RU144942U1 - GAS COMPRESSOR OIL SEAL - Google Patents

Abstract

1. The gas compressor gasket containing at least one sealing chamber located in a separate housing and containing cut sealing ring and locking ring, the segments of which are tightened by a spring ring, characterized in that the sealing chamber additionally includes a thrust ring, pressed against the sealing ring ring with at least one spring. 2. An oil seal according to claim 1, characterized in that it contains a flange in which the sealing chamber is located. An oil seal according to claim 2, characterized in that it comprises a clamping ring, wherein the clamping ring, flange and housing of the sealing chamber are connected by studs with union nuts. An oil seal according to claim 1, characterized in that the thrust ring is fixed to the housing with guide screws. An oil seal according to claim 1 or 2, characterized in that the locking and sealing rings are made of graphite-plastic material and are fixed to each other by a pin. 6. Gland according to claim 1 or 2, characterized in that the housing of the sealing chambers and the flange are made of steel. An oil seal according to claim 2, characterized in that a rubber ring of circular cross section is located in the groove of the flange housing.

Description

The field of technology.

The inventive utility model relates to a sealing technique and can be used to seal the cylinder of gas compressors.

The prior art.

A rod seal is known (RF patent for IZ No. 2144664, F16J 15/56 [1]), consisting of split sealing rings located in the working chamber (sealing chamber), on the outer surface of each of which an annular groove is made, and elastic elements placed in mentioned annular grooves. Each o-ring has a pair of through cuts parallel to each other, and the cuts of each pair are made tangent to the inner surface of the sealing rings at diametrically opposite points and in opposite directions.

It is known to seal the stem or plunger (RF patent for IZ No. 2016308, F16J 15/26 [2]), containing a sealing ring made of three parts covered by segments, and a locking ring made of three sectors. Each ring is pulled together by a bracelet spring entering a ring groove on the outer cylindrical surface of the ring. In the groove in the places where the parts of the rings are interconnected, cylindrical recesses are made along the entire width of the groove. The interface between the cylindrical surfaces of the groove and the recess is rounded.

The disadvantage of both devices is the low efficiency of sealing devices. This is due to the fact that there is no additional uniform preload in the devices, sealing is carried out only due to the elastic properties of the rings, bracelet springs and gas pressure. Over time, due to wear of the material, the rings will lose their elastic properties, and, due to the lack of additional uniform preload, their sealing efficiency decreases.

The specified sealing device [2] is the set of essential features the closest system of the same purpose to the claimed utility model. Therefore, it is adopted as a prototype of the claimed utility model.

Disclosure of a utility model.

The technical result provided by the claimed utility model is to increase the efficiency of sealing the gland.

The essence of the utility model consists in the fact that the gas compressor gasket contains at least one sealing chamber located in a separate housing and containing a cut sealing ring and a closing ring, the segments of which are tightened by a spring ring, while the thrust ring is additionally included in the sealing chamber, pressing against the o-ring with at least one spring.

If the gland contains a flange, then a sealing chamber is placed in it.

The gland may contain a clamping ring, while the clamping ring, flange and housing of the sealing chamber will be connected by studs with union nuts.

It is advisable to fix the thrust ring to the housing with guide screws.

The closing and sealing rings are preferably made of graphite-plastic material and fixed with a pin.

Housings of sealing chambers and flange can be made of steel.

A rubber ring of circular cross section may be located in the groove of the flange housing.

A brief description of the drawings.

The essence of the utility model is illustrated by the following graphic materials. The figure 1 shows a diagram of the stuffing box, side view. Figure 2 - diagram of the seal, front view. Figure 3 and figure 4 shows the locking ring, front view and side view, respectively. Figure 5 and figure 6 shows the o-ring, front view and side view, respectively.

Implementation of a utility model.

The gland (figure 1, figure 2) contains a flange (1), at least one sealing chamber (2) and a clamping ring (3). The sealing chamber (2) is located in a separate housing. The number of sealing chambers (2) in the device can reach five (Fig. 1). In this case, one sealing chamber (2) is located inside the flange (1), and the remaining sealing chambers (2) are located in separate housings. The end of the previous body closes the sealing chamber (2) of the next body. The housings of the sealing chambers (2) are assembled on the flange (1) and fastened with two studs (3) М8 × 195-200 with union nuts (4) through the clamping ring (5).

The sealing chamber (2) contains two rings connected to each other by a pin (6) - a locking ring (7) (Fig. 3, Fig. 4) and a sealing (8) (Fig. 5, Fig. 6). These rings are tightened by a thrust ring (9), which is mounted on two screws (10). The thrust ring (9) is pressed by at least one spring (11).

The locking ring (7) consists of a graphite-fluoroplastic ring (12) cut into three segments and tightened by a spring ring (13).

The sealing ring (8) is also graphite-fluoroplastic, cut into segments: inner (14) and outer (15) part, and pulled together by a spring ring (13).

The flange housing (1) and the sealing chamber housings (2) are made of steel.

The seal of the stuffing box in the lantern boring is provided by a rubber ring (16) of circular cross-section. The ring (16) is located in the groove of the gland flange (1). The diameter of the flange (1) is 200 mm.

The gland is mounted in the body of the spacer lamp, installed between the cylinder and the bed. The oil seal is designed to work on a rod with a diameter of 45 mm. Landing diameter 115 mm. An oil seal is attached to the flashlight by two M16 bolts and six M16 studs.

The implementation of the structural elements of the claimed utility model is not limited to the above examples.

Work description.

The gland is mounted on the piston rod in the compressor.

The spring rings (13) press the rings (7 and 8) onto the stem surface. Additionally, at the closing (7) and sealing (8) rings, mutual pressing and sealing of the ring segments between themselves occurs simultaneously. The gas pressure and the springs (11) press the sealing elements against the surface of the stuffing box (2), thereby ensuring sealing in the axial direction. At the same time, the sealing elements that wear out over time are constantly squeezed by springs (11), providing the necessary seal.

Thus, from the foregoing, it follows that in the claimed utility model, the claimed technical result: “increasing the efficiency of the sealing of the stuffing box” is achieved due to the fact that the stuffing box of the gas compressors contains at least one sealing chamber located in a separate housing and containing a cut sealing ring and a closing ring a ring, the segments of which are pulled together by a spring ring, while the seal chamber additionally includes a thrust ring, which is pressed against the sealing ring along the edge at least one spring.

Industrial applicability.

The author of the utility model made a prototype of the claimed utility model, tests of which confirmed the achievement of the technical result.

The inventive utility model can be implemented using industrially produced devices and materials, can be assembled at any industrial enterprise and will be widely used in sealing technology for sealing a cylinder of gas compressors.

Claims (7)

1. The gas compressor gasket containing at least one sealing chamber located in a separate housing and containing cut sealing ring and a closing ring, the segments of which are pulled together by a spring ring, characterized in that the sealing chamber additionally includes a thrust ring pressed against the sealing ring ring with at least one spring. 2. The gland according to claim 1, characterized in that it contains a flange in which the sealing chamber is located. 3. The gland according to claim 2, characterized in that it contains a clamping ring, while the clamping ring, flange and the housing of the sealing chamber are connected by studs with union nuts. 4. The gland according to claim 1, characterized in that the thrust ring is fixed to the housing with guide screws. 5. The gland according to claim 1 or 2, characterized in that the locking and sealing rings are made of graphite-plastic material and are fixed to each other by a pin. 6. The gland according to claim 1 or 2, characterized in that the housing of the sealing chambers and the flange are made of steel. 7. The gland according to claim 2, characterized in that a rubber ring of circular cross section is located in the groove of the flange housing.