JP3051607B2 - Filter device - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a filter device.

[0002]

2. Description of the Related Art Generally, in a filter device, air is passed through a filter element disposed inside a main body to remove dust mixed with the air. As shown in FIG. 5, an intake port 53 is provided in the filter device main body 52 of the filter device 51, and an exhaust port 54 is provided on the side of the filter device main body 52 facing the intake port 53. The gas inlet passage 55 and the gas outlet passage 5 communicated with the intake port 53 and the exhaust port 54, respectively.
Reference numeral 6 communicates with the inside of a bottomed cylindrical cover 57 fitted to the lower portion of the filter device main body 52. Therefore, the air passing through the filter device 51 flows from the gas introduction passage 55 to the gas outlet passage 56 via the inside of the cover 57.

[0005] A cylindrical filter element 58 for separating dust from air is provided in the gas introduction passage 55.
The element support member 59 which supports from above and below is fitted. The upper element support member 59 is formed so as to communicate the gas introduction passage 55 with the inside of the filter element 58, and the interior of the cover 57 is separated by the filter element 58 into a gas introduction chamber 60 and a gas discharge chamber 61.
Is divided into Therefore, the air flows from the gas introduction chamber 60 to the gas outlet chamber 61 through the filter element 58.

On the other hand, a drain cock 63 for drainage connected to the filter drainage pipe 62 is provided at the lower end of the cover 57. When the draincock 63 is rotated, water collected on the bottom surface of the cover 57 is removed from the filter drainage pipe. 62.

Accordingly, when the air passes through the filter element 58, dust and moisture mixed with the air adhere to the filter element 58 and are removed.
The filtered air flows through. Further, when the water removed to some extent adheres to the filter element 58, the water drops as water droplets and falls from the filter element 58, and the water droplets accumulate on the inner bottom surface of the cover 57. When the water is stored in a predetermined amount or more, the stored water is discharged to the filter drain pipe 62 when the drain cock 63 is rotated.

[0006] The filter device 51 thus configured
As shown in FIG. 6, there is a case where is provided in an intake pipe 65 of an air dryer 64 for removing moisture contained in air. The air dryer 64 has an exhaust pipe 66.
The air filtered by the filter device 51 is separated from moisture by an air dryer 64 and flows out to an exhaust pipe 66. Further, a drain pipe 67 for discharging the separated moisture to the outside of the air dryer 64 is connected to the air dryer 64. The drain pipe 67 is provided with a filter drain for discharging the water accumulated in the filter device 51. A tube 62 is connected.

[0007]

An air dryer 64 for removing moisture in the air is connected in series with the filter device 51 on the exhaust side of the filter device 51. It is not necessary to separate the water mixed in the water. However, when the air passes through the filter element 58, not only dust but also moisture is separated, so that the separated moisture is stored on the bottom surface of the cover 57. Therefore, the water stored in the cover 57 must be drained in a timely manner, and a filter drain pipe 62 for drainage must be provided. When the filter device 51 is installed, complicated piping is required. There was a problem of becoming.

In some cases, a plurality of filter devices 51 are connected in series to filter air. In this case, too, the filter drain pipe 6 is provided outside each filter device 51.
2, and the installation of the filter device 51 was very troublesome.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and an object of the present invention is to provide a filter device which does not need to provide a discharge pipe for discharging liquid accumulated in a cover outside the filter device. Is to provide.

[0010]

According to the present invention, a gas introduction chamber and a gas discharge chamber are defined by a filter element, the gas introduction chamber communicates with a gas inlet, and the gas discharge chamber is formed by a filter element. A gas communicating with the gas outlet port, the gas fed to the gas inlet chamber through the gas inlet port is dust-removed by the filter element, and the dust-removed gas is led to the gas outlet port through the gas outlet chamber. in the filter device, to the gas outlet chamber, provided a liquid storage chamber at a position lower than the gas outlet port portion, the liquid discharge pipe is provided, the gas outlet port portion between the liquid storage chamber and the gas outlet port portion Discharge pipe
Generates negative pressure at the discharge port of the
A variable flow path for sucking up and discharging from the outlet of the discharge pipe is provided.
The digit as its gist.

