RU79964U1 - CYLINDER CRANE KOSKINEN - Google Patents

Abstract

The scope of the utility model is valves that shut off the working environment in pipelines, and can be widely used in water pipelines, oil pipelines, gas pipelines, etc.

The cylindrical crane has a housing, which consists of two mutually perpendicular, hermetically connected pipes of different sections. The pipe of a smaller cross section has a pipeline channel for the passage of the working medium. A pipe of a larger cross section has a channel for a locking member, which has a locking hollow cylinder containing two mutually perpendicular pipes of different sections, hermetically connected to each other, the pipe of a smaller cross section having a hole D _{y of the} conditional passage of the working medium, and the pipe of a larger cross section has an external locking cylindrical surface with sealing elements at the ends, and in the cross section passing through the smaller pipe there is a jumper L, which is larger than the hole D _y , on both sides of the locking cylinder two trunnions with bearings and spindles are fixedly mounted, and two plugs are installed in the pipe, which are bodies for monitoring the leakage of the working medium, and centering sleeves with a seal in the pipe channel and bearings for the bearings are installed at the ends of the pipe. Two sealing bodies with a hole D _y , a seal in the pipe channel and an end sealing surface corresponding to the reciprocal locking cylindrical surface, which are pressed against it by elastic elements, the compression of which is carried out by fixed pipe flanges with a seal in the pipe channel and hole D _y . Organ mounted to spindle

controls for opening and closing the crane when turning 90 °.

The implementation of the locking body with a hollow locking cylinder in the form of two pipes and supports and spindles in the form of pins simplify the design of the locking body and reduce the complexity of its manufacture.

The installation of sealing elements at the ends of the locking cylindrical surface eliminates leakage of the working medium. Sealing elements have a certain service life, and plugs, which are the organs for controlling the leakage of the working medium, give a signal about the leakage of the working medium in various ways and the need to replace them. The implementation of the bushings of the sealing bodies of fluorine plastic can significantly reduce the time of opening and closing of the valve. The manufacture of body pipes and the locking cylinder from organoplastics can significantly reduce the weight and the complexity of manufacturing a crane.

Description

The scope of the proposed utility model is shut-off valves that block the working environment in pipelines, and can be widely used in water pipelines, oil pipelines, gas pipelines, etc.

Conical shut-off valves are known (see DF Gurevich “Pipeline Valve Designer Handbook”, Mechanical Engineering, 1987, p. 72, Fig. 2.4). This crane has a body and a conical plug, which is a locking element, in the cross section of which a hole is made for the passage of the working medium. When turning 90 °, the valve closes. The size and shape of the hole should ensure that in the closed position of the valve overlap with a stopper of the body, sufficient to seal the locking element.

The main advantages are: simplicity of design, low height, low hydraulic pressure.

The main disadvantages are: to control cranes with a large nominal diameter of the passage of the working medium, large torques are required, careful maintenance and lubrication of the sealing surfaces of the conical plug and the casing is necessary to avoid “sticking” of the cork to the casing, the fitting (lapping) of the conical cork to the casing is complicated, uneven wear conical plugs in height, which during operation leads to a decrease in the sealing of the shut-off body.

Spherical valves on supports with a movable sealing ring for pipelines with large nominal diameters of the passage of the working medium are widely known (see DF Gurevich "Pipeline Fittings Designer Handbook", Mechanical Engineering, 1987, p. 78, Fig. 2.12b). This ball valve has a housing, a shut-off element and

two sealing bodies. The housing contains a through channel for the working medium, at the ends of which there are two pipeline flanges with a working fluid through-hole, and a symmetrical flange is provided with a hole perpendicular to the axis of the working medium channel under the shut-off element, which contains a spindle, two bearings and a working surface perpendicular to the axis of the supports a through hole of the passage of the working medium, and it is smaller than the jumper in the cross section, from the end into the hole for the locking element is installed a centering sleeve with sealing elements a bearing support, and on both sides of the blocking member working surface mounted sealing bodies with a central hole of passage of working environment and to seal working fluid channel, which are pressed by springs to the working surface.

