JPS62276349A - Space heater - Google Patents

Abstract

PURPOSE:To make it possible for a user to feel the response from the space heater and to obtain a high satisfaction feeling if the hot heat sense felt by the user is input ted into the space heater, by providing a temperature detector for detecting the room temperature and a switch representing 'hot time' and 'cold time', and changing a set temperature by the input of the hot heat sensing switch to thereby conduct the capacity control of the space heater. CONSTITUTION:When a power supply switch 11 is turned on, a room temperature detected by a temperature sensitive resistor element 7 is inputted and the space heating capacity is calculated from a value the set temperature-room temperature), the set value of the space heating capacity is sent to space heating capacity variable means 9, and a space heating capacity generating device 10 is controlled by the output of the means 9. Whether the input is one from a switch representing 'hot time' or from a switch representing 'coil time' is judged. When it is judged the input to be from the switch representing 'hot time', the set temperature is lowered by a predetermined value, 2 deg., for example, with reference of the room temperature at that time. In addition, the minimum space heating capacity is set, and when a predetermined time passes, the space heating capacity is determined at the changed set temperature, and environments are controlled so that the set temperature becomes equal to the room temperature.

Description

[Detailed Description of the Invention] 1. Detailed Description of the Invention [Field of Industrial Application] This invention relates to a heating machine that provides a comfortable environment according to the user's wishes.

[Conventional technology]

Figure 3 is a configuration diagram showing a part of the operation section and display section of a heater shown in the Mitsubishi Electric catalog of August 1985, for example, αυ is the power switch, and ■ and 2 are the room temperature control switch r.
1 is the temperature increase switch, (to) is the temperature decrease switch, @ is the temperature display section, (to) is the set temperature, and 2 is the room temperature. FIG. 4 is its electrical circuit diagram, and (1) is a switch section having a plurality of switches.

(2) is a microcomputer, and the input circuit (31
It has a CPU (4), a memo (January 5), and an output circuit (6).

The output of the switch section (2) and the output of the temperature-sensitive resistance element (7) as a temperature detector for detecting room temperature are input to the input circuit (31) via the A/D/W converter (8). The output from the output circuit (61) controls the heating capacity variable device. Note that συ is a power switch.

Next, the operation will be explained. When the power switch (lυ) is set to "man", heating starts.

The heating capacity generator αQ is controlled by the microcomputer (2) so that the temperature is maintained at the temperature set by the user.

You can set the desired indoor temperature by pressing the temperature lowering switch (to). The same thing applies when the user feels depressed. In this way, since the room temperature is controlled by specifying the set temperature, the user cannot directly input the thermal sensation of "hot" or "cold"; There was a problem in that it was sometimes necessary to input the thermal sensation by appropriately replacing it with a set temperature.

To address this problem, the inventors previously proposed an air conditioner having a secondary operating section in Japanese Patent Application No. 229071/1982. FIG. 5 is a configuration diagram of the operating section of this air conditioner, and (1) is a plurality of switch sections representing thermal sensations, which are composed of a "hot" switch (2) and a "cold" switch Cυ.

Taking the case of heating operation as an example, use Fig. 6.

Explain the operation. FIG. 6 is a characteristic diagram of room temperature changes when heating is performed. Heating operation starts with the initial set temperature as the target. At the room temperature when the user approaches the set temperature,
When you feel "cold" and input the "when cold" switch OD, the set temperature is set a certain value higher than the room temperature at that time, and operation continues to further raise the room temperature. When a person feels that it is hot, when the ``hot'' switch is input, the set temperature is set to a certain value lower than the room temperature at that time, and operation is stopped until the room temperature reaches the set temperature. After that, the operation is restarted and the room temperature is controlled to reach the set temperature. In this way, the user's thermal sensation is input and the set temperature is automatically changed in accordance with the input, making it easier to provide a comfortable environment that meets the user's wishes.

[Problem that the invention seeks to solve]

In general, human thermal sensation is determined by four elements of the thermal environment: IjA degrees, humidity, wind speed, and radiant temperature. Furthermore, the sense of comfort, such as comfort or discomfort, is highest when the thermal sensation is neither cold nor hot. Therefore, a comfortable environment varies depending on the user, the outside temperature, etc. at that time. An air conditioner is used to make the user comfortable, and for that purpose, it is preferable that it is easy to use (and quick) to create a comfortable environment.Interchangeable machines that directly input thermal sensation are Although the convenience is greatly improved compared to devices that directly input the set temperature, the device can raise or lower the room temperature without the user noticing, so the device cannot respond to the user's own thermal sensation input. I don't know if the device is responding accurately, and I feel distrustful of the device.
There was a problem in that many thermal sensory inputs had to be manipulated.

This invention was made in order to solve the above-mentioned problems, and by directly inputting the thermal sensation felt by the user, it is possible to obtain a heating machine that allows the user to feel the response of the heating machine and obtain a high sense of satisfaction. The purpose is to

[Means for Solving the Problems J] The heater according to the present invention includes a temperature detector for detecting the room temperature, a switch for indicating thermal sensation, that is, when it is severe and when it is cold, and a switch for indicating the thermal sensation, that is, when it is too cold. The apparatus includes a set temperature determining means for changing the set temperature based on an input, and a heating capacity variable device for controlling the capacity of the heating capacity generating apparatus based on the output of the set temperature determining means.