[0011]

Therefore, according to the present invention, the dust contained in the gas is removed by the filter element, and together with the dust,
The moisture contained in the gas is also removed. The removed liquid is stored in the liquid storage chamber. The liquid has a variable flow path
Thus, the liquid is sucked up by the negative pressure generated at the outlet of the liquid discharge pipe, and is efficiently discharged from the outlet of the liquid discharge pipe. As a result, the liquid separated by the filter element is discharged again together with the gas , so that it is not necessary to provide a liquid discharge pipe outside the filter device, and it is not necessary to provide a troublesome piping for installing the filter device.

[0013]

[0014]

【Example】

(First Embodiment) A first embodiment of the present invention will be described below with reference to FIGS.

As shown in FIG. 3, the filter device 1 is provided in an intake pipe 3 of an air dryer 2 for removing moisture contained in air. An exhaust pipe 4 is connected to the air dryer 2, and the air filtered by the filter device 1 is separated from moisture by the air dryer 2 and flows out to the exhaust pipe 4. Further, a drain pipe 5 for discharging the separated water to the outside of the air dryer 2 is connected to the air dryer 2.

As shown in FIG. 1, an intake port 7 as a gas inlet is provided in a device main body 6 of the filter device 1, and a gas outlet port is provided on a side of the filter device main body 6 facing the intake port 7. Exhaust port 8 is provided. A cylindrical cover 9 with a bottom is fitted to a lower portion of the filter device main body 6, and a bottom inside the cover 9 is a liquid storage chamber 9 a. A notch recess is formed in the fitting surface of the cover 9 along the outer peripheral surface of the cover 9, and the seal ring 1 for maintaining the airtightness in the cover 9 is formed in the recess.
0 is provided.

The filter device body 6 has a gas introduction passage 11 communicating from the intake port 7 to the inside of the cover 9, and a gas outlet passage 12 communicating from the exhaust port 8 to the inside of the cover 9. I have. An element support member 14 that supports a cylindrical filter element 13 for separating dust from air from above and below is fitted to an open end inside the cover 9 of the gas introduction passage 11. The upper element support member 14 is formed so as to communicate the gas introduction passage 11 and the inside of the filter element 13, and the inside of the cover 9 is partitioned into a gas introduction chamber 15 and a gas discharge chamber 16 by the filter element 13. I have.

A cutout recess is formed in the fitting surface between the element support member 14 and the filter device main body 6 along the outer peripheral surface of the element support member 14, and air from the fitting surface is formed in the recess. Seal ring 17 to prevent leakage
Are arranged. Therefore, the air that has flowed into the gas introduction / exit chamber 15 passes through the filter element 13 and flows to the gas outlet chamber 16.

Next, the gas outlet chamber 16 and the exhaust port 8
A pair of semi-lunar plates 18 are provided near the exhaust port 8 in the gas outlet passage 12 communicating with the
A variable flow path 8a is formed between them. The air flowing through the gas outlet passage 12 flows only from the variable flow passage 8a. Since the variable flow path 8a has a small cross-sectional area, the flow velocity of the air passing through the variable flow path 8a increases. As a result, a negative pressure is generated in the variable flow path 8a with respect to the air pressure inside the cover 9.

The liquid discharge pipe 19 extending vertically along the inner surface of the cover 9 is supported by two support members 20 provided on the inner surface of the cover 9.
The proximal end of the liquid discharge pipe 19 is disposed near the inner bottom surface of the cover 9, and the distal end is interposed in the center of the variable flow passage 8 a through the gas outlet passage 12. The position where the base end of the liquid discharge pipe 19 is disposed is the gas outlet passage 1.
2, which is a liquid storage chamber 9a in which water is particularly stored.

