KR100888803B1 - Vacuum filter housing for industrial equipment - Google Patents

Abstract

The present invention proposes an improved vacuum filter housing. In the vacuum filter housing of the present invention, a cover, a body, and a base are stacked, and a filter body is mounted inside the body to implement a vacuum filter. Particularly, a sealing part is interposed between the coupling point of the body and the base, and both ends of the cylinder-shaped absorber are respectively coupled to the body and the cover, and the body and the base prevent sagging of the bottom plate when the filter body is mounted. Support means for the installation is configured. In addition, the fluid is filtered from the inside of the body to the support surface is formed in the bottom surface of the body through the support means and the through hole is formed, the base has an outlet for taking out the contaminants remaining in the housing to the outside Formed and configured.

Description

Vacuum filter housing for industrial machinery {Vacuum filter housing for industrial machinery}

The present invention relates to a vacuum filter housing for industrial equipment. In detail, the present invention is to improve the sealing structure of the through hole for the fluid flow from the body to the base, to release the vacuum pressure when the cover is opened and to buffer the repulsion generated, and when the filter body is mounted The present invention relates to a vacuum filter housing for an industrial device, which is configured to prevent sag and to clean the inside of a base so that a better product can be manufactured.

The vacuum filter is installed on a fluid running line such as gas or liquid, and is a filtration device for filtering a contaminant contained in the fluid in progress to discharge the fluid having high cleanness to the outside.

The vacuum filter is configured to provide a housing so as to completely enclose the inside to form a vacuum space, and to mount a filter inside the housing so that fluid passes through the filter and filters contaminants. At this time, the sealed state inside the housing is a very important factor to improve the efficiency of filtering the contaminants by the filter body.

Such a housing is mainly configured by combining a cover, a body, a base, and an intermediate plate coupled between the body and the base. Here, the body is manufactured in the form of a container in which the filter body is mounted therein and formed with an inlet for the inflow of external fluid, and the base is coupled to the lower part of the body and passes through the filter body, and an exhaust port for discharging the filtered fluid is installed. do. In addition, the cover is configured to open and close the upper portion of the container, and is mainly configured by hinged to one side of the opening of the body.

In particular, the bottom surface of the body is formed with a through hole for advancing the filtered fluid to the exhaust port side of the base, the through hole is configured to be equipped with an O-ring on the inner surface of the through hole to seal the gap between the body and the base do. In addition, the support bar for fixing the filter body in position in the interior of the body is coupled to the bottom surface of the base and is disposed standing up inside the body through the through hole.

The vacuum filter configured as described above opens the cover, mounts the filter body inside the body, closes the cover to keep the inside of the body sealed, and then advances the contaminated fluid through the inlet of the body. The contaminated fluid introduced through the inlet is filtered by a filter inside the body and exhausted into a clean fluid through the exhaust port of the base.

The conventional vacuum filter housing configured as described above has a problem that the O-ring mounted in the through hole communicated from the body to the base is fixed to the inner circumferential surface of the through hole simply by adhesion, so that the adhesion thereof is not properly performed to perform the desired sealing function. Is generated.

In addition, the vacuum filter housing opens strongly with a strong repulsion when the cover is often " jumped " upon opening. This is because the cover is hinged to the body and the inside of the body is kept in a vacuum by the cover, which is caused by the repulsive force caused by the vacuum pressure inside the body, which is inevitable in the vacuum filter. When the hinged portion of the body and the cover is easily broken and exposed to problems causing the user injury.

In particular, when the bottom plate of the body is equipped with a filter and performs a filter function for a predetermined time, deflection phenomenon occurs downward by the load of the filter. This deflection phenomenon has a problem of lowering the filtration efficiency of the contaminated fluid.

In addition, in the housing, various contaminants, such as when the contaminated fluid is filtered and then exhausted from the inside of the body, remain inside the body and the base. Such contaminants have to be cleaned from time to time in order to maintain the filtration efficiency of the filter, this cleaning process is performed after disassembling the housing itself, which causes a very troublesome process.

The present invention has been invented to solve the above problems. Accordingly, the present invention is improved to improve the sealing point adhesion of the through-hole communicated from the body to the base, and applies a configuration to cushion the impact of the cover generated by the vacuum pressure when opening the cover, and to the load of the filter medium It is an object of the present invention to provide a vacuum filter housing having a configuration for implementing a sag prevention of the bottom surface of the body, and a configuration for easily cleaning the inside of the base.

