JPH0542949U - Airflow temperature measuring device for air intake - Google Patents

Abstract

(57) [Summary] [Purpose] To measure the temperature and air volume of the air blown out from the air conditioning air-conditioning port without much effort, and to easily adjust the air balance and temperature distribution of the air conditioning equipment. [Structure] Temperature measuring means 5a, 5b attached to the air suppression port 4 and displaying the temperature of the air blown out from the air suppression port 4.
And the temperature measuring means 5a and 5b, which are provided side by side
Due to the change in the state of the air flow according to the air blown from the
Air volume measuring means 6 for measuring the air volume of this blown air
a and 6b.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to an air flow temperature measuring device for an air intake, and particularly, it can easily measure the temperature and air flow (air velocity) of the air blown out from the air intake (air outlet) of an air conditioning facility or a ventilation equipment such as a building. The present invention relates to a device for measuring an air flow rate temperature.

[0002]

[Prior Art]

 When performing trial run adjustments such as adjusting the air balance and adjusting the temperature distribution when a building is completed, conventionally, anemomasters, rod thermometers, Asman-type ventilation psychrometers, impeller-type wind speed measuring devices, smoke-type airflow detectors were used. The temperature and air volume of the air blown out from the air intake was measured by such means.

[0003]

[Problems to be solved by the device]

 In the above-mentioned conventional technique, since the air inlets are usually provided at a plurality of positions on the ceiling, it takes a considerable amount of time and labor to measure the temperature and air volume of the air in all the air inlets. Further, in the conventional technology, the measurement results at each air inlet are recorded as data, and after the measurement of all the air inlets is completed, the measured data are relatively compared and the performance of the air conditioning equipment is compared. It takes a considerable amount of time to understand the performance because it is known. In particular, if the air inlets are systematized from the same blower, controlling the airflow of one system causes the airflow of the other system to change in a correlated manner. , Again, the air blown from each air intake must be measured. Therefore, the number of measurements increases, which is troublesome. Further, as a conventional technique, there is a self-recording device, but the device is expensive and the preparation for measurement takes time and effort. In particular, it is practically impossible if there are many on-site completions or a building with many measurement targets.

Therefore, the present invention has been made in view of the above-mentioned problems of the prior art, and the purpose thereof is to measure the temperature and the air volume of the air blown out from the air intake port without much labor. In addition to the above, it is easy to adjust the air balance and temperature distribution of the air conditioning equipment.

[0005]

[Means for Solving the Problems]

 In order to achieve the above-mentioned object, the device for measuring the air flow rate temperature of the air intake port of the present invention is provided at a predetermined position of the air intake port of an air conditioner, and the temperature and the air blown from the air intake port In an air flow rate temperature measuring device for measuring an air flow rate, it comprises an adhesive base plate attached to an air restraint, a heat insulating member attached to the adhesive base plate, and a liquid crystal thermometer attached to the heat insulating member. The temperature measuring means for displaying the temperature of the air blown out from the air inlet and the temperature measuring means, which are installed together with the temperature measuring means, change the state of the air blown out according to the air blown out of the air inlet to blow out the air blown out. And an air volume measuring means for measuring the air volume of. Further, the liquid crystal thermometer displays a color corresponding to the temperature of the air blown out from the air inlet. Further, the liquid crystal thermometer displays a numerical value corresponding to the temperature of the air blown from the air inlet.

[0006]

[Action]

 In the above air flow rate temperature measuring device for the air inlet, a liquid crystal thermometer is attached to the air inlet, and the temperature of the blown air is displayed on this liquid crystal thermometer. It can be easily done by visual inspection. In particular, when adjusting the temperature distribution in the room by grasping the temperature of the air blown out from the air openings installed in multiple locations in the same room, the temperature is displayed on the liquid crystal thermometer of the adjacent air openings. Since the contents can be viewed, the temperature inside the room can be adjusted while comparing the temperatures relatively. Further, since the adhesive substrate is attached to the measuring device, the measuring device can be easily attached and fixed to the side surface of the air control opening. Further, since the measuring device is provided with the heat insulating member, it is possible to prevent the heat from the air inlet from being conducted to the liquid crystal thermometer, and it is possible to accurately measure the temperature of the blown air. Further, since the measurement of the air volume by the air volume measuring means is carried out by visually observing the change state of the blowing angle, the measurement of the air volume is easy. In particular, when adjusting the air balance in the room by grasping the air volume of the air blown out from the air inlets located at multiple positions in the same room, change the air outlet angle of the adjacent air outlets. Since it is visible, it is possible to adjust the air balance in the room while comparing the air volumes relative to each other. Further, the liquid crystal thermometer displays a color corresponding to the temperature of the air blown from the air control port, and the temperature is notified by the color, so that the temperature can be easily grasped. In particular, it is easy to make a relative comparison of the temperatures of the air inlets at multiple positions. Further, since the liquid crystal thermometer displays a numerical value corresponding to the temperature of the air blown out from the air inlet, the temperature can be strictly adjusted.

