JP2016057251A - Dust generation amount prediction device, indoor dust generation amount prediction system, dust generation amount prediction method, and indoor dust generation amount prediction method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an analysis method of solid propagation vibration capable of precisely analyzing in a short time even on a large scale structure.SOLUTION: A dust generation amount prediction device 1 includes: an input part 10 which has a human body dust generation spot setting part 11 for setting a dust generation spot of the human body, and a human body dust generation rate setting part 12 for setting a dust generation rate of the dust generation spot which is set by the human body dust generation spot setting part 11; a calculation part 20 for calculating the prediction dust generation amount which is inputted from the input part 10 based on the dust generation spot and the dust generation rate; and an output part 30 for outputting the prediction dust generation amount from the human body, which is calculated by the calculation part 20.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a dust generation amount prediction device that predicts dust generation from a human body, an indoor dust generation amount prediction system that predicts dust generation at a plurality of locations in a room, a dust generation amount prediction method, and an indoor dust generation amount prediction method.

  2. Description of the Related Art Conventionally, a technique for detecting the presence or absence of a human body in a room that requires clean air such as a clean room and controlling the operation of an air conditioner has been disclosed.

JP-A-7-318143

  However, the technique described in Patent Document 1 is difficult to accurately predict the dust generation state from the human body, and cannot detect dust or the like partially generated in the room. It has been difficult to use for systems that require air purification.

  The present invention solves the above-described problems, and a dust generation amount prediction apparatus and a dust generation amount prediction method capable of accurately predicting a dust generation state from a human body, and an accurate prediction of a partial dust generation state in a room. It is an object of the present invention to provide an indoor dust generation amount prediction system and an indoor dust generation amount prediction method that can be performed.

The dust generation amount prediction apparatus according to the present invention is
An input unit having a human body dust generation location setting section for setting a human body dust generation location setting section and a human body dust generation ratio setting section for setting the dust generation ratio of the dust generation location set by the human body dust generation location setting section;
A calculation unit that calculates a predicted dust generation amount based on the dust generation point and the dust generation ratio input from the input unit;
An output unit that outputs a predicted dust generation amount from the human body calculated by the calculation unit;
It is characterized by providing.

Moreover, the dust generation amount prediction apparatus according to the present invention is
The dust generation ratio is set for at least two of the dust generation locations.

Moreover, the indoor dust generation amount prediction system according to the present invention is:
A system input unit including the dust generation amount prediction device;
A system calculation unit that calculates the predicted dust generation amount at a plurality of positions in the room from the information input from the system input unit;
An output unit that outputs predicted dust generation amounts at a plurality of positions in the room calculated by the system calculation unit;
It is characterized by providing.

Moreover, the indoor dust generation amount prediction system according to the present invention is:
The system input unit is
The dust generation amount predicted by the dust generation amount prediction device;
The indoor shape;
The air conditioning outlet position of the outlet of the air conditioning equipment used in the room,
The position of the human body present in the room;
The position of the equipment present in the room;
Is input.

Moreover, the dust generation amount prediction method according to the present invention includes:
Set the dust generation location of the human body, set the dust generation rate of the set dust generation location,
Calculate the predicted dust generation amount from the human body by the dust generation location and the dust generation ratio,
The calculated predicted dust generation amount is output.

Moreover, the dust generation amount prediction method according to the present invention includes:
The dust generation ratio is set for at least two of the dust generation locations.

Moreover, the indoor dust generation amount prediction method according to the present invention includes:
Input the predicted dust generation amount output by the dust generation amount prediction method,
Calculate the predicted dust generation amount at multiple locations in the room from the input predicted dust generation amount,
The calculated dust generation amount at a plurality of positions in the room is output.

Moreover, the indoor dust generation amount prediction method according to the present invention includes:
The predicted indoor dust generation amount output by the indoor dust generation amount prediction method;
The indoor shape;
The position of the air-conditioning equipment outlet used in the room;
The position of the human body present in the room;
The position of the equipment present in the room;
And the predicted dust generation amount at a plurality of positions in the room is calculated.

