WO2019240339A1 - Multi-functional air breather - Google Patents

Abstract

The present invention has a compact inner configuration comprising an outer cylinder, a middle cylinder, and an inner cylinder, and has respectively modularized components so as to facilitate assembly and disassembly. Provided is a multi-functional air breather having a dehumidifying agent between an outer cylinder and a middle cylinder such that the moisture in suctioned external air is removed and the air flows into an oil tank, and having an absorbent between the middle cylinder and an inner cylinder such that oil vapor, which is generated in the oil tank and from which oil is removed, can be discharged.

Description

Multifunction Air Breather

The present invention relates to a multifunctional air breather, and a technique for a multifunctional air breather capable of introducing dry external air into an oil tank or discharging oil vapor in an oil tank according to an oil level in an oil tank.

The breather is a device that is installed to be connected to the oil tank so that external air flows into the oil tank according to the oil level inside the oil tank, or the oil vapor inside the oil tank is discharged to the outside.

Here, the breather is a device that allows external air to flow into the oil tank when the oil height is lowered in the oil tank. The external air flowing into the oil tank must be removed to increase the purity of the oil, and in particular, it is necessary to remove the moisture because it adversely affects the flow of oil into the oil.

In addition, if the oil height in the oil tank is increased, the internal pressure is increased by the oil vapor, it is necessary to discharge the oil vapor to the outside. It is necessary to remove oil in consideration of environmental aspects when discharging oil vapor.

1 is a block diagram of a conventional multifunctional air breather.

Referring to FIG. 1, a conventional multi-function air breather 10 includes an upper inlet 12 through which external air is sucked and a particle filter module 13 having a particle filter media 12 for removing dust particles from external air. ), And a water filter module (15) installed with a water filter filter medium (13) for removing water from the outside air, and when the outside air is introduced, dust and water are removed while passing through the particle filter module and the water filter module. Was allowed to enter.

However, according to the related art, the water filter module is formed under the particle filter module, so that the length of the multifunction air breather is increased and the total volume is increased.

The present invention is to solve the above problems, when the height of the oil in the oil tank is lowered according to the height of the oil is to let the outside air flows to remove moisture, when the oil height is increased the oil content of the oil vapor The present invention aims to provide a multifunctional air breather that can be discharged in a removed state, and in particular, a single device can compact the configuration of external air inflow and vapor discharge.

The present invention to solve the above problems the outer cylinder; A middle cylinder installed inside the outside cylinder; An inside cylinder installed inside the middle cylinder and connected to the middle cylinder and a passage upward; A dehumidifying agent installed between the outside cylinder and the middle cylinder to remove moisture; An adsorbent disposed between the middle cylinder and the inside cylinder to remove oil; A cap installed to form an inner space on an upper portion of the outer cylinder to communicate an upper portion of the outer cylinder with an upper portion of the inside cylinder; It is installed in the lower portion of the outer cylinder and connected to the oil tank provided on the lower side, the air inlet for passing through the upper and lower through the outside cylinder and the middle cylinder, and the upper and lower penetrates the oil A base having a steam inlet through which oil vapor generated in a tank passes through the inside cylinder, and a vapor outlet through which the oil vapor is discharged to the outside between the middle cylinder and the inside cylinder; A check valve installed above the inside cylinder and opened when the oil height of the oil tank is lowered to allow external air passed between the outside cylinder and the middle cylinder to flow into the oil tank through the inside cylinder; It provides a multi-function air breather, characterized in that it is included.

The air inlet is provided with a check valve is installed to provide a multifunctional air breather, characterized in that when the oil height of the oil tank is lowered.

The oil vapor discharge port is provided with a check valve is installed to provide a multifunctional air breather, characterized in that when the oil height of the oil tank is increased.

The cap is provided with a humidity sensor for measuring the humidity of the outside air passing through the dehumidifying agent, a microprocessor chip for receiving and controlling the signal of the humidity sensor, and an LED window displayed by receiving the signal of the microprocessor chip A multifunctional air breather is provided.

The middle cylinder provides a multifunctional air breather characterized in that a cover for receiving the check valve in the center is sealed to the upper portion of the middle cylinder on the upper side.

According to the structure provided in the solution of this subject, the following effects can be expected.

If the oil level is lowered according to the oil level of the oil tank, external air from which moisture is removed may be introduced. If the oil level is increased, the oil content of the oil vapor generated in the oil tank may be removed and discharged to the outside. . In particular, it is possible to compactly configure the external air inlet and vapor discharge in one device.

In addition, the humidity of the external air introduced by the electronic system is checked and displayed so that it is easy to know when to replace the dehumidifying agent.

1 is a block diagram of a conventional multifunctional air breather.

Figure 2 is a view showing the appearance of the multifunctional air breather of the present invention.

3 is a cutaway perspective view of the multifunction air breather of FIG. 2 in accordance with an embodiment of the present invention.

