on the difference (Ty) of (Ty) and the initial rising temperature (T5-T1) of the previous initial room temperature, the heating lowering correction time (ct) is calculated from the data table shown in Table 2, and this time is the initial room temperature (Tt). ), And the sensory correction time (ft) is calculated from the data table shown in Table 1 on the basis of the initial rise state (T5-T1) of the initial room temperature, and the previous rise time (ty) and heating load correction time (ct) The ignition advance time tt (tt = ty + ct + ft) is calculated | required by adding the bodily sensation correction time ft, and setting time-ignition lead time tt is made into ignition start time. Therefore, if the previous room is the same room and the set temperature is the same, regardless of the size of the room where the gas hot air heater A is installed or the initial room temperature (this time), the actual temperature that the user actually feels at the set time is most suitable. The room temperature can be rolled to the set temperature before the set time (last rise time (ty) + heating load correction time (ct)). Therefore, if the set time is set at the expected time of the weather (for example, 6:00), the room temperature is the set temperature at the estimated time of the weather, and the sensed temperature can be the most suitable temperature at the scheduled time of the weather. Regardless of the initial temperature, the user can comfortably wake up. Also, since the time at which the haptic temperature reaches the most suitable temperature is not faster than the expected time of the weather and close to the expected time, there is no waste of gas. The present invention includes the following embodiments other than the above examples. a. In st4 to st6 of FIG. 5 of the above embodiment, the current ignition advance time tt may be obtained by adding only the bodily correction time ft to the previous rise time ty, and ignition may be performed prior to the set time (see Corresponding to Clause 2), the user is provided with a cold air conditioner (A) in a large room, and even if the initial room temperature is low, the user can feel the cold at the set time as the most suitable temperature (at the set time). It can provide comfort to the user without feeling. b. In st4 to st6 of FIG. 6 of the above embodiment, the current ignition leading time tt may be obtained by adding only the heating load correction time ct to the previous rising time ty, and igniting in advance of the set time. In this way, regardless of the size of the room where the heater is installed, the room temperature can be accurately reached at the set time, and gas is not wasted even if it is installed in a small room (with low heating load). It does not waste gas even when installed in a large room (large heating load), and even when installed in a large room (large heating load), there is an advantage that the user does not feel cold at the set time. c. The heating source may be an electric heater or an oil burner. d. The warm air heater may be of a type in which combustion air is introduced into the casing from the outside and discharged outside without mixing with indoor air into which the exhaust is introduced. e. In the above embodiment, the heating load correction time (ct) and the sensory correction time (ft) are determined using the data table table. However, the heating load correction time (ct) and the sensory correction time (ft) may be obtained using the data table calculation formula, and one example of the data table calculation formula is shown below.

Claims (3)

The heater housing which has a heating source and a blower, and blows warm air from a blower outlet into a room, the time setting means which sets a set time, the room temperature setter which sets the room temperature in the said set time, and the room temperature sensor which detects room temperature Initial room temperature detection means for detecting the room temperature before the start of heating at a predetermined time before the set time, room temperature rise degree measurement means for measuring the elevated state of the room temperature at the beginning of heating, and detection room temperature from the start of heating. Storage of the rise time measuring means for measuring the rise time until the approximate set temperature is reached, the initial room temperature detected by the initial room temperature detecting means, the room temperature rise degree measuring means, and the rise time measuring means, the rise state of the room temperature, and the rise time; And a heating unit on the basis of the read-memory storage means and the rising state of the initial initial room temperature, the current initial room temperature, and the previous detection room temperature. And a first heating start time determining means for calculating the bottom correction time and adding the heating load correction time to the previous rise time to determine the current heating start time. A heater housing having a heating source and a blower for blowing hot air from the blower outlet to the room, time setting means for setting a set time, a room temperature setter for setting a room temperature at the set time, and a room temperature sensor for detecting the room temperature Initial room temperature detection means for detecting the room temperature before the start of heating at a predetermined time before the set time, room temperature rise degree measurement means for measuring the elevated state of the room temperature at the beginning of heating, and detection room temperature from the start of heating. Storage of rising time measurement means for measuring a rise time until reaching a substantially set temperature; initial room temperature at which the initial room temperature detection means, room temperature rise degree measurement means, and rise time measurement means are detected; And a haptic correction time based on the read-memory means, the initial room temperature of this time, and the rise of the previous room temperature. Hot air heating by addition of the correction time to experience a rise time, characterized in that it comprises a second heat start time determining means for determining the heating start time of the current time. A heater housing having a heating source and a blower for blowing warm air from the spout to the room, time setting means for setting the set time, a room temperature setter for setting the room temperature at the set time, a room temperature sensor for detecting the room temperature, Initial room temperature detection means for detecting the room temperature before the start of heating at a predetermined time before the set time, room temperature rise degree measurement means for measuring the elevated state of the room temperature at the beginning of heating, and detection room temperature from the start of heating Storage of rising time measurement means for measuring a rise time until reaching a set temperature; initial room temperature detected by the initial room temperature detection means, room temperature rise degree measurement means, and rise time measurement means; When the heating load is corrected based on the readable memory means, the initial room temperature of the previous time, the initial room temperature of the current time, and the rise of the previous room temperature. Calculates the sensory correction time based on the current room temperature and the current initial room temperature rise, and adds the heating load correction time and the sensory correction time to the previous rise time to determine the current heating start time. And a third heating start time determining means for determining.