According to the dust generation amount prediction apparatus according to the present invention,
An input unit having a human body dust generation location setting section for setting a human body dust generation location setting section and a human body dust generation ratio setting section for setting the dust generation ratio of the dust generation location set by the human body dust generation location setting section;
A calculation unit that calculates a predicted dust generation amount based on the dust generation point and the dust generation ratio input from the input unit;
An output unit that outputs a predicted dust generation amount from the human body calculated by the calculation unit;
So that
It is possible to accurately predict the dust generation state from the human body.

According to the dust generation amount prediction apparatus according to the present invention,
Since the dust generation ratio is set for at least two of the dust generation locations,
It becomes possible to predict the dust generation state from the human body more accurately.

According to the dust generation amount prediction system according to the present invention,
A system input unit including the dust generation amount prediction device;
A system calculation unit that calculates the predicted dust generation amount at a plurality of positions in the room from the information input from the system input unit;
An output unit that outputs predicted dust generation amounts at a plurality of positions in the room calculated by the system calculation unit;
So that
It is possible to accurately predict the partial dust generation state in the room.

According to the dust generation amount prediction system according to the present invention,
The system input unit is
The dust generation amount predicted by the dust generation amount prediction device;
The indoor shape;
The air conditioning outlet position of the outlet of the air conditioning equipment used in the room,
The position of the human body present in the room;
The position of the equipment present in the room;
Is entered,
It is possible to predict the dust generation state in the room more accurately.

According to the dust generation amount prediction method according to the present invention,
Set the dust generation location of the human body, set the dust generation rate of the set dust generation location,
Calculate the predicted dust generation amount from the human body by the dust generation location and the dust generation ratio,
Since the calculated predicted dust generation amount is output,
It is possible to accurately predict the dust generation state from the human body.

According to the dust generation amount prediction method according to the present invention,
Since the dust generation ratio is set for at least two of the dust generation locations,
It becomes possible to predict the dust generation state from the human body more accurately.

According to the indoor dust generation amount prediction method according to the present invention,
Input the predicted dust generation amount output by the dust generation amount prediction method,
Calculate the predicted dust generation amount at multiple locations in the room from the input predicted dust generation amount,
Since the predicted dust generation amount at multiple positions in the room is output,
It is possible to accurately predict the partial dust generation state in the room.

According to the indoor dust generation amount prediction method according to the present invention,
The predicted indoor dust generation amount output by the indoor dust generation amount prediction method;
The indoor shape;
The position of the air-conditioning equipment outlet used in the room;
The position of the human body present in the room;
The position of the equipment present in the room;
And calculate the predicted dust generation amount at multiple locations in the room.
It is possible to predict the dust generation state in the room more accurately.

An example of the dust generation amount prediction apparatus of this embodiment is shown. An example of the predicted dust generation part from the human body in the dust generation amount prediction apparatus of this embodiment is shown. The other example of the predicted dust generation location from the human body in the dust generation amount prediction apparatus of this embodiment is shown. An example of the indoor dust generation amount prediction system of this embodiment is shown. An example of the indoor model used for the indoor dust generation amount prediction system of this embodiment is shown. It is a graph which shows the dust generation amount calculated | required with the indoor dust generation amount prediction system of this embodiment at the time of setting to the dust generation location shown in FIG. It is a graph which shows the dust generation amount and actual value which were calculated | required with the indoor dust generation amount prediction system of this embodiment at the time of setting to the dust generation location shown in FIG.

  Hereinafter, embodiments of a dust generation amount prediction apparatus and an indoor dust generation amount prediction system according to the present invention will be described with reference to the drawings.

  FIG. 1 shows an example of a dust generation amount prediction apparatus 1 according to this embodiment.

  The dust generation amount prediction apparatus 1 of the present embodiment has a human body dust generation location setting unit 11 that sets the dust generation location of the human body and the dust generation ratio of each dust generation location of the human body set by the human body dust generation location setting unit 11. An input unit 11 having a human body dust generation ratio setting unit 12 to be set, and a calculation unit that calculates a predicted dust generation amount based on the dust generation ratio of the human body dust generation location and the human body dust generation location input from the input unit 11 20 and an output unit 30 that outputs the predicted dust generation amount calculated by the calculation unit 20.

