JP5993647B2 - Gradation display apparatus and method - Google Patents

Description

  The present invention relates to a gradation display apparatus and method for gradation display of a temperature distribution in a space, for example, for displaying an air conditioning state.

  A system has been put to practical use in which a large space in a building is divided into a plurality of sections, and the air conditioning state (temperature state) is monitored and managed for each section (see, for example, Patent Document 1). FIG. 5 is a plan view showing an example of a temperature measurement value measured for each section of the space 100. FIG. 5 shows an example in which the room temperature is measured for each point 101 indicated by a circle.

  When there is a need for the building manager or occupant to recognize and confirm the air conditioning state as shown in FIG. 5, for example, the temperature distribution is displayed in different colors for each section divided by a clear boundary line. (FIG. 6). In the example of FIG. 6, a temperature distribution diagram 200 in which the temperature distribution of the space 100 is color-coded in 11 stages and represented by sections is displayed on the screen 201. The sections appearing in the temperature distribution diagram 200 of FIG. 6 are necessary for color-coded display, and do not necessarily coincide with the sections for space use or the sections of the air conditioning control zone. In the temperature distribution diagram 200 of FIG. 6, the color representing the maximum temperature (upper limit color) is white, the color representing the minimum temperature (lower limit color) is black, and the color between the upper limit color and the lower limit color is black. It is expressed with a neutral color and hatching between white and white. The same description method is used in the following temperature distribution diagrams.

  When the temperature distribution is displayed on a clear boundary line that divides the space as shown in FIG. 6, the display does not have a realistic distribution. On the other hand, many managers and residents are aware that there is no boundary line that changes temperature discontinuously from the temperature distribution. Therefore, the display as shown in FIG. 6 may give the manager and the resident a sense of discomfort that is different from his / her own recognition.

  In view of this, an approach has been attempted in which the vicinity of the boundary of the section is displayed in a gradation so that the temperature distribution can be easily recognized. In the example of FIG. 7, a temperature distribution diagram 200 a in which the temperature distribution of the space 100 is displayed in gradation is displayed on the screen 201. The temperature distribution diagram 200b in FIG. 8 represents the boundary line of the gradation display in FIG. The gradation display as shown in FIG. 7 allows the resident to recognize through the screen 201 that, for example, the temperature of each section of the space 100 is affected by the adjacent sections. In addition, since the temperature difference is displayed in gradation, it tends to be recognized as “temperature unevenness”, so that an effect of promoting the energy saving behavior of the resident can be obtained.

  Because gradation display is adopted for the above reasons, the color representing the maximum temperature (upper limit color) and the color representing the minimum temperature (lower limit color) are determined so that the temperature difference between the high temperature and the low temperature is expressed. The method becomes important. In the case of air conditioning, since there are many factors that change the situation, such as seasonal variations, it is difficult to determine the upper limit color and the lower limit color in advance. As a method for determining the display color, a method that is practically used in thermography (a method in which the maximum temperature in the measured temperature distribution is expressed in red and the minimum temperature is expressed in blue) can be applied. That is, in the case of air conditioning, the display color is automatically adjusted based on the temperature measurement value.

Japanese Patent Laid-Open No. 2008-075918

When the display color is automatically adjusted based on the temperature measurement value as in the prior art, the following problem occurs.
(1) For example, although air conditioning is controlled at an appropriate temperature range of about 25 ° C., the temperature of the measurement position is influenced by the level of the temperature at the measurement position for a reason other than air conditioning. In the case of the example as shown in FIG. 5 distributed in the range of from 30 ° C. to 30 ° C., when automatically adjusted so that 10 ° C. is represented by the lower limit color and 30 ° C. is represented by the upper limit color as shown in FIG. However, there is a problem that the overcooled region is represented by an intermediate color between the lower limit color and the upper limit color, and the overcooled region appears to have an appropriate temperature.

