KR100968021B1 - Oil rotary pump oil counterflow prevention petal - Google Patents

Abstract

The present invention relates to an oil backflow prevention plate for an oil rotary pump, and more particularly, is fixed to the inside of a vacuum line connected between the oil rotary pump and the vacuum equipment, and is located on the surface to be located inside the protrusion formed at the bottom thereof. A top plate having through holes formed at equal intervals; It is accommodated so as to be movable inside the protrusion of the upper plate to block the oil flowing back in the direction of the vacuum equipment from the oil rotary pump through the vacuum line, and is lifted by the oil flowing back to be in close contact with the lower surface of the upper plate A lower plate having a second through hole which does not form a straight line with the first through hole of the upper plate at equal intervals; The guide shaft is formed at equal intervals vertically at the inner side of the protrusion of the upper plate, and the guide groove is formed at equal intervals on the edge of the lower plate and open at one side so that the guide shaft can be accommodated inside. It relates to an oil backflow prevention plate for an oil rotary pump, characterized in that it comprises a.

According to the present invention configured as described above, when the lower plate is lifted up by the oil flowing back in the direction of the vacuum equipment from the oil rotary pump and is in close contact with the lower surface of the upper plate, the oil flowing back is closed because the second through hole of the lower plate is closed. There is no fear of moving to the vacuum device through the second through hole and the first through hole of the top plate, and thus there is no fear that the vacuum device will fail due to oil flowing back.

Top plate, bottom plate, guide member

Description

Oil backflow prevention plate for oil rotary pump {OIL ROTARY PUMP OIL COUNTERFLOW PREVENTION PETAL}

The present invention is fixed to the inside of the vacuum line connected between the oil rotary pump and the vacuum equipment, the upper plate is formed on the surface of the first through-hole at equal intervals so as to be located inside the protrusion formed on the bottom; It is accommodated so as to be movable inside the protrusion of the upper plate to block the oil flowing back in the direction of the vacuum equipment from the oil rotary pump through the vacuum line, and is lifted by the oil flowing back to be in close contact with the lower surface of the upper plate A lower plate having a second through hole which does not form a straight line with the first through hole of the upper plate at equal intervals; The guide shaft is formed at equal intervals vertically at the inner side of the protrusion of the upper plate, and the guide groove is formed at equal intervals on the edge of the lower plate and open at one side so that the guide shaft can be accommodated inside. It relates to an oil backflow prevention plate for an oil rotary pump, characterized in that it comprises a.

In general, an oil rotary pump is used to move oil from one space to another space, and in particular, it is interconnected with vacuum equipment such as a cold isostic press and a hot isostatic press. Used.

On the other hand, as shown in Figure 1 inside the vacuum line 7 made of an elastic material pipe and the like connected between the oil rotary pump and the vacuum equipment rubber material on the rim to prevent the vacuum equipment from leaking into the atmosphere The center ring 9 provided with the o-ring 9a of the back is fixedly installed.

However, the centering 9 only prevents the vacuum equipment from leaking into the atmosphere, and when the oil rotary pump is immediately restarted in a sudden stop state due to an unexpected power failure during the operation, There is a problem that can not block the backflow oil to the vacuum equipment.

Recently, in order to solve the above problems, an expensive check valve, a trap, etc. are provided inside the vacuum line 7 to block the oil flowing back to the vacuum equipment, but there is an excessive cost. .

The present invention was created in order to solve the above problems, the lower plate is closed by the oil flowing back in the direction of the vacuum equipment in the oil rotary pump is in close contact with the lower surface of the upper plate is to close the second through hole of the lower plate Therefore, there is no fear that the oil flowing back through the second through hole of the lower plate and the first through hole of the upper plate is not moved to the vacuum equipment, and thus, there is no fear that the vacuum equipment may fail due to the oil flowing back. In addition, it is an object of the present invention to provide an oil backflow prevention plate for an oil rotary pump, which can be remarkably reduced since it is unnecessary to block the backflow oil using an expensive check valve, a trap, and the like as in the related art.

The present invention for achieving the above object is fixed to the inside of the vacuum line connected between the oil rotary pump and the vacuum equipment, the upper plate is formed on the surface of the first through-hole at equal intervals so as to be located inside the protrusion formed on the bottom and; It is accommodated so as to be movable inside the protrusion of the upper plate to block the oil flowing back in the direction of the vacuum equipment from the oil rotary pump through the vacuum line, and is lifted by the oil flowing back to be in close contact with the lower surface of the upper plate A lower plate having a second through hole which does not form a straight line with the first through hole of the upper plate at equal intervals; The guide shaft is formed at equal intervals vertically at the inner side of the protrusion of the upper plate, and the guide groove is formed at equal intervals on the edge of the lower plate and one side opening is open so that the guide shaft can be accommodated inside the shankdong of the lower plate. It provides an oil backflow prevention plate for an oil rotary pump comprising a; guide member for guiding the.

