KR950006660B1 - Fan heater control device - Google Patents

Abstract

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Description

Control device of hot air heater

1 is a rear view of the warm air heater according to the first embodiment of the present invention.

2 is a structural diagram of a warm air heater according to the first embodiment of the present invention.

3 is a control block diagram of a warm air conditioner according to a first embodiment of the present invention.

4 is a control circuit diagram of a warm air heater according to the first embodiment of the present invention.

5 is a control flowchart of a warm air heater according to the first embodiment of the present invention.

6 is a room temperature control diagram of a warm air conditioner according to the first embodiment of the present invention.

7 is a control block diagram of a warm air conditioner according to a second embodiment of the present invention.

8 is a control flow chart of a warm air conditioner according to a second embodiment of the present invention.

9 is a control flowchart of display means according to a third embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

8: room temperature sensor A 9: room temperature sensor B

10 floor temperature sensor 13 heating capacity correction means

14: air volume correction means 15: heating capacity control means

16 air flow rate control means 17 microcomputer

18: timer display means 35: timer adjustment means

The present invention relates to a control device of a warm air heater capable of performing comfortable room temperature control.

Conventionally, such a control apparatus has a first temperature sensor for detecting an ambient temperature in a room, a second temperature for detecting a temperature of a wall of a room, or a room as described in, for example, Japanese Patent Laid-Open No. 62-194161. The sensor is equipped with a temperature obtained by subtracting the correction temperature calculated based on the temperature difference between the first temperature sensor and the second temperature sensor to the detected temperature by the first temperature sensor. There was something to control. The first temperature sensor is to detect the ambient temperature of the room provided on the combustion air suction side of the instrument body, the second temperature sensor is provided on the front surface of the instrument body to detect the ambient temperature of the instrument body or the wall of the room. The combustion temperature is calculated by calculating the room temperature detected by the first temperature sensor based on the temperature difference between the first temperature sensor and the second temperature sensor, and controlling the combustion mechanism using this temperature as the reference room temperature. Room temperature control considering the ambient temperature of walls and floors is performed.

In addition, an object temperature detector which detects an object temperature such as a wall constituting a room is provided in accordance with the combustion control apparatus of the heater described in Japanese Utility Model Publication No. Hei 2-69247, and combustion is performed in accordance with the detected temperature and the temperature difference between the room temperature. There is provided with a combustion control means for increasing or decreasing the intensity, so that room temperature control considering the object temperature is performed in a room such as a wall as in the conventional example.

However, in such a conventional control device, a second temperature sensor for detecting the ambient temperature of the instrument body or room wall of the former conventional example is attached to the front of the instrument body, and the object temperature detector of the latter conventional example is a heater. Since it is attached to the back of the main body, it is impossible to accurately detect the object temperature such as a wall because of the influence of heat in the main body after the start of operation.

In addition, since the correction of the detection room temperature and the increase or decrease of the combustion intensity are performed only by the temperature difference between the two sensors, the room temperature decreases before the walls become warm, or the room temperature remains high despite being warm enough. There is a need to perform cumbersome operation every time the user has to change the recognized temperature one by one.

An object of the present invention is to solve the above problems, it is possible to accurately detect the temperature of the floor, wall, etc. without increasing the cost, and also when operating for a long time from the start of heating just by operating operation It is to provide a control device of hot air heater that is always comfortable and saves energy without changing the haptic temperature.

The first invention of the control device for a warm air heater according to the present invention is to directly or indirectly detect a room temperature sensor A for detecting a lower room temperature, a room temperature sensor B for detecting a room temperature above the room temperature sensor A, and a heater installation surface. Air temperature correction means for correcting the air flow amount according to the temperature difference between the room temperature sensor A and the room temperature sensor B and heating capacity correction means for correcting the heating capacity according to the temperature difference between the room temperature sensor A and the floor temperature sensor. .

