KR930003658Y1 - Automatic manupulating apparatus by dew point of pressure air dehumidifier - Google Patents

Abstract

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Description

Automatic operation device by dew point of compressed air dehumidifier

1 is a main process chart of the compressed air dehumidifier according to the present invention.

Figure 2 is an arrangement state of the induction pipe according to the present invention.

3 is a main process diagram of a conventional compressed air dehumidifier.

Figure 4 is a detailed view of the compressed air dehumidification process as an embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

A, B: Dehumidifier 1: Induction tube

2: inlet hole 3,4,7: valve

5: dew point meter 6: signal line

8: muffler 9: control panel

CK: Check valve V-1: Suction shuttle valve

V-2: Pressure reducing valve PI: Pressure indicator

SW: Solenoid Valve S: Dew Point Senser

MI: Moisture Color Indicator

The present invention is to control the dehumidification tank switching by the dew point in the compressed air dehumidifier, by installing a dew point meter to control the reach of the set dew point from the outlet of the dehumidification tower and to prevent the top switching does not occur when the set (required) dew point or less. Therefore, the present invention relates to an automatic operation device based on a dew point of a compressed air dehumidifier, which reduces energy consumption and efficiently uses dry air required for regeneration.

Air dryer (dryer) is a device for drying the humid air to remove moisture and then supply it to the user. It is used for various production lines such as various automation equipment, semiconductor production equipment, and instruments that require dry air to remove moisture.

In other words, the compressed air dehumidifier is conventionally controlled only by humidity, and in general, an electronic valve for automatically operating the direction change valve and the direction change valve for alternately using two passes filled with an absorbent (adsorbent or desiccant). And a control panel with a built-in timer, and the direction switching side may use two, three, or four sides, which are automatically absorbed and regenerated at regular intervals by the switching period set in the control panel. The dehumidifier is designed to be switched under the precondition of using air with% humidity. Therefore, even if the condition (temperature, pressure, flow rate) of the inlet wet air to be dehumidified is less than 100%, the dehumidifier is The barrel is switched.

The switched dehumidification vessel needs regenerated air for discharging moisture, which is used by expanding the compressed compressed air under reduced pressure.

The compressed air dehumidifier is to induce perfect regeneration by appropriately using the energy (dry air, or electricity, steam, etc.) necessary for the regeneration, it is possible to significantly reduce the operating cost only by saving this regeneration energy.

Although various types of dehumidifiers have been proposed in the past, among them, the time switching type is changed and regenerated according to a predetermined time even if the moisture absorption is reduced due to the change of the inlet condition of the dehumidifying container, which is the same as when completely absorbed by 100% There is a problem of consuming the same recycled air.

In addition, the conditions of the inlet air vary greatly from day to day, even from day to night, and the amount of air used varies considerably from day to night.

Therefore, in order to solve the above problems and provide a more efficient dehumidification device, for example, to measure the breakdown time (100% moisture absorption completion point) by attaching a humidity meter to the inner wall of each dehumidification container (Japanese Patent Laid-Open No. 62-23417). In this case, however, when the humidity measuring unit displays the relative humidity (RH) in percent (%), the measuring range is approximately 10 to 100% and the relative humidity is the ratio of the saturated water content to the actual water content ratio. The compressed air temperature in the state is usually + 20 ° C to + 40 ° C, so that the maximum accuracy of humidity measurement is converted to dew point (RH 10% at 20 ° C) -12 ° C. The problem is that the measurement of the weak moisture concentration is impossible, so that the measurement control of the ultra-dry air (dew point -40 ℃ ~ -70 ℃) required by the dehumidification apparatus at the time of adsorption becomes practically impossible.

In addition, the humidity measurement is displayed as a relative humidity, so even at a constant humidity there is a significant difference in the actual amount of water according to the temperature at that time, there is no way to accurately control the dehumidifier using this.

3 schematically shows the main part of such a conventional dehumidifier.

In this case, the humidity meter is attached to one end of the inner wall of the dehumidification wall and is in direct contact with the dehumidifier. It can be seen that there is a concern.