[0007]

【Example】

 An embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a perspective view of the measuring instrument of the present invention when it is attached to an air conditioning air inlet. FIG. 2 is a cross-sectional view when the measuring device is attached to the air conditioning air intake. An air conditioning duct 2 is installed above the ceiling member 1 of the building. The air-conditioning duct 2 is provided with an air suppression port box 3. An air conditioning control port 4 is provided below the ceiling member 1. The air sent from the blower (not shown) passes through the air conditioning duct 2 and the air suppression port box 3 and is blown out from the air conditioning air conditioning port 4 in the direction shown by the arrow in FIG. The air conditioning air intakes 4 are usually installed at a plurality of positions on the ceiling of the building to perform air conditioning in the room. A temperature measuring device 5a or a temperature measuring device 5b is attached to a predetermined position of the air conditioning air intake 4.

As shown in FIG. 3, the temperature measuring device 5a includes a contact substrate 7 made of magnet rubber or the like, a heat insulating member 8 made of a urethane material or the like, and a coated substrate 9 coated with liquid crystal paint. , Liquid crystal thermometers 10 for displaying colors corresponding to the temperatures are laminated. The adhesive substrate 7 uses a magnet when the air conditioning air inlet 4 is made of iron plate, but uses an adhesive when the air conditioning air inlet 4 is made of resin. In this case, for example, a double-sided tape or a suction cup may be used. The liquid crystal thermometer 10 displays a color corresponding to the temperature of the air blown out from the air conditioning air intake 4 by the liquid crystal paint applied to the application substrate 8. For example, when the temperature of the blown air is 22 degrees, it is green, when it is 24 degrees, it is turquoise, when it is 26 degrees, it is dark blue, and when it is 27 degrees, it displays purple, and the color corresponding to the temperature change is displayed. ..

Further, as shown in FIG. 4, the temperature measuring device 5b includes an adhesive substrate 7 formed of magnet rubber, a heat insulating member 8 formed of urethane material, and a coated substrate coated with liquid crystal paint. 9. A liquid crystal thermometer 11 for displaying a numerical value corresponding to a temperature change and a liquid crystal thermometer 10 for displaying a color corresponding to a temperature change are laminated. The liquid crystal thermometer 11 displays a numerical value corresponding to the temperature of the air blown out from the air conditioning air intake opening 4 by the liquid crystal film. For example, as shown in FIG. 4 (b), when the temperature of the air blown from the air intake port 4 is 24 degrees, the numeral 24 is raised. Further, at the same time as the numerical value is displayed by the liquid crystal thermometer 11, the color corresponding to the blown air is also displayed by the liquid crystal thermometer 10.

The temperature measuring instruments 5a and 5b are provided with air flow measuring instruments 6a and 6b, respectively. The details of the installation state of the air volume measuring device 6a are shown in FIG. 3 (b), and the details of the installation state of the air volume measuring device 6b are shown in FIG. 4 (b). The air flow rate measuring devices 6a and 6b are formed of an extremely light material such as a resin film, gelatin paper, and paraffin paper, and blown air constitutes a so-called windsock. Depending on the air volume of the air blown out from the air conditioning air intake 4, the air flow rate measuring devices 6a and 6b change the air flow state. Therefore, by visually observing the angle of the wind blow, the state of the air volume, speed, and direction of the blown air can be determined.

Further, by adjusting the length of the blow-off portion, it is possible to cope with the magnitude of the air volume and the like. The air flow rate measuring devices 6a and 6b can be repeatedly used as long as there is no damage to the blow-off part. If the air flow rate measuring devices 6a and 6b are detachably attached to the temperature measuring devices 5a and 5b (for example, they are attached with clips), the blowout portion that is more easily damaged than the temperature measuring devices 5a and 5b is used as a consumable material. It becomes possible to exchange.

Next, a method of adjusting the indoor air balance and the temperature distribution by using the temperature measuring devices 5a and 5b and the air volume measuring devices 6a and 6b will be described. Normally, air conditioning air intakes 4 are provided at a plurality of positions on the ceiling of a building interior. Then, it is necessary to adjust the air balance and the temperature distribution in the room. At this time, the air flow rates and temperatures of the air blown out from the air conditioning air intake openings 4 are relatively compared. After performing this pairwise comparison, the air volume or temperature of each air conditioning air intake 4 is adjusted to adjust the air balance and temperature distribution throughout the room.