  Thus, since the dust generation amount prediction apparatus 1 of this embodiment can set the dust generation location and ratio from the human body S, it becomes possible to accurately predict the dust generation state from the human body S. .

  FIG. 2 shows an example of a predicted dust generation location from the human body S in the dust generation amount prediction apparatus 1 of the present embodiment.

  In the example shown in FIG. 2, only the mouth of the human body S is set as a dust generation location of the human body. That is, the mouth dust generation D1 is set to 100% as the dust generation ratio.

  FIG. 3 shows another example of the predicted dust generation location from the human body S in the dust generation amount prediction apparatus 1 of the present embodiment.

  In the example illustrated in FIG. 3, it is set that dusts D <b> 1 to D <b> 4 are generated from each part of the human body S. For example, as shown in FIG. 3, mouth dust generation D1, neck dust generation D2, cuff dust generation D3, and hem mouth dust generation D4 are set. Then, each dust generation ratio is determined in advance, and the dust generation amount is predicted. It is preferable to set at least two locations. Further, the dust generation location is not limited to the four locations shown in FIG. 3 and may be other locations. Furthermore, you may determine each dust generation rate combining those places suitably.

  Thus, since the dust generation amount prediction apparatus 1 of this embodiment can set a ratio with respect to a plurality of dust generation locations, the dust generation state from the human body S can be predicted more accurately. Become.

  FIG. 4 shows an example of the indoor dust generation amount prediction system 50 of the present embodiment.

  The indoor dust generation amount prediction system 50 of the present embodiment includes a system input unit 60, a system calculation unit 70, and a system output unit 80, for example, as shown in FIG.

  The system input unit 60 inputs a room shape, an air-conditioning outlet position, a human body position, a device position, etc. in addition to the predicted dust generation amount of the human body S obtained by the dust generation prediction apparatus 1 shown in FIG. In addition, what is input from the input unit 2 is not limited thereto, and may be, for example, the air-conditioning blowing direction, the number of human bodies, and the like. Further, some of these inputs may be selected and combined.

  The system calculation unit 70 obtains the predicted dust generation amount at a predetermined position in the room R from the information obtained from the system input unit 60, and outputs it to the system output unit 80. The system output unit 80 outputs the predicted dust generation amount at a predetermined position in the room R calculated by the system calculation unit 70.

  As described above, the indoor dust generation amount prediction system 50 of the present embodiment can accurately predict the dust generation state from the human body S and accurately predict the partial dust generation state of the room R. In addition to the dust generation from the human body S, it is possible to more accurately predict the partial dust generation state in the room R by considering the indoor shape, air conditioning outlet position, human body position, equipment position, etc. Become.

  Next, a comparison between the predicted value of the dust generation amount and the actual measurement value of the actual dust generation amount in the indoor dust generation amount prediction system 50 of the present embodiment will be described. The measured values were formed in a room similar to the indoor model shown in FIG. 4, and the amount of dust generated on the floor 1 m above the observation points P1 to P13 was measured using a particle counter (not shown).

  FIG. 5 shows an example of an indoor model used in the indoor dust generation amount prediction system 50 of the present embodiment.

  The indoor dust generation amount prediction system 50 according to the present embodiment is, for example, a room R in which air conditioners A1 to A4, a table T1, or various devices M1 to M3 are arranged as shown in FIG. The situation where S1 to S9 are working is modeled, and the dust generation amount at the observation points P1 to P13 is predicted. The observation points P1 to P13 are preferably set as close to the human bodies S1 to S9 as possible.

  FIG. 6 is a graph showing a dust generation amount and an actual measurement value obtained by the indoor dust generation amount prediction system 50 of the present embodiment when the dust generation location shown in FIG. 2 is set.