(2) Conversely, in the case of the example as shown in FIG. 9 in which the temperature measurement values of the space are distributed in the range of 24.5 ° C. to 25.5 ° C., 24.5 ° C. is represented by the lower limit color, 25.5 10 is displayed on the screen 201 when the temperature is automatically adjusted to represent the upper limit color, the temperature distribution diagram 200c shows that the appropriate temperature region of 24.5 ° C. appears to be too cold, There is a problem that the appropriate temperature region of 25.5 ° C. appears to be an uncomfortable region with insufficient air conditioning. The temperature distribution diagram 200d in FIG. 11 represents the boundary line of the gradation display in FIG.

  It seems that the above problems (1) and (2) can be solved by predetermining the temperature represented by the upper limit color and the lower limit color. However, if the purpose is to recognize temperature unevenness, it is necessary to display a difference that allows the gradation effect to be visually recognized. In particular, in areas such as stores near frozen and refrigerated showcases (frozen food counters), areas that intentionally give a temperature difference (areas where air conditioning itself is also a special temperature setting) are easy to recognize the state by gradation effects. There is a need to. If it is determined in advance that 20 ° C. is represented by the lower limit color and 30 ° C. is represented by the upper limit color, for example, there is a special region in which temperature measurement values are distributed in the range of 15 ° C. to 20 ° C. In the example as shown in FIG. 12, the temperature distribution diagram 200e of FIG. 13 is displayed on the screen 201. In this temperature distribution diagram 200e, all special regions in the range of 15 ° C. to 20 ° C. are displayed in the lower limit color. It will be. A temperature distribution diagram 200f in FIG. 14 represents the boundary line of the gradation display in FIG.

  Alternatively, if it is determined in advance that 15 ° C. is represented by the lower limit color and 35 ° C. is represented by the upper limit color, for example, the temperature measurement values of the entire space are distributed in the range of 24 ° C. to 26 ° C. In such an example, the temperature distribution diagram 200g of FIG. 15 is displayed on the screen 201. In this temperature distribution diagram 200g, the entire area of the space is displayed as the same temperature range. The temperature distribution diagram 200h in FIG. 16 represents the boundary line of the gradation display in FIG. As described above, when the temperatures represented by the upper limit color and the lower limit color are determined in advance, there is a problem that the difference in temperature may not be expressed.

  The present invention has been made in order to solve the above-described problems. The upper and lower limit colors of gradation display are provided so that necessary differences in temperature distribution can be presented while avoiding excessive emphasis on the temperature distribution. An object of the present invention is to provide a gradation display device and method capable of automatically adjusting the screen.

According to the present invention, in the gradation display device that expresses the temperature distribution of the space as a color distribution by inputting n temperature measurement values or temperature estimation values PV1 to PVn that are air-conditioning controlled , the temperature measurement value or temperature estimation value PV1. A set value acquisition means for acquiring temperature set values SP1 to SPn, which are air conditioning control target values set in advance for PVn, and an upper limit side representative value SPU and a lower limit side representative value from n temperature set values SP1 to SPn. Index value extraction means for extracting SPL, fixed value registration means for preliminarily storing a fixed range α, upper and lower limit colors for preliminarily storing a lower limit color for expressing a lower limit of temperature and an upper limit color for expressing an upper limit of temperature Registration means; upper limit color defining means for defining a temperature equal to or higher than a value obtained by adding the fixed range α to the upper limit side representative value SPU; and a lower limit side representative value SP. A lower limit color defining means for defining a temperature equal to or lower than a value obtained by subtracting the fixed range α from L as a temperature expressed by the lower limit color, the temperature measurement values or estimated temperature values PV1 to PVn, and the upper limit color defining means. And temperature distribution display means for gradation-displaying the temperature distribution based on the regulations determined by the lower limit color defining means.
Further, in one configuration example of the gradation display device of the present invention, the index value extraction unit extracts the maximum value SPa among the temperature set values SP1 to SPn as the upper limit side representative value SPU, and the temperature set value SP1. The minimum value SPb among -SPn is extracted as the lower limit side representative value SPL.