[For production]

In the heating machine of this invention, when the user inputs the thermal sensation switch, the set temperature is changed based on the room temperature detected by the temperature detector, and the heating capacity variable device changes the heating capacity generating device's capacity. change.

[Actual Arashi example]

FIG. 1 is an electric circuit diagram showing an example of a heating machine according to the present invention. In the figure, (1) is a plurality of switch sections representing thermal sensations, which, as shown in FIG. 5, are composed of a "hot" switch and a "cold" switch. 12+ is a microcomputer including a heating capacity calculation means having a set temperature changing means and a heating capacity setting means.
and input circuit 131. CP tJt41. It has a memory (5) and an output circuit (6). Input circuit (3)
, the output of the temperature sensing switch section fil and the temperature sensitive resistance element (7) as a temperature detector that detects the room temperature is connected to the A/D.
It is input via the FI converter (8). The heating capacity variable device (9) controls the capacity of the heating capacity generating device αG based on the output from the output circuit (6).

Further, συ is a power switch.

Next, the operation of the above actual storm example will be explained using FIG. 2. Second
FIG. 2 is a flowchart including programs for determining the set temperature and determining the heating capacity, which are stored in the memory (5) of the microcomputer (2).

First, when the power switch Qll is turned on, the flow shown in FIG. 2 starts. In step 0, the initial setting temperature is set. In step +13, the room temperature detected by the temperature-sensitive resistance element (7) is input, in step I, the heating capacity is calculated from (set temperature - room temperature), and in step α,
The heating capacity setting value is sent to the heating capacity variable device (9),
The heating capacity generator aci is controlled by this output. Step α4~Step c! 4 is.

This is the flow as a means of determining the set temperature and the heating capacity associated with it. When there is a switch input at step (Ie), the internal timer is reset at step σ, and the "when it is hot" switch input is performed on the step side. When it's cold
Determine whether it is a switch input.

If it is determined that "when it is hot" is input, step α sets the set temperature to a constant value based on the room temperature at that time, and f@I is 2d.
Lower it by 1g. Furthermore, the minimum heating capacity is set in step ■, and the process waits for a predetermined time in step 3υ. After the predetermined time has elapsed, the temperature will be changed from the secondary one.

Again, based on the flow from step t13, the heating capacity is determined, and the environment is controlled so that the set temperature and room temperature are equal. If the step side determines that the switch input is "when it's cold," in the step example, the set temperature is raised by a constant value of 2 d1g based on the room temperature at that time, and at the same time, the step sets the maximum heating capacity, and the step example sets the maximum heating capacity. wait for time. After a predetermined period of time has elapsed, the temperature is changed from the 9th setting again based on the flow from step f13.
controlled. As a result, the user can know the operation of the heater to maximize or minimize the capacity of the heater when the thermal sensation switch is input, and can obtain a high sense of satisfaction. The amount of time that the minimum or maximum heating capacity is maintained when the switch is turned on depends on the user's sensibilities and whether the switch is used for "cold" or "hot" switches.

It's good to change. Further, although the heating capacity at the time of inputting the thermal sensation switch has been described as being at the maximum or minimum, it may be increased or decreased to such an extent that the user can know it.

〔Effect of the invention〕

As described above, according to the present invention, when the user inputs the thermal sensation, the heating capacity is automatically changed according to the input, so the user can easily understand the operation of the heater and use it. It becomes possible to provide a comfortable environment that includes a sense of satisfaction that meets the wishes of the person.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing one embodiment of the present invention. FIG. 2 is a flowchart showing the operation of FIG. 1. FIG. 3 is a configuration diagram of the operating section and display section of a conventional heater. FIG. 4 is a block diagram showing the configuration of a conventional heater. Figure 5 shows the U44th order of the operating section of a conventional air conditioner. This is the same as one embodiment of the heater according to the present invention. FIG. 6 is an explanatory diagram of the operation of FIG. 5. In the figure, (1) is a switch section, (2) is a microcomputer having a set temperature determining means and a heating capacity determining means.9 (7) is a temperature detection fL (91 is a heating capacity variable device, and ttci is a heating capacity generating means). Note that the same reference numerals in each figure indicate the same or equivalent parts.

Claims (2)

[Claims] (1) A heating capacity generator that generates heating capacity and whose capacity can be varied; a temperature detector that detects room temperature; a ``hot'' switch that the user inputs when he feels ``hot'' and a ``cold''switch; A heating capacity calculation means that changes the set temperature and determines the heating capacity based on the input from the temperature sensor and the thermal sensation switch section consisting of the "when it is cold" switch that is input when you feel that the temperature is cold, and the output from this heating capacity calculation means A heating machine characterized by comprising: a heating capacity variable device that changes the capacity of the heating capacity generating device. (2) The heating capacity variable device maximizes the heating capacity for a predetermined period of time when the thermal sensation switch is turned on when it is cold, and minimizes the heating capacity for a predetermined period of time when the switch is turned on when it is hot. The heating machine described in scope 1.