Now, the operation of the filter device 1 configured as described above will be described. First, air sent to the intake pipe 3 shown in FIG. 3 flows into the filter device 1 from the intake port 7 shown in FIG. The pressure-fed air contains dust and water vapor, and flows into the gas introduction chamber 15 through the gas introduction passage 11 formed inside the filter device 1. Further, when the air is continuously supplied under pressure, the air flows out to the gas outlet chamber 16 through the filter element 13.
When the air passes through the filter element 13, dust and moisture contained therein are removed, and only the filtered air flows out to the gas outlet chamber 16.

The air that has flowed into the gas outlet chamber 16 is discharged from the exhaust port 8 to the outside of the filter device 1 through the gas outlet passage 12. At this time, the air flow area of the gas outlet passage 12 near the exhaust port is narrowed by the variable flow path 8a, and the flow velocity of the air flowing through the variable flow path 8a increases. That is, a negative pressure is generated in the variable flow path 8a with respect to the air pressure inside the cover 9.

On the other hand, dust and moisture separated from the air adhere to the filter element 13, and when a certain amount of moisture accumulates in the filter element 13, the moisture falls from the filter element 13 as water droplets. The water drops dropped from the filter element 13 are stored in a liquid storage chamber 9a on the inner bottom surface of the cover # 9.
When the height becomes higher than the height position of the base end of the pipe 9, the water closes the base opening of the liquid discharge pipe 19.

Further, since the tip of the liquid discharge pipe 19 is interposed at the center of the variable flow path 8a, the pressure inside the liquid discharge pipe 19 also becomes negative with respect to the air pressure inside the cover 9.
Therefore, the water stored inside the cover 9 is sucked up by the negative pressure inside the liquid discharge pipe 19 and the liquid discharge pipe 1
9 and is discharged together with air. That is, since the water separated by the filter element 13 is discharged again together with the air, it is not necessary to provide a drain pipe for discharging the water stored in the liquid storage chamber 9a outside the filter device 1.

Further, the air discharged from the exhaust port 8 of the filter device 1 flows into the air dryer 2 through the intake pipe 3 together with the water, and the water and the air are separated by the air dryer 2. The separated water is discharged to the outside of the air dryer 2 through the drain pipe 3.

As described above, according to the present embodiment, the variable flow passage 8a is provided in the gas outlet passage 12, and the variable flow passage 8a generates a negative pressure with respect to the air pressure in the cover 9. Then, the water stored in the liquid storage chamber 9a is sucked up by the negative pressure through the liquid discharge pipe 19 and discharged together with the air flowing through the gas outlet passage 12. Therefore, the liquid storage chamber 9a
There is no need to provide a drain pipe for discharging the water stored in the filter device 1 outside the filter device 1, and when installing the filter device 1, it is not necessary to provide a troublesome pipe outside the filter device 1.

Since there is no need to provide a drain pipe outside the filter device 1, the filter device 1 can be installed at a lower cost. (Second Embodiment) Hereinafter, a second embodiment of the present invention will be described. The same parts as those in the first embodiment and the prior art are denoted by the same reference numerals, and detailed description is omitted.

As shown in FIG. 4, three filter devices 22, 2 are sequentially arranged in the air circulation line 21 from the air supply side.
3, 24 are provided in series. In FIG. 4, the left side of the drawing is the air supply side. Filter device 22, 2
Reference numeral 3 denotes a configuration similar to that of the filter device 1 shown in FIG. 1. The filter device 22 uses a filter element that removes dust contained in air, and the filter device 23 uses a filter element that removes oil contained in air. . The filter device 24 has the same configuration as the filter device 51 shown in FIG. 5, and uses a filter element from which fine oil components not removed by the filter device 23 are removed.

