JP2536559Y2 - Humidity temperature pressure gauge - Google Patents

Description

[Detailed description of the invention] [Industrial application field] This invention is used to detect and control the dehumidification state of compressed air in a factory or the like, for example. It is about a total.

2. Description of the Related Art Conventionally, optical hygrometers and oxide-film type hygrometers are generally known as hygrometers used for detecting the humidity of a gas to be detected such as compressed air in a factory or the like.

An optical hygrometer cools a mirror placed in a gas to be detected, such as compressed air, with an electronic cooler, irradiates light to the mirror surface of the mirror, and generates water droplets on the mirror surface by reflection of light. It is configured to detect and display the humidity at that time according to the amount of reflection.

The oxide film type hygrometer utilizes the fact that the capacitance between the electrodes changes due to water molecules entering between the interdigital electrodes in the gas to be detected such as compressed air. Is converted to the amount of water in the gas atmosphere to display the humidity.

[Problem to be Solved by the Invention] However, in each of the above-mentioned hygrometers, since the hygrometer is divided into a detection device and a display device, the structure becomes complicated and extremely expensive, and compressed air in the factory is compressed. Could not be installed everywhere in the piping for the gas to be detected. In addition, the detection device of the hygrometer is large and cannot be directly mounted on the piping for the gas to be detected, and it is necessary to connect the detection device to the piping via a joint or a conduit. Was troublesome. Furthermore, since it is necessary to perform detection while leaking the gas to be detected from the detection device, a loss has occurred in the gas to be detected. Furthermore, since the power consumption of the detection device and the display device is large, the running cost burden is large and the wiring of the power supply is required.

In addition, as a method for easily detecting the humidity of a gas to be detected such as compressed air, a method using a blue silica gel whose color changes due to a change in humidity is conventionally known. However, there is a problem that it is difficult for an amateur to detect the humidity of the gas to be detected clearly.

Furthermore, the biggest reason for detecting the humidity of a gas to be detected such as compressed air in a factory is that moisture in the gas to be detected is dewed and does not cause problems such as malfunction of fluid pressure devices such as cylinders and generation of rust. This is for proper management. However, any of the above-mentioned hygrometers has a problem that it is not easy to grasp at what temperature or pressure moisture in the gas to be detected forms dew, and there is a problem in terms of management of fluid pressure equipment. .

The present invention has been made in view of the problems existing in the prior art. The purpose of the invention is to have a simple structure and inexpensive, and at the same time, the whole is compact and the detection target gas is not required. It can be directly attached and connected to the pipe line, and furthermore, the gas to be detected can be detected clearly without causing any loss in the gas to be detected or requiring large power consumption. Another object of the present invention is to provide a humidity-temperature manometer capable of allowing an operator to easily grasp the dew point of a gas to be detected and appropriately and quickly managing various fluid pressure devices.

Means for Solving the Problems In order to achieve the above object, according to the present invention, a gas to be detected is provided in a pressure vessel having an inflow port into which a gas to be detected under pressure flows into a part of the outside. Humidity detector for detecting the humidity of a gas, a temperature detector for detecting the temperature of the gas to be detected, a pressure detector for detecting the pressure of the gas to be detected, the humidity detector, and the temperature detector And a display device for displaying each detection result detected by the pressure detector.

[Operation] By the above means, the inlet of the pressure vessel can be connected via a joint or the like to the piping of the gas to be detected such as compressed air in the factory, and the hygrometer can be directly mounted on the piping. . In this state, the gas to be detected in the pipe line flows into the pressure vessel from the inlet, and the humidity, temperature and pressure of the gas to be detected are detected by the humidity detector, the temperature detector and the pressure detector, respectively. The respective detection results are displayed on the display device. Therefore, the dew point under pressure of the gas to be detected in the pipeline can be easily grasped based on the detection results related to the humidity and the temperature displayed on the display device, and the detection results related to the pressure are integrated. By doing so, the dew point of the gas to be detected in the pipeline under the atmospheric pressure can be easily grasped. As a result, appropriate management can be performed so that moisture in the gas to be detected does not condense and cause problems such as malfunction of fluid pressure devices such as cylinders and rust. Appropriate management can be performed so that the moisture in the gas to be detected is not condensed when supplied to the various devices, and problems such as malfunction of the various devices and generation of rust, dirt and the like do not occur.

[Embodiment] An embodiment of the present invention will be described below with reference to FIGS. 1 and 2.

As shown in FIGS. 1 and 2, the pressure vessel 1 is formed in a substantially cylindrical shape with an open front surface, and a screw portion 2 is provided on the outer periphery of the front end. A glass plate 3 for forming a see-through window is fitted into a front opening of the pressure vessel 1 via a packing 4, and is hermetically sealed and detachable by screwing a tightening ring 5 to the screw portion 2. It is fixed to. The inflow port 6 for the gas to be detected is formed so as to protrude on the outer periphery of the lower end of the pressure vessel 1, and a screw portion 7 is provided on the outer periphery of the lower end.

The mounting plate 8 is disposed in the pressure vessel 1 and the glass plate 3
And extend parallel to and in close proximity to. Humidity detector 9 is mounting plate 8
Is attached to the rear surface of the pressure vessel 1 by the humidity detector 9.
The humidity of the gas to be detected in the inside is detected. An analog humidity display device 10 is provided on the front surface of the mounting plate 8 and includes a pointer 11 connected to the humidity detector 9 and a scale 12 provided on the front surface of the mounting plate 8 corresponding to the pointer 11. It is configured.