In addition, the second invention of the present invention relates to the relationship between the temperature difference between the room temperature sensor A and the room temperature sensor B and the correction amount of the air blowing amount correcting means, the temperature difference between the room temperature sensor A and the floor temperature sensor and the heating capacity correction means according to the operation duration of the warm air heater. It is provided with a timer adjusting means for changing the relationship of the correction amount.

The third invention of the present invention is also provided with display means for displaying that the temperature difference between the room temperature sensor A and the room temperature sensor B and the temperature difference between the room temperature sensor A and the floor temperature sensor become less than or equal to a predetermined value during the operation of the warm air conditioner.

The control device according to the first aspect of the present invention acts in a direction in which the blowing amount correcting means increases the blowing amount when the temperature difference between the room temperature sensor A and the room temperature sensor B increases, and heating when the temperature difference between the room temperature sensor A and the floor temperature sensor decreases. The capability correction means controls the room temperature slightly lower.

In the second invention of the present invention, the timer adjusting means includes a room temperature sensor A for operating the airflow amount correcting means and a room temperature sensor A for operating the temperature difference determination level of the room temperature sensor B and the heating capability correcting means as the heating time becomes longer. Change the temperature difference judgment level of the floor temperature sensor to a larger value.

In the third invention of the present invention, when the temperature difference between the room temperature sensor A and the room temperature B is smaller than the temperature difference between the room temperature sensor A and the floor temperature sensor, the display means changes the display state to the user. It tells you how warm you are or how temperature changes.

Example 1

EMBODIMENT OF THE INVENTION Hereinafter, one Embodiment of this invention is described with reference to drawings. 1 and 2 are a rear view and a structural diagram of a warm air heater, respectively, (1) an outer frame of a warm air heater, (2) a bottom plate, (3) a combustor attached to the bottom plate (2), (4 ) Denotes a combustion cylinder covering the flame of the combustor 3, 5 denotes a partition plate covering a cartridge tank (not shown), 6 denotes a control circuit unit for controlling a heater attached to the partition plate 5, ( 7) is attached to the rear surface of the outer frame (1) blowing fan for discharging the heat in the combustion cylinder (4) to the outside as warm air, (8) is similarly attached to the lower rear surface of the outer frame (1) to the lower room temperature The room temperature sensors A and 9 for detecting the same temperature are similarly attached to the rear top 1 of the outer frame 1, and the room temperature sensors B and 10 for detecting the room temperature above the room temperature sensor A (8) are the bottom plate ( It is floor temperature sensor attached toward floor surface in 2).

3 is a block diagram showing a control unit of a warm air heater. (11) is a room temperature setting means for setting the room temperature at the time of heating, (12) heating to a predetermined value according to the deviation of the set temperature set by the room temperature setting means (11) and the temperature of the room temperature sensor and A (8). The heating capacity / airflow rate determining means for setting the capacity and the airflow amount, (13) determines the correction amount of the heating capacity by detecting the warmness of the floor, the wall, etc. according to the temperature difference between the room temperature sensor A (8) and the floor temperature sensor (10). The heating capacity correcting means (14) is a blowing amount correcting means for detecting the up and down temperature difference of the room by the temperature difference between the room temperature sensor A (8) and the room temperature sensor B (9) to determine the corrected amount of the blowing fan (7), (15) Is a heating capacity control means for controlling the combustion amount of the combustor 3 by subtracting the correction amount of the heating capacity correction means 13 to the combustion amount determined by the heating capacity / airflow amount determining means 12, and 16 is the heating capacity / airflow amount determination. The correction amount of the blowing amount correcting means 14 is added to or subtracted from the blowing amount determined by the means 12. A blowing air volume control means for controlling the blowing air volume of books blowing fan (7).

FIG. 4 shows the control block diagram of FIG. 3 as an electric circuit diagram.

