JP2002022848A - Multiple environment meter - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a multiple environment meter which senses the generation rate of static electricity (electric shock) in the (low-temperature and low- humidity) winter season and which multiply displays a discomfort degree (index) in the (high-temperature and high-humidity) summer season together with temperature and humidity. SOLUTION: By using a difference in the expansion and contraction state due to the temperature or the humidity of a metal or the like, a thermometer and a hygrometer are combined, and a discomfort index (degree) region in the summer season and a static electricity (generation) region in the winter season are multiply displayed (in an analog type and a digital type) by a measuring instrument.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention expands the range of use of a temperature and a hygrometer by displaying a conventional temperature and a hygrometer together with a summertime discomfort (index) and a winter static (generation rate) in a multi-display manner. Things.

[0002]

2. Description of the Related Art Conventionally, an uncomfortable (exponential) meter, a thermometer and a hygrometer due to an increase in temperature and humidity are displayed individually, and static electricity (electric shock) due to a decrease in temperature and humidity. ) The rate was determined empirically, but there was no indication as a guide.

[0003]

SUMMARY OF THE INVENTION Temperature and humidity (temperature 12
(° C or more, humidity 60% or more) increases, the environment becomes uncomfortable, and the growth and development of microorganisms and fungi become active. There was no display that was easy to understand and used as a guide for judging and responding. In winter, when the temperature and humidity decrease, the rate of generation of static electricity increases due to the decrease in the moisture content in the atmosphere, and the discharge rate of the space decreases.In addition, the frequency of using chemical products increases, and due to static electricity, The environment in which the electric shock is caused is likely to cause an unpleasant experience, which is likely to occur. There was no indication that it was easy to understand and needed to judge the generation of static electricity (electric shock).

[0004]

[Means for solving the problem] Combining a thermometer and a hygrometer, the discomfort (index) range in summer (temperature 25 ° C or higher, humidity 60% or higher) and the range of electric shock due to static electricity in winter (temperature 12 ° C or lower, By displaying the discomfort index and static electricity generation rate (by analog or digital method) together with the display of temperature and humidity (55% or less), it is easy to understand the atmospheric (space) environment with one instrument. Displays the judgment criteria.

[0005]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Two-axis, coaxial type, electronic type, and an electrostatic meter according to the present invention will be described. 2-axis type (9)
Are formed by using the characteristics (expansion and contraction rate, expansion rate) of different metals and the like shown in the internal structure (8) to form a vortex, and using two devices each for two hands ( Display the numerical value according to 2). Similarly, coaxial type (7)
Indicates a numerical value by a formation guideline (2) in a structure in which a thermometer and a hygrometer having an internal structure (8) are superimposed on one axis. The electronic type displays the information data of the temperature and humidity sensors, respectively, and sets the level (discomfort range -12 ° C; 55 ° C).
% Or less (electric shock area -12 ° C; 55% or less), and an alarm (warning sound) is sounded by an alarm circuit that displays the degree of discomfort (index) and the rate of static electricity generation (electric shock). FIG.
Is an example of the internal configuration of a static electricity (electric shock) meter, which uses coaxial data and uses the temperature and hygrometer combination to generate static electricity (rate) in a lower temperature and lower humidity range as data.

[0006]

According to the present invention, in the winter, when the degree of discomfort (index) is numerically displayed due to the high temperature and high humidity in the summer, the rise in the rate of static electricity and the decrease in the rate of discharge to space due to the decrease in temperature and humidity reduce the rate of electric shock. Increased empirically, but judging cautiously, the status of the atmospheric (space) environment, which had no general guideline, can be easily grasped by the caution display, and pay attention to static electricity (electric shock) occurrence rate and discomfort (index) degree Can respond.

[0007]

DESCRIPTION OF THE PREFERRED EMBODIMENTS The instrument described with reference to the two-axis type thermo-hygrometer (9) of FIG. 1 is an example having an internal structure (8). Shows discomfort index,
In addition, the other end of the meter displays humidity at one end and the static electricity generation rate at the other end in a multi-line, and the level range is displayed by color coding and dividing lines to make it easier to grasp the environment. The static electricity generation rate varies depending on the relationship between temperature and humidity. By utilizing this relationship, a thermometer and a hygrometer are combined to form an electrostatic meter (FIG. 6 is an example).

[Brief description of the drawings]

FIG. 1 shows a conventional type comprising three instruments (temperature and humidity, discomfort index meter).

FIG. 2 shows a structure of a sensor in which metals are united in a spiral shape.

FIG. 3 shows a two-axis type (temperature / humidity, discomfort index meter, electrostatic meter).

FIG. 4 shows a coaxial type in which two instruments are stacked on one axis.

FIG. 5 shows an electronic system (block diagram).

FIG. 6 shows an example of an electrostatic (electric shock) meter.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Thermometer 2 Pointer 3 Display scale 4 Hygrometer 5 Discomfort index meter 6 Electrostatic meter 7 Coaxial type 8 Internal structure A-Stop (fixed) metal fitting D-Temperature (winding) joining material B-Joining material (winding) E -Humidity (winding type) joining material C-Rotary pointer push shaft 9 2-axis type

Claims (2)

[Claims] (1) In winter, a decrease in temperature causes a decrease in the allowable amount of water in the atmosphere (space) environment and a decrease in humidity, thereby increasing the generation of static electricity (electric shock). The state which has fallen below% is displayed on an instrument (analog and digital) as a caution area for static electricity (electric shock). 2. A combination of a thermometer and a hygrometer (including an electronic type). A discomfort (index) area in summer and a static electricity (electric shock) generation area in winter are multi-displayed together with temperature and humidity (analog and digital display). Thermo-hygrometer.