A bimetal-type temperature detector 18 is provided on the rear surface of the mounting plate 8.
And an analog temperature display device 19 is provided at the front of the mounting plate 8. Temperature display 19
Is a pointer 20 connected to the bimetallic temperature detector 18
And a scale 21 provided on the front surface of the mounting plate 8 corresponding to the pointer 20.

Further, a Bourdon tube pressure detecting device 23 is provided on the rear surface of the mounting plate 8.
And a pressure display device 24 is provided at the front of the mounting plate 8. The pressure display device 24 includes a pointer 25 connected to the pressure detection device 23, and a scale 26 provided on the front surface of the mounting plate 8 corresponding to the pointer 25.

Next, the operation of the humidity / temperature / pressure gauge configured as described above will be described.

When this humidity / temperature gauge is installed in a piping for a gas to be detected such as compressed air in a factory, the inlet 6 of the pressure vessel 1 is connected to the piping via a T-shaped joint or the like. Thereby, it can be directly mounted on the piping path. Then, in this installed state, the gas to be detected in the pipe line flows into the pressure vessel 1 from the inflow port 6, the humidity of the gas to be detected is detected by the humidity detector 9, and the pointer 11 of the humidity display device 10 It is displayed through the glass plate 3. Therefore,
By reading the display position of the scale 12 by the pointer 11, the humidity of the gas to be detected in the pipe line can be clearly identified.

The temperature of the gas to be detected flowing into the pressure vessel 1 is detected by the bimetallic temperature detector 18 and is displayed through the glass plate 3 by the pointer 20 of the temperature display device 19. Therefore, by reading the display position of the scale 21 by the pointer 20, the temperature of the gas to be detected in the pipe line can be clearly identified. As a result, the humidity and temperature of the gas to be detected such as compressed air can be detected simultaneously, and the humidity under pressure at the temperature of the gas to be detected can be recognized, and the dew point can be easily calculated.

Further, the pressure of the gas to be detected flowing into the pressure vessel 1 is
It is detected by the Bourdon tube pressure detecting device 23 and is displayed through the glass plate 3 by the pointer 25 of the pressure display device 24.
Therefore, by reading the display position of the scale 26 by the pointer 25, the pressure of the gas to be detected in the pipe line can be clearly identified. As a result, the humidity, temperature and pressure of the gas to be detected such as compressed air can be simultaneously detected,
The dew point of the detected gas under the atmospheric pressure can be easily calculated. That is, by recognizing the temperature and the humidity, the dew point under pressure can be known, and further, by knowing the pressure, the dew point can be converted into the dew point at the atmospheric pressure, and the dew point can be grasped as usual.

Note that the present invention is not limited to the configuration of the above-described embodiment, and a humidity detector 9 or a humidity detector 10 having a configuration different from that of the above-described embodiment may be used, or a digital display device may be used. The configuration of each unit can be arbitrarily changed and embodied without departing from the spirit of the present invention, for example, by using.

[Effects of the Invention] As described in detail above, according to the invention, the structure is simple and inexpensive, and the whole can be made compact so that it can be directly mounted and connected to the piping of the gas to be detected. In addition, there is no loss in the gas to be detected and no large power consumption is required. In addition, the dew point of the gas to be detected in the pipeline under pressure can be easily grasped, and the moisture in the gas to be detected condenses, which causes problems such as malfunction of fluid pressure devices such as cylinders and rust. Appropriate management can be performed so as not to occur. Furthermore, the dew point of the gas to be detected in the piping path under atmospheric pressure can be easily known, and when the gas to be detected is supplied to various devices under atmospheric pressure, moisture in the gas to be detected is dewed. Appropriate management can be performed so as not to cause problems such as malfunction of the various devices and generation of rust, dirt, and the like.

[Brief description of the drawings]

FIG. 1 is a front view of a humidity temperature / pressure gauge, and FIG. 2 is a sectional view thereof. 1 ... pressure vessel, 6 ... inlet, 9 ... humidity detector, 10
... a humidity display device constituting a display device, 18 ... a temperature detector, 19 ... a temperature display device constituting a display device, 23 ... a Bourdon tube pressure detector as a pressure detector, 24 ... a display device The pressure display to configure.

Continuation of the front page (56) References JP-A-63-137729 (JP, A) JP-A-2-301578 (JP, A) JP-A 64-3409 (JP, A) JP-A-50-115577 (JP) , A) JP-A-55-142230 (JP, A) JP-A-63-137729 (JP, A) JP-A-2-83015 (JP, A) Fully open 1979-97543 (JP, U) Really open 60-15621 (JP, U) Fully open Showa 56-79853 (JP, U) Fully open Showa 55-104329 (JP, U)

Claims (1)

(57) [Scope of request for utility model registration] A pressure detecting device for detecting the humidity of a gas to be detected is provided in a pressure vessel (1) provided with an inlet (6) through which a gas to be detected under pressure flows into a part of the outside. 9) a temperature detector (18) for detecting the temperature of the gas to be detected;
Pressure detector (23) for detecting the pressure of the gas to be detected
And a display device (10, 19, 24) for displaying each detection result detected by the humidity detector (9), the temperature detector (18) and the pressure detector (23). Humidity temperature manometer.