In FIG. 4, the information of the room temperature setting means 11, which consists of a room temperature sensor A (8), a room temperature sensor B (9), a floor temperature sensor 10, a switch, and the like, is converted into a voltage, thereby converting the microcomputer 17 (hereinafter referred to as FIG. Called microcomputer). The microcomputer 17 is provided with an AD conversion circuit, a memory, a CPU, etc. for processing this information, and the heating capacity / air flow rate determining means 12, heating capacity correction means 13, air volume correction means 14 and Part of the heating capacity control means 15 and the airflow control means 16 is constituted.

In addition, the output of the microcomputer 17 includes a display means 18 for notifying a user of the warmth of the room or the state of temperature fluctuation, a control element 19 for controlling the blowing amount of the blower fan 17, a combustor composed of an electronic pump, and the like. The control element 20 etc. for controlling the combustion amount of (3) are connected.

21 is an oscillator for making the reference time of the internal clock and timer of the microcomputer 17. In FIG.

Next, the operation will be described with reference to the flowchart of FIG. 5 and the room temperature control diagram of FIG.

First, when the operation switch (not shown) is turned on (step 22), combustion (3) starts combustion, and operation is performed in a strong combustion until the room temperature detected by the room temperature sensor A (8) reaches the set temperature. (Steps 24 and 25). When the room temperature reaches the set temperature, the predetermined combustion amount and the blowing amount are set in accordance with the deviation between the set temperature and the room temperature (step 26), and controlled accordingly.

Next, the microcomputer 17 fetches the detection temperature of the temperature sensor A8 and the floor temperature sensor 10, and calculates the temperature difference (step 27).

The indoor air temperature warms up quickly with warm air, but the temperature difference between the floor and the wall is not so warm at the beginning of heating. As time goes by and the floor or wall temperature warms up and the radiant temperature rises, the user will feel quite warm even at the same room temperature under the influence of this radiant heat. When the temperature difference between the room temperature sensor A (8) and the floor temperature sensor (10) is within 3 ° C, the heating capacity correction means (13) is operated to correct the combustion amount at which the set temperature is lowered by 1 ° C (step 28).

In other words, it is to lower the room temperature controlled by lowering the combustion amount, to maintain the haptic temperature constant, and to perform room temperature control that is not too hot.

On the other hand, the microcomputer 17 is constantly detected by the temperature difference between the room temperature sensor B (9) and the room temperature sensor A (8), and the temperature of the room temperature sensor A (8) is opened, for example, by opening / closing a door as shown in C of FIG. When the up and down temperature difference becomes 4 ° C or more, the airflow amount correcting means 14 operates (step 30) to increase the airflow amount of about 20% with respect to the airflow amount predetermined for the combustion amount (step 31). For this reason, it is possible to quickly return the indoor temperature difference up and down to the original comfortable state without a circulating effect and increasing a combustion amount.

Moreover, in step 33, the heating capacity control means 15 and the airflow amount control means 16 are operated in accordance with the combustion amount and the airflow amount set or corrected in the above steps, respectively, to control the combustor 3 and the air blower 7. .

In step 34, control of the display means 18 described later is executed, and finally, the process returns to step 26.

Example 2

FIG. 7 adds the timer adjusting means 35 to the control block diagram of FIG. 3 to add an adjustment to the correction of the heating capacity correcting means 13 and the airflow amount correcting means 14 in accordance with the heating duration.

8 is a flowchart showing the operation of the above embodiment.

In FIG. 8, since the same operation is performed for the steps having the same number as in FIG. 5, the description is omitted.

The timer adjusting means 35 first determines whether or not the heating operation time has elapsed 2 hours at step 36, and when it is within 2 hours, the temperature difference between the room temperature sensor A 8 and the floor temperature sensor 10 is 3; The combustion amount is corrected when it is within the temperature range, and the correction is performed when the temperature difference is within 2.5 degreeC when the temperature difference exceeds 2 hours. If the heater body continues to operate, the internal temperature rises. In order to accurately detect the floor temperature, it is necessary to minimize the influence of the internal temperature of the main body as much as possible, but changing the temperature difference according to the operating time as in the above embodiment can eliminate the influence of the internal temperature.