Here, the guide member is fixed bolt which is screwed to the upper plate through the fastening hole formed at equal intervals on the lower plate; It is preferable that the nut is screwed to one end of the fixing bolt is screwed to the top plate exposed to the outside.

The upper plate and the lower plate are preferably made of aluminum.

According to the present invention, when the lower plate accommodated inside the protrusion of the upper plate is lifted by the oil flowing back in the direction of the vacuum equipment from the oil rotary pump and is in close contact with the lower surface of the upper plate, the oil flowing backward because the second through hole of the lower plate is closed. The second through hole of the lower plate and the first through hole of the upper plate are not likely to be moved to the vacuum equipment, and thus, the vacuum equipment is not only no longer concerned about failure due to oil flowing back as well as conventionally. Since expensive check valves, traps, and the like do not need to shut off the oil flowing back to the vacuum equipment, the resulting cost is also significantly reduced.

Furthermore, since the upper plate and the lower plate are made of aluminum, there is no effect that the upper plate and the lower plate may be corroded by impurities contained in the oil flowing back.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. Of course, the scope of the present invention is not limited to the following examples, and various modifications can be made by those skilled in the art without departing from the technical gist of the present invention.

2 is a perspective view schematically showing an oil backflow prevention plate for an oil rotary pump according to an embodiment of the present invention, and FIGS. 3 and 4 are separated perspective views schematically showing a state in which the lower plate 30 is separated from the upper plate 10. .

An oil backflow prevention plate for an oil rotary pump according to an embodiment of the present invention may be made to include a top plate 10, a bottom plate 30, and a guide member 50 as shown in FIGS. 2 to 4.

First, the top plate 10 of the vacuum line made of an elastic material pipe connected between an oil rotary pump and a known vacuum equipment such as a cold isostic press and a hot isostatic press. By being fixed in the interior, as shown in Figure 3 and 4, the first through-hole 13 is formed on the surface at equal intervals so as to be located inside the protrusion 11 formed in the lower portion.

Here, the rubber O-ring 15 is tightly fixed to the inner wall surface of the vacuum line so that the top plate 10 is more firmly adhered to the inside of the vacuum line is fixed to the inside of the vacuum line It may be provided.

The shape and structure of the upper plate 10 is not limited to Figs. 2 to 4, it is sufficient if it is made of a shape and structure that can be fixed to the interior of the vacuum line.

Next, the lower plate 30 is accommodated in the movable portion 11 of the upper plate 10 so as to block the oil flowing back from the oil rotary pump in the direction of the vacuum equipment through the vacuum line. 3 and 4, second through-holes 33 which are not in line with the first through-hole 13 of the upper plate 10 are formed on the surface at equal intervals.

Here, the lower plate 30 is raised by the oil flowing back to block the oil flowing in close contact with the lower surface of the upper plate 10, which will be described in detail below for convenience of description.

The shape and structure of the lower plate 30 is not limited to FIGS. 2 to 4, and the shape and structure of the lower plate 30 may be accommodated in the protruding portion 11 of the upper plate 10 to block oil flowing back. It is enough if it is done.

Next, the guide member 50 is for guiding the shanghaidong of the lower plate 30, and as shown in Figure 3, large, at equal intervals perpendicular to the inside of the protrusion 11 of the upper plate 10. A guide shaft 51 formed; It is formed at equal intervals on the edge of the lower plate 30, the guide groove 53 is open at one side so that the guide shaft 51 can be accommodated inside;

Here, the length of the guide shaft (L ₁ of FIG. 3) so that the lower plate 30 can be moved more easily along the guide shaft 51 in a state accommodated inside the protrusion 11 of the upper plate 10. Is preferably formed larger than the thickness (T ₁ of FIG. 3) of the lower plate 30.

On the other hand, the guide member 50, as shown in Figure 4, the fixing bolt 55 is screwed to the upper plate 10 through the fastening hole 35 formed at equal intervals in the lower plate 30; The nut 57 is screwed to one end of the fixing bolt 55 is screwed to the top plate 10 is exposed to the outside.

Here, the length of the fixing bolt 55 so that the lower plate 30 can be moved more easily along the fixing bolt 55 in a state accommodated inside the protrusion 11 of the upper plate 10 (Fig. 3). L ₂ ) is preferably formed larger than the thickness of the lower plate 30 (T ₂ of FIG. 3).

The guide member 50 does not necessarily have to be made of the guide shaft 51 and the guide groove 53 or the fixing bolt 55 and the nut 57, and guides the shanghai of the lower plate of the lower plate 30. It is enough if it is made possible.