In addition, the present invention provides a gradation display method in which the temperature distribution of a space is expressed by a color distribution using n temperature measurement values or temperature estimation values PV1 to PVn that are air-conditioned as inputs, and the temperature measurement value or temperature estimation is performed. A set value acquisition step for acquiring temperature set values SP1 to SPn which are air conditioning control target values set in advance for the values PV1 to PVn, and an upper limit side representative value SPU and a lower limit side from the n temperature set values SP1 to SPn. An index value extracting step for extracting the representative value SPL, and a temperature equal to or higher than a value obtained by adding a predetermined fixed range α to the upper limit side representative value SPU is defined as a temperature expressed by a predetermined upper limit color. An upper limit color defining step and a temperature equal to or lower than a value obtained by subtracting the fixed range α from the lower limit side representative value SPL is defined as a temperature expressed by a predetermined lower limit color. A temperature distribution display step for gradation-displaying the temperature distribution based on a lower limit color defining step, the temperature measurement values or temperature estimated values PV1 to PVn, and the rules determined in the upper limit color defining step and the lower limit color defining step. It is characterized by comprising.

  According to the present invention, a temperature equal to or higher than the value obtained by adding the fixed range α to the upper limit side representative value SPU is defined as the temperature expressed by the upper limit color, and is equal to or lower than the value obtained by subtracting the fixed range α from the lower limit side representative value SPL. By defining the temperature of the image as the temperature expressed by the lower limit color, the upper and lower limit colors of the gradation display can be presented so that necessary differences in the temperature distribution can be presented while avoiding excessive emphasis on the temperature distribution. Can be adjusted automatically.

It is a block diagram which shows the structure of the gradation display apparatus which concerns on embodiment of this invention. It is a flowchart which shows operation | movement of the gradation display apparatus which concerns on embodiment of this invention. It is a figure which shows the example which carried out gradation display of the temperature distribution of space with the gradation display apparatus which concerns on embodiment of this invention. It is a figure showing the boundary line of the gradation display of FIG. It is a top view which shows the example of the temperature measurement value measured for every division of space. It is a figure which shows the example which displayed the temperature distribution of the space of FIG. It is a figure which shows the example which displayed the temperature distribution of the space of FIG. 5 in gradation. It is a figure showing the boundary line of the gradation display of FIG. It is a top view which shows another example of the temperature measurement value measured for every division of space. It is a figure which shows the example which displayed the temperature distribution of the space of FIG. 9 in gradation. It is a figure showing the boundary line of the gradation display of FIG. It is a top view which shows another example of the temperature measurement value measured for every division of space. It is a figure which shows the example which displayed the temperature distribution of the space of FIG. 12 in gradation. It is a figure showing the boundary line of the gradation display of FIG. It is a figure which shows another example which displayed the temperature distribution of the space of FIG. 9 in gradation. It is a figure showing the boundary line of the gradation display of FIG.

[Principle of the Invention]
The essential factor that causes the above problem is that there is a mixture of non-fixed factors that the appropriate temperature distribution determined by the manager varies depending on the situation and fixed factors that should be an implicit common sense range. The inventor found that there was. In addition, as long as it is limited to the area where the air-conditioning control is performed, it is noted that the temperature set value SP managed according to the purpose (reflecting the intention of the administrator) is given.

  Then, the temperature setting value SP is utilized as a non-fixed index of an appropriate temperature distribution determined by the administrator, and the above-mentioned problem is solved by setting a fixed range corresponding to a common sense range around the temperature setting value SP. I thought I could improve it. That is, the upper and lower limit colors can be automatically adjusted so that a necessary difference in the temperature distribution can be presented by a non-fixed index while avoiding excessive emphasis on the temperature distribution by a fixed range.

[Embodiment]
Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 is a block diagram showing a configuration of a gradation display device according to an embodiment of the present invention.
The gradation display device includes a set value acquisition unit 1, an index value extraction unit 2, a fixed value registration unit 3, an upper and lower limit color registration unit 4, an upper limit color defining unit 5, a lower limit color defining unit 6, and a temperature distribution. And a display unit 7.