The present invention is a cover, the body, the base and the intermediate plate interposed between the body and the base is configured, the filter body is mounted on the inside of the vacuum filter housing which is implemented as a vacuum filter, the body, the intermediate plate, the base The through hole communicating with the sealing portion is interposed, the sealing portion is formed in the guide plate protruding from the intermediate plate to the through hole inner circumferential surface of the body, the outer peripheral surface of the guide pipe and the bottom sealing member of the body is configured to be coupled.

At this time, the body and the cover is hinged to each other is configured, the body and the cover are respectively configured to combine the two ends of the absorber (aborber) in the form of a cylinder.

In addition, the body and the base includes a support means for preventing the deflection of the bottom plate when the filter medium is mounted, the support means, the support bar is installed in the intermediate plate to the interior space of the body, the support bar penetrates the body It is then configured to be fixedly coupled with the body.

In particular, the through-hole of the body is formed of a plurality of radially divided spaces to be configured at the same time with the support means, it is configured such that the support bar of the support means therebetween.

On the other hand, the base is formed with an outlet for taking out the contaminants remaining in the housing to the outside, the outer opening of the outlet is detachably coupled to the cover for maintaining the inside of the housing in a closed state when driving the vacuum filter It is composed.

As described above, the present invention is to improve the sealing point adhesion of the through-hole communicated from the body to the base to provide a more robust sealing efficiency, to propose a configuration to cushion the impact when opening the cover or cover It is possible to provide an excellent product by eliminating the damage of the coupling point between the body and the body.

In addition, the present invention is to prevent sagging of the bottom surface of the body when the filter medium is installed to always obtain excellent filtration efficiency, and to perform a more stable filtration by performing a more stable filtration by making it easy to clean the inside of the base There is an effect that can be obtained.

Embodiments of the present invention as described above will be described in detail with reference to the accompanying drawings.

1 is a front view of a vacuum filter housing according to the present invention, FIG. 2 is a side view of the vacuum filter housing according to the present invention, and FIG. 3 is a plan view of the vacuum filter housing according to the present invention. 4 is a partial cross-sectional view of the vacuum filter housing according to the present invention, FIG. 5 is a body perspective view of the vacuum filter housing according to the present invention, and FIG. 6 is a base perspective view of the vacuum filter housing according to the present invention.

Referring to the drawings, the vacuum filter housing according to the present invention is the cover 10, the body 20, the base 30, the intermediate plate 40 interposed between the body 20 and the base 30 is coupled It is composed. At this time, the filter body (F) is mounted inside the body 20 is implemented as a vacuum filter. Such a vacuum filter housing is mainly formed in a cylindrical exterior, and is installed in various industrial equipment to filter the contaminated air, oil and the like fluid to discharge as a clean fluid as is well known.

The cover 10 is configured to open and close the opening (upper part in the drawing) of the body 20 to inject the filter body F into the body 20, and hinges with the body 20. Combined. At this time, the cover 10 and the body 20 includes a fastening means 21 for sealing the opening of the body 20 and maintaining the state firmly. At this time, the fastening means 21 is coupled to the outer peripheral surface of the body 20 to seal the cover 10, and then coupled to the outer peripheral surface of the cover 10 to press the cover 10 from the upper side to the body 20 side It consists of hinge bolts.

The body 20 has a cylindrical exterior having a space for accommodating the filter body F therein, and an inlet 22 for contaminating fluid is introduced into one side thereof. In addition, a through hole 23 is formed in the bottom surface of the body 20 to allow the fluid filtered by the filter body F to proceed to the base 30.

The base 30 has a discharge port 31 through which the filtered fluid is discharged to the outside by the filter body F mounted on the body 20. In the figure, reference numeral 33 is a support leg 33 formed on the lower surface of the base 30 to support the installed surface or the ground of the industrial equipment.

In particular, the base 30 is configured to include an intermediate plate 40 interposed between the body 20 and the base 30, the intermediate plate 40 closes the open portion of the base 30 similarly. It can also be understood as a configuration of the cover for.

In the above configuration, the sealing portion 50 is interposed between the body 20, the intermediate plate 40, and the through hole 23 communicating with the base 30. At this time, the sealing unit 50 is composed of a guide pipe 51, the sealing member 52 is coupled.