4 is an internal cross-sectional view according to an embodiment of the present invention.

5 is a view showing the outside air flow according to an embodiment of the present invention.

6 is a view showing the flow of oil vapor according to an embodiment of the present invention.

Hereinafter will be described with reference to the accompanying drawings an embodiment of the present invention. The following description and the accompanying drawings are presented for the overall understanding of the present invention, and thus the technical scope of the present invention is not limited thereto. And a detailed description of known configurations and functions that may unnecessarily obscure the subject matter of the present invention will be omitted.

Figure 2 is a view showing the appearance of the multifunctional air breather of the present invention. 3 is a cutaway perspective view of the multifunction air breather of FIG. 2 according to an embodiment of the present invention, and FIG. 4 is an internal cross-sectional view according to an embodiment of the present invention.

The present invention includes the outer cylinder 100, the middle cylinder 200, the inside cylinder 300, the dehumidifier 400, the adsorbent 500, the cap 600, the base 700 and the check valve 800 The present invention is connected to the oil tank to allow the external air to flow into the oil tank or discharge the oil vapor generated in the oil tank.

First, the outside cylinder 100 may represent the outer shape of the present invention and may accommodate the middle cylinder 200 and the inside cylinder 300 therein.

The middle cylinder 200 may be installed inside the outside cylinder 100 and accommodate the inside cylinder 300 therein. A cover 220 is installed on the middle cylinder 200 to close the upper portion of the middle cylinder 200, and the check valve 800 is installed at the center of the cover 220.

Here, the middle cylinder 200 may be installed inside the outside cylinder 100 to allow external air to pass between the outside cylinder 100 and the middle cylinder 200.

The inside cylinder 300 is installed inside the middle cylinder 200 and is positioned below the check valve 800.

In addition, a passage connected to the inside cylinder 300 is formed above the middle cylinder 200, so that oil vapor moves between the middle cylinder 200 and the inside cylinder 300 through the passage in the inside cylinder 300. do. Here, the passage is a gap formed by a length difference between the lower side of the cover 220 installed on the middle cylinder 200 and the upper side of the inside cylinder 300.

The dehumidifier 400 is installed between the outside cylinder 100 and the middle cylinder 200 to enable the removal of moisture of the external air introduced. In this case, the dehumidifier 400 may use silica gel, and other dehumidifiers may be used.

The adsorbent 500 is installed between the middle cylinder 200 and the inside cylinder 300 to remove the oil. In this case, the adsorbent 500 has a wide surface area and strong adsorption property, and thus it is preferable to use active carbon capable of adsorbing oil vapor. Other adsorbents may also be used.

The cap 600 is installed so that an inner space is formed above the outside cylinder 100 so as to connect an upper portion of the outside cylinder 100 to an upper portion of the inside cylinder 300. Here, the upper plate 620 is installed between the cap 600 and the outer cylinder 100 to facilitate the fastening of the cap 600 and the outer cylinder 100. In addition, the upper plate 620 and the cap 600 may filter foreign substances from the external air introduced through the metal screen net 640.

The base 700 is installed below the outside cylinder 100 and connected to the oil tank downward. When the base 700 is coupled to the lower portion of the outer cylinder 100, a lower plate 710 may be installed therebetween to easily fasten the outer cylinder 100 and the base 700. . In addition, the lower plate 710 and the base 700 may filter foreign substances contained in the external air introduced through the metal screen net 720 through the metal screen net 720.

An air inlet 730, an oil vapor inlet 740, and an oil vapor outlet 750 are formed in the base 700. The air inlet 730 is formed to penetrate up and down in the base 700 to allow external air to flow between the outside cylinder 100 and the middle cylinder 200. Here, a check valve 900 is installed at the air inlet 730, and the check valve 900 is opened when the oil height of the oil tank is lowered. The oil vapor inlet 740 may be formed to penetrate up and down in the base 700 to allow oil vapor generated in the oil tank to pass into the inside cylinder 300. The vapor discharge port 750 may be formed to penetrate up and down in the base 700 to allow the oil vapor passed between the middle cylinder 200 and the inside cylinder 300 to be discharged to the outside. A check valve 1000 is installed at the oil vapor outlet 750 to open when the oil height of the oil tank is increased.

On the other hand, when the pressure in the air breather is in a vacuum state, since the performance of the air breather is deteriorated, a manual vacuum pressure indicator 760 connected to the oil vapor inlet 740 is installed in the base 700, so that the interior of the multifunction air breather is vacuumed. You can check the fault condition.

In addition, when the vacuum pressure sensor 980 is installed inside the cap 600 and the signal of the vacuum pressure sensor 980 is received by the microprocessor chip 940 and close to the vacuum pressure, the LED window 960. It is possible to check the fault condition as the inside of the multi-function air breather is vacuumed by being displayed as LED (LED) light emission.