The set value acquisition unit 1 acquires temperature set values SP1 to SPn from a plurality (n) of air conditioning control units 8-1 to 8-n.
The air conditioning control unit 8-1 receives as input the temperature set value SP1 determined by the administrator and the indoor temperature measurement value PV1 measured by a temperature sensor (not shown) provided in the control target section of the control target space. The operation amount MV1 is calculated by, for example, PID control calculation so that the deviation between the temperature set value SP1 and the indoor temperature measurement value PV1 becomes 0, and this operation amount MV1 is output to an air conditioner (not shown) in the control target section. Thus, the temperature of the control target section is controlled. The other air conditioning controllers 8-2 to 8-n also control the temperatures of the corresponding control target sections. In addition, although demonstrated here as an air-conditioning control part and an air conditioner existing for every division which divided | segmented the control object space, an air-conditioning control part and an air conditioner do not necessarily exist in all the divisions. It's okay.

The index value extraction unit 2 extracts the maximum value SPa and the minimum value SPb from the n temperature set values SP1 to SPn acquired by the set value acquisition unit 1.
The fixed value registration unit 3 stores a fixed range α in advance. The upper / lower limit color registration unit 4 stores at least a lower limit color and an upper limit color in advance.

The upper limit color defining unit 5 defines a temperature equal to or higher than a value obtained by adding the fixed range α to the maximum value SPa as a temperature expressed by the upper limit color.
The lower limit color defining unit 6 defines a temperature equal to or lower than a value obtained by subtracting the fixed range α from the minimum value SPb as a temperature expressed by the lower limit color.
The temperature distribution display unit 7 acquires the indoor temperature measurement values PV1 to PVn measured by the temperature sensor provided for each section of the control target space via the air conditioning control units 8-1 to 8-n, and the indoor temperature Based on the measured values PV1 to PVn and the rules determined by the upper limit color defining unit 5 and the lower limit color defining unit 6, the temperature distribution of the control target space is displayed in gradation.

  Next, the operation of the gradation display device of this embodiment will be described with reference to FIG. The set value acquisition unit 1 acquires temperature set values SP1 to SPn from the air conditioning control units 8-1 to 8-n (step S1 in FIG. 2). For example, the number n of partitions that divide the control target space (the number n of air conditioning control units) is 9, and SP1 = 25.0 ° C., SP2 = 25.0 ° C., SP3 = 25.0 ° C., SP4 = 25.0 , SP5 = 25.0 ° C, SP6 = 25.0 ° C, SP7 = 25.0 ° C, SP8 = 25.0 ° C, SP9 = 25.0 ° C.

  The index value extraction unit 2 extracts the maximum value SPa and the minimum value SPb from the nine temperature setting values SP1 to SP9 acquired by the setting value acquisition unit 1 (step S2). In the above numerical example, SPa = 25.0 ° C. and SPb = 25.0 ° C. are extracted.

The upper limit color defining unit 5 defines a temperature equal to or higher than a value obtained by adding the fixed range α to the maximum value SPa as a temperature expressed by the upper limit color (step S3). For example, when α = 2.0 ° C. and the upper limit color is red, the upper limit color defining unit 5 defines a temperature of 27.0 ° C. or higher as a temperature expressed in red.
The lower limit color defining unit 6 defines a temperature equal to or lower than a value obtained by subtracting the fixed range α from the minimum value SPb as a temperature expressed by the lower limit color (step S4). For example, when α = 2.0 ° C. and the lower limit color is blue, the lower limit color defining unit 6 defines a temperature of 23.0 ° C. or less as a temperature expressed in blue.

  The temperature distribution display unit 7 displays the temperature distribution of the control target space in gradation based on the room temperature measurement values PV1 to PV9 and the rules determined by the upper limit color defining unit 5 and the lower limit color defining unit 6 (step S5). . At this time, the temperature distribution display unit 7 displays the temperature distribution in each color from blue to red. Since the gradation display of the temperature distribution is a well-known technique in thermography, for example, detailed description of the display process is omitted.

