RU171863U1 - SELF-SEALING Gland Knot - Google Patents

Abstract

The device relates to a sealing technique and can be used to seal rotating shafts working in contact with pressurized fluids. The device includes a housing with a cover in which the sealing element, pressure sleeve and stuffing box are coaxially placed, in the perimeter wall of the housing at an equal distance from each other, four through windows are made, into which elastic pressure plates are mounted, fastened externally along the perimeter of the pressure ring, and inside supported by a pressure sleeve moreover, the clamping ring consists of two half rings, which are interconnected, for example, connecting strips, mounted on the housing coaxially with the sealing element using threaded fasteners - for example, studs and adjusting sleeves - with the possibility of adjusting the position of the clamping ring relative to the axis passing through a sealing element, for elastic deformation of the pressure plates and creating pressure on the pressure sleeve pressing the stuffing box. The device operates as follows. Mente set pressure sleeve, stuffing box, the lid and the housing. On the body with the help of pins 9 and adjusting sleeves, a clamping ring is installed, consisting of two half rings that are interconnected by connecting strips. Elastic pressure plates made of spring steel, for example, are attached to the clamping ring, and their thickness is selected depending on the required pressure on the stuffing box and the diameter of the element to be sealed. Elastic clamping plates are installed in four through windows made, for example, by milling, in the housing wall along the perimeter at an equal distance from each other, and rely on the pressure sleeve inside the housing. By twisting the adjusting sleeves, they change the position of the pressure ring relative to the axis passing through the sealing element, which leads to elastic deformation of the elastic pressure plates transmitting pressure through the pressure sleeve of the stuffing box, which ensures its compression when the packing is worn during operation of the device. in the manufacture and installation and allows, having small dimensions, to maintain constant pressure on the stuffing box in the sealing assembly and automatically Ki compensate for its wear.

Description

The device relates to a sealing technique and can be used to seal rotating shafts working in contact with pressurized fluids.

Known stuffing box (Pat. 2277660 Russian Federation, IPC F16J 15/18. Stuffing box [Text] / Novoseltsev S.N., applicant and patentee CJSC "Technology" - No. 2004136478/06; filed December 14, 2004; publ. 10.06 .2006), which includes a housing with a cover in which the sealing element, pressure sleeve and stuffing box, sealing the pressure cavity filled with the working medium are coaxially placed, in the body between the pressure sleeve and the pressure cavity there is a compensating cavity consisting of two chambers separated interconnected by a check valve, separated I'm from the pressure chamber dividing sleeve that interacts through the gland with gland packing.

The disadvantage of the prototype are the large dimensions of the device due to the use of cavities under pressure.

The essence of the claimed technical solution lies in the fact that in the known stuffing box assembly, which includes a housing with a cover, in which the sealing element, pressure sleeve and stuffing box are coaxially placed, four through-holes are made in the housing wall along the perimeter at an equal distance from each other windows in which elastic clamping plates are installed, externally fixed along the perimeter of the clamping ring, and inside resting on the pressure sleeve, the clamping ring consisting of two half rings, is fixed coaxially to the housing The sealing member by means of threaded fasteners with a possibility of adjusting the position of the pressing ring about an axis passing through the sealing element for the elastic deformation of the pressure plates and pressure to the pressure sleeve, the pressing stuffing box.

Thus, the claimed technical solution differs from the prototype in that in the wall of the housing along the perimeter at an equal distance from each other four through windows are made, into which elastic pressure plates are installed, externally secured around the perimeter of the pressure ring, and inside resting on the pressure sleeve, the clamping ring consists of two half rings, mounted on the housing coaxially with the sealing element using threaded fasteners with the ability to adjust the position of the clamping ring relative to the axis, pr passing through the sealed element, for elastic deformation of the pressure plates and creating pressure on the pressure sleeve pressing the stuffing box.