Therefore, the type without the printed circuit board 990 (PCB) in the cap 600 may be sold by dualizing to a specification in which only a manual vacuum pressure indicator is applied.

The check valve 800 is installed above the inside cylinder 300, and the outside air passing between the outside cylinder 100 and the middle cylinder 200 is passed through the check valve 800 to the inside cylinder ( Passed through 300 is introduced into the oil tank.

In addition, the check valve 800 is installed above the inside cylinder 300 to block passage of oil vapor generated in the oil tank.

The cap 600 receives a humidity sensor 920 and a signal of the humidity sensor 920 to allow the humidity of the external air passed through the dehumidifying agent 400, the microprocessor chip 940 detects In addition, an LED window 960 is installed to display the LED and diffuse the light of the LED. That is, when the humidity of the external air passing through the dehumidifier 400 becomes a predetermined value or more, the LED may be emitted to the outside using the LED window 960 and displayed. That is, even if the dehumidifying agent 400 uses various types of dehumidifying agents according to the use environment in addition to the silica gel, there is an advantage that the replacement time can be easily known.

5 is a view showing the outside air flow according to an embodiment of the present invention.

First, the flow of external air will be described with reference to FIG. 5.

First, when the oil level in the oil tank is lowered, the flow of external air is as follows.

When the check valve 900 installed in the base 700 is opened, the external air passes through the dehumidifying agent 400 between the outside cylinder 100 and the middle cylinder 200 to remove moisture. And the external air from which water is removed is moved to the inside cylinder 300 through the check valve 800 in the cap 600 is introduced into the oil tank (T).

6 is a view showing the flow of oil vapor according to an embodiment of the present invention.

Referring to FIG. 6, when the oil height in the oil tank T is increased, the pressure is increased by the air and the steam therein. At this time, it is necessary to discharge the vapor to the outside and the flow of the vapor is described as follows.

The oil vapor generated in the oil tank T passes through the inside cylinder 300 and moves between the middle cylinder 200 and the inside cylinder 300 through a passage formed in the middle cylinder 200. The oil vapor is removed by the adsorbent 500 installed in the middle cylinder 200 and the inside cylinder 300, and is discharged to the steam outlet 750 by opening the check valve 1000.

The present invention described above is not limited to the above-described embodiments, and various changes can be made by those skilled in the art without departing from the gist of the present invention as claimed in the following claims. It should be regarded as falling within the protection scope of the claims to the extent that it can be implemented.

<Sign description>

100: outside cylinder

200: middle cylinder

220: cover

300: inside cylinder

400: dehumidifier

500: adsorbent

600: cap

620: upper plate

640: metal screen

700: base

710: lower plate

720: metal screen

730: air inlet

740: vapor inlet

750: vapor outlet

800: check valve

900: check valve

1000: check valve

The present invention relates to a multifunctional air breather, and more particularly, it is installed in a tank for storing lubricating oil in an industrial facility to prevent the intrusion of pollutants and to use the lubricating oil cleanly and dryly.

Claims (5)

1. Outside cylinder;

   A middle cylinder installed inside the outside cylinder;

   An inside cylinder installed inside the middle cylinder and connected to the middle cylinder and a passage upward;

   A dehumidifying agent installed between the outside cylinder and the middle cylinder to remove moisture;

   An adsorbent disposed between the middle cylinder and the inside cylinder to remove oil;

   A cap installed to form an inner space on an upper portion of the outer cylinder to communicate an upper portion of the outer cylinder with an upper portion of the inside cylinder;

   It is installed in the lower portion of the outer cylinder and connected to the oil tank provided on the lower side, the air inlet for passing through the upper and lower through the outside cylinder and the middle cylinder, and the upper and lower penetrates the oil A base having a steam inlet through which oil vapor generated in a tank passes through the inside cylinder, and a vapor outlet through which the oil vapor is discharged to the outside between the middle cylinder and the inside cylinder;

   A check valve installed above the inside cylinder and opened when the oil height of the oil tank is lowered to allow external air passed between the outside cylinder and the middle cylinder to flow into the oil tank through the inside cylinder; Multifunctional air breather, characterized in that included.
2. The method of claim 1,

   In the air inlet,

   Multi-function air breather, characterized in that the check valve is installed when the oil height of the oil tank is lowered.
3. The method of claim 1,

   The vapor discharge outlet,

   Multifunctional air breather, characterized in that the check valve is installed is opened when the oil height of the oil tank is increased.
4. The method of claim 1,

   In the cap,

   Humidity sensor for measuring the humidity of the outside air passing through the dehumidifying agent, a microprocessor chip for receiving and controlling the signal of the humidity sensor, and an LED window displayed by receiving the signal of the microprocessor chip is installed Multifunctional Air Breather.
5. The method of claim 1,

   In the middle cylinder,

   A multi-function air breather, characterized in that a cover for accommodating the check valve is installed at the center and seals the upper portion of the middle cylinder.

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