  The horizontal axis of FIG. 6 shows each observation point P1-P13, and a vertical axis | shaft shows dust generation amount. However, the dust generation amount is dust having a diameter of 0.5 μm or more, and indicates the number of dust within 1 cubic foot. A square point indicates an actual measurement value, and a dust generation amount obtained from the indoor dust generation amount prediction system 50 of the present embodiment is indicated by a triangular point.

  As shown in FIG. 6, at each observation point P1 to P13, the dust generation amount and the actual measurement value predicted by the indoor dust generation amount prediction system 50 of the present embodiment show substantially the same result. That is, the indoor dust generation amount prediction system 50 using the dust generation amount prediction apparatus 1 of the present embodiment can predict the indoor dust generation amount with high accuracy without actually measuring the dust generation amount. Become. And it becomes possible to control an air-conditioning apparatus etc. with high precision based on the predicted dust generation amount in each position of the room R.

  FIG. 7 is a graph showing the dust generation amount and the actual measurement value obtained by the indoor dust generation amount prediction system 50 of the present embodiment when the dust generation location shown in FIG. 3 is set.

  The horizontal axis of FIG. 7 shows each observation point P1-P13, and a vertical axis | shaft shows dust generation amount. However, the dust generation amount is dust having a diameter of 0.5 μm or more, and indicates the number of dust within 1 cubic foot. A square point indicates an actual measurement value, and a dust generation amount obtained from the indoor simulation system 1 of the present embodiment is indicated by a triangular point.

  As shown in FIG. 7, at each observation point P1 to P13, the dust generation amount and the actual measurement value predicted by the indoor dust generation amount prediction system 50 of the present embodiment show substantially the same result. In particular, it is preferable that the difference between the predicted values and the actually measured values at the observation points P6 to P9 where the human body S exists among the observation points P1 to P13 of the indoor model shown in FIG. That is, the indoor dust generation amount prediction system 50 using the dust generation amount prediction apparatus 1 of the present embodiment does not actually measure the dust generation amount, and it is more accurate than the result shown in FIG. It becomes possible to predict the amount of dust. And it becomes possible to control an air-conditioning apparatus etc. with higher precision based on the predicted amount of dust generation at each position in the room R.

  According to the dust generation amount prediction device 1 of the present embodiment, the human body dust generation location setting unit 11 that sets the dust generation location of the human body S and the dust generation ratio of the dust generation locations set by the human body dust generation location setting unit 11 are set. An input unit 10 having a human body dust generation ratio setting unit 12, a calculation unit 20 that calculates a predicted dust generation amount based on a dust generation location and a dust generation ratio input from the input unit 10, and a human body S calculated by the calculation unit 20 The output unit 30 that outputs the predicted dust generation amount from the human body S can be accurately predicted.

  According to the dust generation amount prediction apparatus 1 of the present embodiment, since the dust generation ratio is set for at least two dust generation locations, the dust generation state from the human body S can be predicted more accurately.

  According to the dust generation amount prediction system 50 of the present embodiment, the system input unit 60 including the dust generation amount prediction device 1 and the predicted dust generation amounts at a plurality of positions in the room R from the information input from the system input unit 60 are obtained. Since the system calculation unit 70 that calculates and the output unit 80 that outputs the predicted dust generation amount at a plurality of positions in the room R calculated by the system calculation unit 70, the dust generation state from the human body S is accurately predicted, It is possible to accurately predict a partial dust generation state in the room R.

  According to the dust generation amount prediction system 50 of the present embodiment, the system input unit 60 includes the dust generation amount predicted by the dust generation amount prediction device 1, the shape of the room R, and the air outlet of the air conditioner A used for the room R. Since the position of the air-conditioning outlet, the position of the human body S present in the room, and the position of the device M present in the room R are input, it is possible to predict the dust generation state in the room R more accurately. Become.

  According to the dust generation amount prediction method of the present embodiment, the dust generation location of the human body S is set, the dust generation ratio of the set dust generation location is set, and the prediction from the human body S by the dust generation location and the dust generation ratio. Since the dust generation amount is calculated and the calculated predicted dust generation amount is output, the dust generation state from the human body S can be predicted more accurately.