A comparative analysis of the claimed utility model with other technical solutions showed that elastic pressure plates are widely used in technology. It is also known the use of rings, consisting of two half rings, and the implementation of through windows in the housing of the device. However, only the combined use of elastic pressure plates installed in four through-holes made in the wall of the housing along the perimeter at an equal distance from each other, outside is fixed around the perimeter of the pressure ring, and inside resting on the pressure sleeve, and the pressure ring consists of two half rings, fixed on the housing coaxially with the sealing element using threaded fasteners with the ability to adjust the position of the pressure ring relative to the axis passing through the sealing element, for elastically The deformation of the pressure plates and the creation of pressure on the pressure sleeve pressing the stuffing box allows, having small dimensions, to maintain constant pressure on the stuffing box in the sealing assembly and automatically compensate for its wear within the elastic deformation of the pressure plates.

Elastic pressure plates have small dimensions compared with pressurized cavities. The installation of the pressure plates in four through windows made in the wall of the housing along the perimeter at an equal distance from each other, provides a uniform distribution of pressure of the pressure plates on the pressure sleeve. Fixing the pressure plates along the perimeter of the pressure ring, consisting of two half rings, mounted on the housing coaxially with the element to be sealed, gives rigidity to the structure, while providing ease of installation and dismantling of the device in hard-to-reach places. Fixing the clamping ring to the housing using threaded fasteners with the possibility of adjusting the position of the clamping ring relative to the axis passing through the sealing element allows convenient control of the pressure transmitted to the stuffing box by the pressure plates through the pressure sleeve.

Thus, the claimed technical solution allows, having small dimensions, to maintain constant pressure on the stuffing box in the sealing assembly and automatically compensate for its wear.

In FIG. 1 shows a sectional view of a self-sealing stuffing box.

In FIG. 2 shows a section BB of a self-sealing gland assembly.

In FIG. 3 shows a section BB — an embodiment of fixing the half rings of the pressure ring to each other.

The inventive device includes a housing 1 with a cover 2, in which the sealing element 3 is coaxially placed, the pressure sleeve 4 and the stuffing box 5, four through windows are made in the wall of the housing 1 along the perimeter at an equal distance from each other, into which elastic pressure plates are installed 6, fixed on the outside along the perimeter of the clamping ring 7, and on the inside resting on the pressure sleeve 4, and the clamping ring 7 consists of two half rings that are interconnected, for example, connecting straps 8, is fixed on the casing 1 but with a sealing element 3 using threaded fasteners - for example, studs 9 and adjusting sleeves 10 - with the possibility of adjusting the position of the pressure ring 7 relative to the axis passing through the sealing element 3, for elastic deformation of the pressure plates 6 and creating pressure on the pressure sleeve 4 pressing gland packing 5.

The device operates as follows.

A pressure sleeve 4, an stuffing box 5, a cover 2 and a housing 1 are installed on the sealing element 3. A pressure ring 7 consisting of two half rings that are interconnected by connecting rods 8. is mounted on the housing 1 with the help of studs 9 and adjustment sleeves 10. ring 7 fastens elastic pressure plates 6, made, for example, of spring steel, and their thickness is selected depending on the required pressure on the packing 5 and the diameter of the sealing element 3. Elastic pressure the plates 6 are installed in four through windows made, for example, by milling, in the wall of the housing 1 along the perimeter at an equal distance from each other, and inside the housing 1 are supported by the pressure sleeve 4. Twisting the adjustment sleeves 10, change the position of the pressure ring 7 relative to the axis passing through the sealing element 3, which leads to elastic deformation of the elastic pressure plates 6, transmitting pressure through the pressure sleeve 4 of the stuffing box 5, which ensures its compression when the wear of the stuffing box 5 about the device’s operating time.

The inventive device is simple to manufacture and install and allows, having small dimensions, to maintain constant pressure on the stuffing box in the sealing assembly and automatically compensate for its wear.

Claims (1)

A self-sealing stuffing box, which includes a housing with a cover in which the sealing element, pressure sleeve and stuffing box are coaxially placed, characterized in that four through-windows are made in the housing wall along the perimeter at an equal distance from each other, in which elastic pressure plates are installed fixed on the outside along the perimeter of the clamping ring, and on the inside resting on the pressure sleeve, the clamping ring consisting of two half rings, mounted on the housing coaxially with the sealing element by means of threads new fasteners with the ability to adjust the position of the pressure ring relative to the axis passing through the sealing element, for elastic deformation of the pressure plates and create pressure on the pressure sleeve, pressing the stuffing box packing.

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