The guide pipe 51 is configured to protrude from the intermediate plate 40 to the inner circumferential surface of the through hole 23 of the body 20. In addition, the sealing member 52 is configured to be coupled to the outer circumferential surface of the guide pipe 51 and the bottom surface of the body 20, that is, the bottom surface of the periphery of the through-hole 23 is formed. At this time, the sealing member 52 in a preferred configuration is formed of silicon excellent in the sealing efficiency of the synthetic resin, in addition to various materials such as rubber can be applied.

In addition, the body 20 and the cover 10 has an absorber (absorber) for buffering the phenomenon that the cover 10 is strongly repulsed and opened by the vacuum pressure inside the body 20 when the cover 10 is opened ( 60) is installed and configured.

In this case, as described above, the body 20 and the cover 10 are configured by hinged mutually, in this configuration the absorber 60 is a cylinder in which both ends are coupled to the body 20 and the cover 10, respectively. Form. In particular, it is preferable that the absorber 60 employs a shock absorber configured to perform cushioning by a spring or gas pressure therein.

In addition, the support plate 70 is installed in the intermediate plate 40 of the body 20 and the base 30 to prevent sagging of the bottom plate when the filter body F is installed. The support means 70 is a configuration in which a plurality of support bars (71) (3 in the figure) are erected in the intermediate plate 40 to the inner space of the body 20. At this time, the support bar 71 is configured to be fixedly coupled to the bottom surface of the body 20 after passing through the body 20.

At this time, the support means 70 is accommodated in the through-hole 23 of the body 20 described above, for this purpose, the through-hole 23 is formed in a plurality of radially divided spaces. That is, the through hole 23 is similar to the drawing, and the support bar 71 is penetrated through the center of the "+" shape in the form of a rib formed in the form of "+" inside the circular through hole 23 It is configured to be fixedly coupled.

On the other hand, the base 30 has a contaminant remaining on the bottom surface of the body 20 or mainly the bottom surface of the base 30 (filtered by the filter and then dropped from the filter medium, or dropped from the fluid when the fluid discharged) Blowout ports 80 for taking out fine contaminants, etc.) are formed. The outlet 80 is configured in a tubular shape that communicates the inside and the outside of the base 30. The outer opening is detachable by a bolt or the like for the cover 81 which keeps the inside of the housing closed when the vacuum filter is driven. Combined.

1 is a front view of a vacuum filter housing according to the present invention.

Figure 2 is a side view of the vacuum filter housing according to the present invention.

3 is a plan view of a vacuum filter housing according to the present invention;

4 is a partial cross-sectional view of the vacuum filter housing according to the present invention.

5 is a perspective view of the body of the vacuum filter housing according to the present invention.

Figure 6 is a perspective view of the base of the vacuum filter housing according to the present invention.

<Explanation of symbols for the main parts of the drawings>

10: cover 20: body

23: through hole 30: base

40: intermediate plate 50: sealing part

51: guide pipe 52: sealing member

60: absorber 70: support means

71: support bar 80: outlet

81: cover

Claims (5)

The cover 10, the body 20, the base 30, and the intermediate plate 40 interposed between the body 20 and the base 30 are coupled to each other, and the filter body inside the body 20. In the vacuum filter housing is mounted F) is implemented as a vacuum filter, The sealing part 50 is interposed in the through hole 23 communicating the body 20, the intermediate plate 40, and the base 30, and the sealing part 50 is the body 20 in the intermediate plate 40. A guide pipe 51 protruding to the inner circumferential surface of the through hole 23 is formed, and the outer circumferential surface of the guide pipe 51 and the bottom sealing member 52 of the body 20 are coupled to each other; The body 20 and the cover 10 are hinged to each other is configured, the body 20 and the cover 10 are respectively coupled to both ends of the cylindrical (absorber) (60); The body 20 and the base 30 includes support means 70 for preventing sagging of the bottom plate when the filter body F is mounted. The support means 70 is supported by the intermediate plate 40. The bar 71 is installed standing up to the inner space of the body 20, the support bar 71 is configured to be fixedly coupled to the body 20 after passing through the body 20; The through hole 23 of the body 20 is formed in a plurality of radially divided space to be configured at the same time with the support means 70, between the support bar 71 of the support means 70 is configured to pass through that; Vacuum filter housing for industrial equipment, characterized in that. delete delete delete The method of claim 1, The base 30 has a blowout opening 80 formed therein for taking out contaminants remaining inside the housing to the outside, and the outer opening of the blowout opening 80 maintains the inside of the housing in a closed state when the vacuum filter is driven. Vacuum filter housing for industrial equipment, characterized in that the cover 81 is detachably coupled.

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