5 and 6 are cross-sectional views schematically showing a state in which the lower plate 30 is in close contact with the lower surface of the upper plate 10 to block the oil flowing back.

Next, the lower plate 30 is in close contact with the lower surface of the upper plate 10 will be described the process of blocking the oil flowing back.

First, when the oil rotary pump 3 is immediately restarted in a sudden stop state due to an unexpected power failure or the like during operation, the oil introduced into the oil rotary pump 3 is as shown in FIGS. 5 and 6. It flows back to the vacuum equipment 5 through the vacuum line 7 (see arrows a of FIG. 5 and a of FIG. 6).

On the other hand, the lower plate 30 is raised by the oil flowing back to the vacuum equipment 5 through the vacuum line (7), wherein the lower plate 30 is as shown in b and FIG. As described above, it is moved along the guide shaft 51 or the fixing bolt 55 to be in close contact with the lower surface of the upper plate 10.

Here, since the second through hole 33 of the lower plate 30 does not form a straight line with the first through hole 13 of the upper plate 10, the lower plate 30 rises due to the oil flowing back to the upper plate. The second through hole 33 is closed when it is in close contact with the lower surface of the (10), so that the oil flowing back flows through the second through hole 33 of the lower plate 30 and the first through the upper plate 10 There is no fear of moving to the vacuum device 5 through the sphere 13 (see b of FIG. 5 and b of FIG. 6).

Here, although not shown in the drawings, the oil flowing back through the gap formed between the edge of the lower plate 30 and the inner wall of the protrusion 11 of the upper plate 10 to prevent the oil from moving to the vacuum equipment (5) 30) the rim of the rubber material is preferably provided.

Next, the upper plate 10 and the lower plate 30 is more preferably made of a known aluminum material of light weight, such as hydronallium, almine, Aldrie, alclad.

As described above, when the upper plate 10 and the lower plate 30 are made of aluminum, the upper plate 10 and the lower plate 30 may be corroded by impurities contained in oil flowing back.

According to the present invention configured as described above, the lower plate 30 accommodated inside the protruding portion 11 of the upper plate 10 is lifted by the oil flowing back from the oil rotary pump 3 toward the vacuum equipment 5. Since the second through hole 33 of the lower plate 30 is closed when it is in close contact with the lower surface of the upper plate 10, the oil flowing back flows through the second through hole 33 and the upper plate 10 of the lower plate 30. There is no fear of moving to the vacuum device 5 through the first through-hole 13 of), and as a result, there is no fear of failure due to oil backflowing the vacuum device 5 as well as the conventional method. Since there is no need to shut off the oil flowing back to the vacuum equipment 5 by using an expensive check valve, a trap, etc., there is an advantage that the cost can be significantly reduced.

1 is a partial cutaway perspective view schematically showing a conventional centering,

2 is a perspective view schematically showing an oil backflow prevention plate for an oil rotary pump according to an embodiment of the present invention;

3 and 4 is an exploded perspective view schematically showing a state in which the lower plate is separated from the upper plate,

5 and 6 are cross-sectional views schematically showing a state in which the lower plate is in close contact with the lower surface of the upper plate to block backflow oil.

*** Explanation of symbols for main parts of drawing ***

3; Oil rotary pump, 5; Vacuum Equipment,

7; Vacuum line 9; Centering,

10; Top plate 11; projection part,

13; First through-hole, 15; O-Ring,

30; Lower plate, 33; 2nd passage,

35; Fasteners, 50; Guide member,

51; Guide shaft 53; Guide groove,

55; Fixing bolt, 57; nut.

Claims (3)

A top plate fixed to an interior of a vacuum line connected between the oil rotary pump and the vacuum equipment, and having a first through-hole formed on the surface at equal intervals so as to be located inside the protrusion formed at the bottom; It is accommodated so as to be movable inside the protrusion of the upper plate to block the oil flowing back in the direction of the vacuum equipment from the oil rotary pump through the vacuum line, and is lifted by the oil flowing back to be in close contact with the lower surface of the upper plate A lower plate having a second through hole which does not form a straight line with the first through hole of the upper plate at equal intervals; The guide shaft is formed at equal intervals vertically at the inner side of the protrusion of the upper plate, and the guide groove is formed at equal intervals on the edge of the lower plate and open at one side so that the guide shaft can be accommodated inside. Guide plate for guiding the oil backflow prevention plate for an oil rotary pump comprising a. The method of claim 1, The guide member has a fixing bolt which is screwed to the upper plate through the fastening hole formed at equal intervals in the lower plate; Oil backflow prevention plate for an oil rotary pump, characterized in that consisting of; nut coupled to one end of the fixing bolt is screwed to the top plate exposed to the outside. The method of claim 1, The upper plate and the lower plate is an oil backflow prevention plate for an oil rotary pump, characterized in that the aluminum material.

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