Therefore, first, the temperature of the air blown out from each air conditioning air intake 4 is visually determined by the temperature measuring device 5a or the temperature measuring device 5b. According to the temperature measuring device 5a, a color corresponding to the temperature of the blown air is displayed. According to the temperature measuring device 5b, the temperature of the blown air is displayed as a numerical value. By adjusting the temperature of the air blown out from each air conditioning vent 4 based on the color or numerical value displayed on the temperature measuring device 5a, 5b attached to each air conditioning vent 4, Adjust the temperature distribution.

Further, the air volume measuring device 6a or the air volume measuring device 6b determines the air volume of the air blown out from each air conditioning air intake 4. Adjusting the amount of air blown out from each air conditioning air intake 4 based on the airflow angle of the airflow meter 6a or airflow meter 6b attached to each air conditioning air intake 4 respectively. To adjust the air balance of the entire room. Here, normally, the air blown out from each air conditioning control port 4 is systematically sent from the same blower (not shown), so the air volume of the air blown out from one air conditioning control port 4 Adjusting the temperature affects the air volume and temperature of the other air conditioning air intake 4. Therefore, the air balance and the temperature distribution of the entire room are adjusted by repeating the visual discrimination of the temperature measuring devices 5a and 5b and the air volume measuring devices 6a and 6b and the adjustment of the temperature and the air volume of each air conditioning air inlet 4.

When adjusting the air balance and temperature distribution in the room, it is preferable to mount the temperature measuring devices 5a and 5b and the air flow measuring devices 6a and 6b at the same positions of the air conditioning air intakes 4. Further, if the temperature measuring devices 5a and 5b and the air volume measuring devices 6a and 6b are attached at four positions and four directions of one air conditioning air intake 4, more precise adjustment can be performed. Further, the temperature measuring devices 5a and 5b and the air flow measuring devices 6a and 6b may be attached not only to the air conditioning air intake 4 but also to the air intake of the ventilation equipment.

According to this embodiment, for example, if the temperature measuring devices 5a and 5b and the air volume measuring devices 6a and 6b are installed at the time of the completion inspection of the building, the air volume and the temperature You can always check the status. Further, the states of the air blown out from the plurality of air conditioning air intakes 4 can be compared and discriminated by the visual observation of one measurer. As a result, it is possible to easily adjust the air balance and the temperature distribution when adjusting the trial operation of the air conditioning equipment. In addition, it is easy to install a measuring instrument in the air conditioning air intake.

[0017]

[Effect of the device]

 According to the present invention, since the liquid crystal thermometer is attached to the air inlet and the temperature of the blown air is displayed on this liquid crystal thermometer, the temperature can be easily measured by visually observing the liquid crystal display meter. It can be carried out. In particular, when adjusting the temperature distribution in the room by grasping the temperature of the air blown out from the air vents installed at multiple locations in the same room, you can visually check the contents displayed on the adjacent liquid crystal thermometer. Therefore, the temperature distribution in the entire room can be adjusted while comparing the temperatures relatively. Further, since the measurement of the air volume by the air volume measuring means is carried out by visually observing the change state of the blowing angle, the measurement of the air volume is easy. In particular, when adjusting the air balance in the room by grasping the air volume of the air blown out from the air inlets located at multiple positions in the same room, change the air outlet angle of the adjacent air outlets. Since it is visible, it is possible to adjust the air balance of the entire room while comparing the air volumes relative to each other.

[Brief description of drawings]

FIG. 1 is a perspective view of a measuring instrument according to the present invention when installed in an air conditioning vent.

FIG. 2 is a cross-sectional view when the measuring device according to the present invention is installed in an air conditioning air intake.

FIG. 3 is a detailed view of measuring devices 5a and 6a according to the present invention.

FIG. 4 is a detailed view of measuring devices 5b and 6b according to the present invention.

[Explanation of symbols]

 4 Air-conditioning air intake port 5 Temperature measuring device 6 Air volume measuring device 7 Adhesive substrate 8 Thermal insulation member 10 Liquid crystal thermometer 11 Liquid crystal thermometer

Claims (3)

[Scope of utility model registration request] Claim: What is claimed is: 1. An air flow rate temperature measuring device, which is provided at a predetermined position of an air-conditioning facility such as an air-conditioning facility and measures the temperature and air volume of air blown from the air-conditioning facility. Substrate, a heat insulating member attached to this adhesive substrate, and a liquid crystal thermometer attached to this heat insulating member, and a temperature measuring means for displaying the temperature of the air blown out from the air control opening, Attached to the temperature measuring means,
An air flow rate temperature measuring device for an air intake port, comprising: an air flow rate measuring means for measuring an air flow rate of the air blown out according to a change in a blowing state according to air blown out from the air intake port. 2. The airflow temperature measuring device according to claim 1, wherein the liquid crystal thermometer displays a color corresponding to the temperature of the air blown out from the air inlet. 3. The airflow temperature measuring device according to claim 1, wherein the liquid crystal thermometer displays a numerical value corresponding to the temperature of the air blown out from the air inlet.