When the air is fed from the air flow pipe 21, only the dust contained in the air is removed by the filter device 22, and the moisture contained in the air is discharged together with the air through the gas outlet passage 12. Next, in the filter device 23, only the oil contained in the air is removed, and the moisture contained in the air is discharged together with the air in the gas outlet passage 12. Then, in the filter device 24 at the most downstream position, both the fine oil and water that are not removed by the filter device 23 are removed, and the removed water is stored in the inner bottom surface of the cover 57. The water stored on the inner bottom surface of the cover 57 is discharged to the filter drain pipe 63 when the drain cock 62 is rotated.

As described above, according to the present embodiment, in the filter devices 22 and 23, the water stored in the liquid storage chamber 9a is sucked up through the liquid discharge pipe 19, and discharged together with the air in the gas outlet passage 12. Then, the water contained in the air is removed at once by a filter device 24 provided at the most downstream side of the air circulation pipe 21. Therefore, drainage pipes for discharging water stored in the liquid storage chamber 9a are provided with the filter devices 22 and 23.
When the filter devices 22 and 23 are installed, it is not necessary to provide a troublesome piping outside the filter devices 22 and 23.

Further, since there is no need to provide a drain pipe outside the filter devices 22 and 23, the filter devices 22 and 23 can be installed at a lower cost. It should be noted that the present invention is not limited to the above-described embodiment, and may be embodied with the following modifications without departing from the spirit of the invention.

(1) The liquid stored on the inner bottom surface of the cover 9 is not limited to water. For example, the filter device 1 of the present invention can be used even when the liquid to be stored is oil. (2) In this embodiment, air is filtered by the filter device 1. However, gas other than air may be filtered. For example, city gas, natural gas, LPG, etc. may be filtered.

(3) The filter element 13 may be changed to one for removing oil.

[0034]

As described above in detail, according to the present invention, it is not necessary to provide a discharge pipe for discharging the liquid collected in the cover outside the filter device. rather it greens need to Do piping, moreover, liquid
There is an excellent effect that the body can be efficiently discharged .

[0035]

[Brief description of the drawings]

FIG. 1 is a cross-sectional view illustrating a configuration of a filter device according to a first embodiment.

FIG. 2 is a side view of the filter device of FIG. 1 as viewed from the direction of arrows A─A.

FIG. 3 is an explanatory diagram showing a connection state of a filter device.

FIG. 4 is an explanatory diagram showing a second embodiment.

FIG. 5 is a sectional view showing a configuration of a conventional filter device.

FIG. 6 is an explanatory diagram showing a connection state of a conventional filter device.

[Explanation of symbols]

7 ... intake port, 8 ... exhaust port, 8a ... variable flow passage,
9a: liquid storage chamber, 13: filter element, 15 ...
Gas introduction chamber, 16 ... gas outlet chamber, 18 ... half moon plate, 19
... liquid discharge pipe.

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int. Cl. ⁷ , DB name) B01D 46/00-46/54 F04B 39/16

Claims (1)

(57) [Claims] 1. A gas inlet chamber (15) and a gas outlet chamber (16) are defined by a filter element (13),
The gas inlet chamber (15) communicates with the gas inlet (7), the gas outlet chamber (16) communicates with the gas outlet (8), and the gas inlet chamber (7) via the gas inlet (7). 15) A filter device in which the gas pumped to 15) is dust-removed by a filter element (13), and the dust-removed gas is led out to a gas outlet (8) through a gas outlet chamber (16). A liquid storage chamber (9a) is provided in the outlet chamber (16) at a position lower than the gas outlet port (8), and a liquid discharge pipe is provided between the liquid storage chamber (9a) and the gas outlet port (8). (19) is provided , and a discharge pipe (19) is provided at the gas outlet (8).
A negative pressure is generated at the discharge port of the liquid and stored in the liquid storage chamber (9a).
Sucked liquid and discharged from the outlet of the discharge pipe (19).
A filter device provided with a variable flow path (8) for allowing the filter to flow .