Therefore, the present invention eliminates this conventional problem, and in particular, by measuring the accurate dehumidification state of the air and automatically enabling dew point control, inducing efficient operation of the device and significantly reducing the cost of compressed air. The purpose is to provide a dehumidifier. That is, in the present invention, in the dehumidification apparatus for installing a dew point measuring instrument by installing an induction pipe inside each dehumidification container and extracting a part thereof to the outside of the dehumidification container for dehumidifying the air after using the compressed air. Dew point sensor connected from the outlet of the induction pipe drawn to the outside of each dehumidification vessel and the line connected to the dew point sensor is attached to only one dew point measuring device when the dehumidification vessel of either side dehumidification When the moisture content of the air dehumidified in the dehumidification container is measured by the dew point measuring device through the dew point sensor, and the desired dew point is found to be dehumidified by a control line including a known control panel according to the signal of the dew point measuring device. It is an automatic operation device by the dew point of the compressed air dehumidifier, characterized in that the cylinder is switched to another dehumidification vessel.

If the content of the present invention described above in detail in the accompanying drawings as follows.

1 is installed in the induction pipe (1) of the "-" or "+" type inside each dehumidification tank (A), (B), but a plurality of air inlet holes (2) below the induction pipe (1) Puncture and draw the induction pipe (1) to the outside of each dehumidification tank (A), (B) to indicate that the valve (3), (4) is connected in the middle, and also to the sensor connected to the end of the signal Only one dew point measuring device 5 having a line is attached, and as shown in the embodiment of FIG. 4, the result measured by the dew point measuring device 5 is determined by a known control panel and a solenoid valve according to a subsequent signal line. It is composed of a device so that the use dehumidification container is switched to another dehumidification container.

The present invention constituted in Figure 1 is to measure the moisture content of the dehumidified air in the dehumidification container by the induction pipe (1) when the dehumidification tank (A or B) of the one side dehumidification action and when the required dew point or more The dehumidifier is switched to another dehumidifier by the signal of the dew point measuring device 5.

That is, if the dew point detected by one dew point installed at the outlet side of the dehumidifier is lower than the preset dew point, the tower switching time is suppressed to increase the tower switching time in proportion to the dew point condition. If the dew point is higher than the dew point, the transmission control can be performed in a time-controlled manner in a short time.

When the dehumidification box is switched, the dehumidification box (A), which has been dehumidifying first, enters the regenerative action, and another newly changed dehumidification box (B) starts dehumidification.

As described above, the present invention is applicable to the order of a device requiring any dehumidification. The moisture content of the dehumidified air is always displayed exactly as a dew point regardless of the air temperature, pressure, or flow rate, and a certain dew point is set in the dehumidification device. As a result, the exit dew point can be controlled at all times and thus it is an efficient design that can respond immediately to a large amount of water inflow due to an accident. In particular, the present invention does not require a separate cooling or heating device as in the conventional case, and can be designed to secure the required dew point in consideration of the worst climatic conditions (usually 38 ° C in summer and 100% moisture in the rainy season. In addition, the design dimension 100 of the dehumidifier and the conditions appearing according to the climatic conditions effectively cope with the energy saving effect and the operation of the device according to the dew point to prevent the life and the device's life.

In addition, as the dew point measuring device measures the dew point of both dehumidifiers, the air is always flowing even when the dehumidifier is switched, and the dew point meter continues the measurement activity, so there is no sudden load shock and there is no risk of failure and the control system is simplified. It is convenient to maintain and operate.

Claims (1)

In order to dehumidify this air after using compressed air, a dehumidifier is installed in each of the dehumidification tanks 1 (A) and (B), and a part thereof is drawn out of the dehumidification tank to install a dew point measuring device. In the apparatus, a dew point sensor 10 connected from an outlet of the induction pipe 1 drawn out of each of the dehumidification vessels A and B and a line 6 connected to the dew point sensor 10 are provided. When only one dew point measuring device 5 is attached to the dehumidifying vessel of one side to dehumidify the moisture content of the air dehumidified in the dehumidifying vessel by the induction pipe 1 through the dew point sensor 10. Dew point of the pressurized air dehumidifier, characterized in that the dehumidification tank is switched to another dehumidification vessel by a known control line according to the signal of the dew point measuring instrument (5) when the predetermined dew point is measured as a result of the measurement by the dew point measuring instrument (5). Automatic operation by