  When the temperature distribution of the space 100 shown in FIG. 9 is displayed by the gradation display device of the present embodiment, it becomes as shown in FIG. In the example of FIG. 3, a temperature distribution diagram 300 in which the temperature distribution of the space 100 is displayed in gradation is displayed on the screen 301. A temperature distribution diagram 300a in FIG. 4 represents a boundary line of gradation display in FIG. The position of the point 101 indicated by a circle in FIG. 9 is a position where the temperature sensor is installed. In the temperature distribution diagram 300 of FIG. 3, the upper limit color (red) is expressed in white, the lower limit color (blue) is expressed in black, and the color between the upper limit color (red) and the lower limit color (blue) is expressed. In addition, it is expressed by an intermediate color between black and white and hatching.

  When the temperature distribution as shown in FIG. 9 in the appropriate temperature region where the room temperature measurement values PV1 to PV9 of each section substantially coincide with the temperature setting values SP1 to SP9 is displayed on the gradation display device of the present embodiment, as shown in FIG. It can be seen that the display is generally suitable temperature region while there is a distinction between a slightly high temperature region and a slightly low temperature region.

Next, another example of the operation of the gradation display device according to this embodiment will be described. Here, the number n of partitions (number n of air conditioning control units) is set to 6, and the set value acquisition unit 1 sets the temperature set values SP1 = 25.0 ° C. and SP2 = 24 from the air conditioning control units 8-1 to 8-6. Assume that 0.0 ° C., SP3 = 26.0 ° C., SP4 = 21.0 ° C., SP5 = 28.0 ° C., and SP6 = 23.0 ° C. are acquired (step S1 in FIG. 2).
The index value extraction unit 2 extracts the maximum value SPa = 28.0 ° C. and the minimum value SPb = 21.0 ° C. from the temperature setting values SP1 to SP6 (step S2).

For example, when the fixed range α = 2.0 ° C. and the upper limit color is red, the upper limit color defining unit 5 defines a temperature of 30.0 ° C. or more as a temperature expressed in red (step S3).
When the fixed range α is 2.0 ° C. and the lower limit color is blue, the lower limit color defining unit 6 defines a temperature of 19.0 ° C. or less as a temperature expressing blue (step S4).
The temperature distribution display unit 7 displays the temperature distribution of the control target space in gradation based on the room temperature measurement values PV1 to PV6 and the rules determined by the upper limit color defining unit 5 and the lower limit color defining unit 6 (step S5). .

  As described above, according to the present embodiment, a temperature equal to or higher than a value obtained by adding a fixed range to the maximum value of the temperature setting value SP is defined as the temperature expressed by the upper limit color, and the minimum value of the temperature setting value SP is set. By defining the temperature below the value obtained by subtracting the fixed range from the temperature expressed as the lower limit color, the necessary difference in the temperature distribution can be presented while avoiding excessive emphasis on the temperature distribution. As described above, the upper and lower limit colors of the gradation display can be automatically adjusted.

  The present invention is applicable to any gradation image display of temperature distribution when air conditioning control is performed based on the temperature setting value SP. In other words, it is not limited to the case where the boundary lines of the sections are blurred and displayed as a gradation image in a pseudo temperature distribution, but the temperature distribution is obtained by analyzing the air flow using CFD (Computational Fluid Dynamics) and displayed as a gradation image. It can also be applied to such cases. That is, obtaining the temperature set value SP and the temperature measurement value PV from the air conditioning control unit is not an essential component of the present invention. It is only necessary to obtain the temperature set value SP set by the administrator, and the temperature measurement actually measured by the temperature sensor. Instead of the value PV, a temperature estimation value estimated by the temperature estimation means (computer that executes CFD) may be used.

  The maximum value SPa extracted by the index value extraction unit 2 shows a typical example of the upper limit side representative value SPU of the temperature set value SP, and the index value extraction unit 2 sets the upper limit side representative value of the temperature set value SP. The value SPU may be extracted, and the upper limit color defining unit 5 may define a temperature equal to or higher than the value obtained by adding the fixed range α to the upper limit side representative value SPU as a temperature expressed by the upper limit color. Instead of the maximum value SPa, the index value extraction unit 2 employs, for example, an average value of the maximum value SPa and the second largest value among the n temperature set values SP1 to SPn as the upper limit side representative value SPU. Also good.