  According to the dust generation amount prediction method of the present embodiment, since the dust generation ratio is set for at least two dust generation locations, the dust generation state from the human body S can be predicted more accurately.

  According to the indoor dust generation amount prediction method of the present embodiment, the predicted dust generation amount output by the dust generation amount prediction method is input, and the predicted dust generation amounts at a plurality of positions in the room R from the input predicted dust generation amount. And the calculated predicted dust generation amount at a plurality of positions in the room R is output, so that the partial dust generation state in the room R can be accurately predicted.

  According to the indoor dust generation amount prediction method of this embodiment, the predicted dust generation amount of the room R output by the indoor dust generation amount prediction method, the shape of the room R, and the air outlet of the air conditioner A used for the room R. , The position of the human body S present in the room R, and the position of the device M present in the room R, and the predicted dust generation amount at a plurality of positions in the room R is calculated. It becomes possible to predict the state more accurately.

  In addition, this invention is not limited by this embodiment. That is, in the description of the embodiments, many specific details are included for illustration, but those skilled in the art can add various variations and modifications to these details without departing from the scope of the present invention. It will be understood that this is not exceeded. Accordingly, the exemplary embodiments of the present invention have been described without loss of generality or limitation to the claimed invention.

DESCRIPTION OF SYMBOLS 1 ... Dust generation prediction apparatus 10 ... Input part 11 ... Human body dust generation location setting part 12 ... Human body dust generation ratio setting part 20 ... Calculation part 30 ... Output part 50 ... Indoor dust generation amount prediction system 60 ... System input part 70 ... System computing unit 80 ... System output unit R ... Indoor S ... Human body A ... Air conditioning M ... Equipment T ... Worktable P ... Observation point

Claims (8)

An input unit having a human body dust generation location setting section for setting a human body dust generation location setting section and a human body dust generation ratio setting section for setting the dust generation ratio of the dust generation location set by the human body dust generation location setting section;
A calculation unit that calculates a predicted dust generation amount based on the dust generation point and the dust generation ratio input from the input unit;
An output unit that outputs a predicted dust generation amount from the human body calculated by the calculation unit;
A dust generation amount prediction apparatus comprising: The dust generation amount prediction apparatus according to claim 1, wherein the dust generation ratio is set for at least two of the dust generation locations. A system input unit including the dust generation amount prediction device according to claim 1;
A system calculation unit that calculates the predicted dust generation amount at a plurality of positions in the room from the information input from the system input unit;
An output unit that outputs predicted dust generation amounts at a plurality of positions in the room calculated by the system calculation unit;
An indoor dust generation amount prediction system comprising: The system input unit is
The dust generation amount predicted by the dust generation amount prediction device;
The indoor shape;
The air conditioning outlet position of the outlet of the air conditioning equipment used in the room,
The position of the human body present in the room;
The position of the equipment present in the room;
Is input, the indoor dust generation amount prediction system according to claim 4. Set the dust generation location of the human body, set the dust generation rate of the set dust generation location,
Calculate the predicted dust generation amount from the human body by the dust generation location and the dust generation ratio,
A method for predicting a dust generation amount, wherein the calculated predicted dust generation amount is output. The dust generation amount prediction method according to claim 5, wherein the dust generation ratio is set for at least two of the dust generation locations. Input the predicted dust generation amount output by the dust generation amount prediction method according to claim 5 or 6,
Calculate the predicted dust generation amount at multiple locations in the room from the input predicted dust generation amount,
An indoor dust generation amount prediction method, characterized by outputting predicted dust generation amounts at a plurality of positions in a room. The predicted indoor dust generation amount output by the indoor dust generation amount prediction method;
The indoor shape;
The position of the air-conditioning equipment outlet used in the room;
The position of the human body present in the room;
The position of the equipment present in the room;
The indoor dust generation amount prediction method according to claim 7, wherein the predicted dust generation amount at a plurality of positions in the room is calculated.

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