Similarly, the timer cleaning means 35 determines whether or not 2 hours have elapsed in step 38, and when it is within 2 hours, when the temperature difference between the room temperature sensor B (9) and the room temperature sensor A (8) is 4 ° C or more, Correction of increase of is performed, and when it exceeds 2 hours, it is made to perform correction when the said temperature difference is 5 degreeC or more. This is because the room temperature sensor B 9 is attached to the upper part of the main body and, like the floor temperature sensor 10, is susceptible to the increase in the internal temperature of the main body.

Example 3

Next, the operation of the display means control in step 34 in the flowchart of FIG. 5 will be described with reference to the flowchart of FIG. The display means 18 is made of a color display by a light emitting diode or the like, and changes its color by the degree of warming or temperature distribution in the room during heating.

First, since the temperature difference between the room temperature sensor A (8) and the floor temperature sensor 10 and the temperature difference between the room temperature sensor B (9) and the room temperature sensor A (8) is large at the time of heating start, steps (40), (41), ( Go to 42), " red "

Next, when the room temperature rises and approaches the set temperature, the temperature difference between the upper and lower temperatures of the room temperature decreases, and the process moves to steps 40, 41, and 44, and the display means 18 changes to "yellow".

If the temperature of the floor, wall, or the like rises and the temperature difference between the room temperature sensor A (8) and the floor temperature sensor (10) is within 3 ° C, the process moves to steps (40), (43), and (45). ) Changes to "green".

By providing the display number 18 whose color changes due to the temperature difference of the three sensors in this way, the user can easily know the warmth of the room and the temperature distribution.

According to the first invention of the present invention as described above, the airflow amount correcting means for correcting the airflow amount in accordance with the temperature difference between the room temperature sensor A for detecting the lower room temperature and the room temperature sensor B for detecting the upper room temperature, the room temperature sensor A, and the floor temperature sensor. It is equipped with a heating capacity correction means for correcting the heating capacity according to the temperature difference, so that it is possible to detect the radiant temperature of the floor or the wall and the temperature distribution in the room at low cost, and it is economical not too hot without changing the haptic temperature. There is an effect that can obtain a control device of a comfortable warm air heater with a low temperature difference.

According to the second aspect of the invention, in the first aspect of the invention, timer adjustment means for adjusting the correction amount of the heating capacity correction means and the air flow amount correction means is provided to eliminate the influence of the internal temperature of the main body. It is possible to accurately measure the floor temperature and the difference between the upper and lower temperatures of the room, so that it is possible to control the room temperature with high precision.

According to the third aspect of the invention, the display means for indicating that the temperature difference between the room temperature sensor A and the room temperature sensor B and the temperature difference between the floor temperature sensor of the room temperature sensor A is equal to or less than a predetermined value is provided. It is easy to use because it can easily know the distribution.

Claims (3)

In a warm air heater equipped with a heating capacity control means and a blower volume control device, a room temperature sensor A that detects a lower room temperature, a room temperature sensor B that detects a room temperature above the room temperature sensor A, and a temperature on a heater installation surface directly or indirectly. The air volume correction means for performing correction by the air flow control means according to the temperature difference between the room temperature sensor A and the room temperature sensor A and the room temperature sensor B, and the heating capacity control means according to the temperature difference between the room temperature sensor A and the floor temperature sensor. A control apparatus for hot air heaters having a heating capacity correction means to be executed. The temperature difference between the room temperature sensor A and the room temperature sensor B and the correction amount of the airflow amount correcting means, the temperature difference between the room temperature sensor A and the floor temperature sensor, and the correction amount of the heating capacity correction means. A control apparatus for hot air heaters having a timer adjusting means for changing the relationship. The hot air heater control device according to claim 1, further comprising display means for displaying that the temperature difference between the room temperature sensor A and the room temperature sensor B and the temperature difference between the room temperature sensor A and the floor temperature sensor become less than or equal to a predetermined value during the operation of the hot air heater.