  The minimum value SPb extracted by the index value extraction unit 2 represents a typical example of the lower limit side representative value SPL of the temperature set value SP, and the index value extraction unit 2 represents the lower limit side representative value of the temperature set value SP. The value SPL may be extracted, and the lower limit color defining unit 6 may define a temperature equal to or lower than a value obtained by subtracting the fixed range α from the lower limit side representative value SPL as a temperature expressed by the lower limit color. Instead of the minimum value SPb, the index value extraction unit 2 adopts, for example, an average value of the minimum value SPb and the second smallest value among the n temperature set values SP1 to SPn as the lower limit representative value SPL. Also good.

  The gradation display device described in this embodiment can be realized by a computer having a CPU, a storage device, and an interface, and a program for controlling these hardware resources. The CPU executes the processing described in the present embodiment in accordance with a program stored in the storage device.

  The present invention can be applied to a technique for gradation display of a temperature distribution.

  DESCRIPTION OF SYMBOLS 1 ... Setting value acquisition part, 2 ... Index value extraction part, 3 ... Fixed value registration part, 4 ... Upper / lower limit color registration part, 5 ... Upper limit color prescription | regulation part, 6 ... Lower limit color prescription | regulation part, 7 ... Temperature distribution display part.

Claims (4)

In the gradation display device that expresses the temperature distribution of the space as a color distribution by inputting n temperature measurement values or temperature estimation values PV1 to PVn that are air-conditioned .
Setting value acquisition means for acquiring temperature setting values SP1 to SPn which are air conditioning control target values set in advance for the temperature measurement values or the temperature estimation values PV1 to PVn;
index value extracting means for extracting the upper limit side representative value SPU and the lower limit side representative value SPL from the n temperature set values SP1 to SPn;
Fixed value registration means for preliminarily storing the fixed range α,
Upper and lower limit color registration means for preliminarily storing a lower limit color expressing the lower limit of the temperature and an upper limit color expressing the upper limit of the temperature;
Upper limit color defining means for defining a temperature equal to or higher than a value obtained by adding the fixed range α to the upper limit side representative value SPU as a temperature expressed by the upper limit color;
Lower limit color defining means for defining a temperature equal to or lower than a value obtained by subtracting the fixed range α from the lower limit side representative value SPL as a temperature expressed by the lower limit color;
And temperature distribution display means for gradation-displaying the temperature distribution based on the measured temperature values or estimated temperature values PV1 to PVn and the regulations determined by the upper limit color defining means and the lower limit color defining means. Gradation display device. The gradation display device according to claim 1,
The index value extraction means extracts the maximum value SPa of the temperature set values SP1 to SPn as the upper limit side representative value SPU, and sets the minimum value SPb of the temperature set values SP1 to SPn to the lower limit side representative value. A gradation display device characterized by being extracted as SPL. In the gradation display method for expressing the temperature distribution of the space as a color distribution by inputting n temperature measurement values or temperature estimation values PV1 to PVn that are air-conditioned ,
A set value acquisition step of acquiring temperature set values SP1 to SPn, which are air conditioning control target values set in advance for the temperature measured values or temperature estimated values PV1 to PVn;
an index value extracting step of extracting the upper limit side representative value SPU and the lower limit side representative value SPL from the n temperature set values SP1 to SPn;
An upper limit color defining step that defines a temperature equal to or higher than a value obtained by adding a predetermined fixed range α to the upper limit side representative value SPU as a temperature expressed by a predetermined upper limit color;
A lower limit color defining step for defining a temperature equal to or lower than a value obtained by subtracting the fixed range α from the lower limit side representative value SPL as a temperature expressed by a predetermined lower limit color;
A temperature distribution display step for gradation-displaying the temperature distribution based on the measured temperature values or estimated temperature values PV1 to PVn and the rules determined in the upper limit color defining step and the lower limit color defining step. Gradation display method. The gradation display method according to claim 3,
In the index value extraction step, the maximum value SPa of the temperature set values SP1 to SPn is extracted as the upper limit side representative value SPU, and the minimum value SPb of the temperature set values SP1 to SPn is extracted to the lower limit side representative value. A gradation display method characterized by extracting as SPL.

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