The main advantage is the ability to use in pipelines with a nominal bore D _y ≤1400 mm or more at a pressure P _y ≤16 MPa. On the linear part of the main gas pipelines, ball valves are the main locking devices. They have been widely used at other gas pipeline facilities.

The main disadvantages are: low-tech design of the ball valve during machining and assembly of the valve, leading to the complexity of manufacturing the valve and increased cost, as well as viscous and contaminated working environments lead to rapid wear of the sealing bodies.

Known cylindrical valve (see RF patent for utility model No. 63012, 05/10/2007.), Having a housing, which consists of two mutually perpendicular, hermetically connected pipes of different sections, and the pipe of a smaller section has a pipeline channel of the passage of the working medium, and a larger cross-section pipe has a channel for a locking member with a locking cylindrical surface, in the transverse

the cross section of which a hole of the conditional passage of the working medium D _{y is made} , which is smaller than the jumper L in this section, moreover, there are plugs on both sides of this surface along the support and spindle, as well as on both sides of this surface, while the pipe ends are fixed centering sleeves with bearings for bearings, and in the pipeline channel on both sides of the locking cylindrical surface there are sealing bodies made in the form of bushings with a hole D _y , a seal in the pipe channel and end sealing surface corresponding to the mating locking cylindrical surface, which are pressed against it by elastic elements, the compression of which is ensured by pipe flanges fixed at the pipe ends with a hole D _y and a seal in the pipe channel. A control element is installed on the spindle, which provides the opening and closing of the crane when turning 90 °.

According to the technical nature of the known cylindrical crane has all of the above common features with the proposed utility model, therefore, taken as a prototype.

The task to create a useful model is to simplify the design of the locking element and reduce the complexity of its manufacture, increase the tightness of the valve with control of the leakage of the working environment.

The problem is achieved in that in a cylindrical valve having a body, which consists of two mutually perpendicular, hermetically connected to each other pipes of different sections, the pipe of a smaller cross section having a pipeline channel for the passage of the working medium, and the pipe of a larger cross section has a channel for a shut-off element with a shut-off element a cylindrical surface, in the cross section of which a hole is made for the conditional passage of the working medium D _y , which

there are fewer jumpers L in this section, and on both sides of this surface there are bearings and spindles, and plugs are installed in the pipe along the edges of the locking cylindrical surface and fixedly centering bushings with a seal in the channel are installed at the pipe ends, and in which there are bearings for bearings, and in the pipe channel on both sides of the locking cylindrical surface there are sealing bodies made in the form of bushings with an opening D _y , a seal in the pipe channel and an end sealing surface, the corresponding reciprocal locking cylindrical surface, which are pressed against it by elastic elements, the compression of which is carried out by fixedly installed pipe flanges with a seal in the pipe channel and the hole D _y , while a control element is installed on the spindle to ensure that the valve opens and closes when turned through 90 °, according to of a useful model, the locking body has a locking hollow cylinder containing two mutually perpendicular, hermetically connected pipes of different sections, smaller cross-section tube has an opening D _y, a larger cross-section pipe having an outer cylindrical surface with a locking sealing members on the ends, and the support and spindles are made in the journals, which are fixedly attached to the stop cylinder, the two bodies are plug control leakage of the working medium.

The proposed utility model is presented schematically:

Figure 1 is an example of a cylindrical crane, a longitudinal section.

Figure 2 is an example of a cylindrical crane, section AA.

The proposed cylindrical crane consists of a housing 1, a locking member 2, two sealing bodies 3, two plugs 4,

control body 5, two centering sleeves 6, two pipeline flanges 7, two elastic elements 8.

The housing 1 consists of two mutually perpendicular, hermetically connected to each other pipes of a smaller cross section 9 and a larger cross section 10. Moreover, a pipe of a smaller cross section 9 has a pipe channel 11 of the passage of the working medium, and a pipe of a larger cross section 10 has a channel 12 under the shut-off element 2.

The locking body 2 has a locking hollow cylinder 13 containing two mutually perpendicular pipes of different sections, hermetically connected to each other. One pipe of smaller cross-section 14 has an opening for the passage of the working medium D _y , another pipe of larger cross-section 15 has an external locking cylindrical surface 16 with sealing elements 17 at the ends, and in cross section the hole for the conditional passage of the working medium D _{y is} smaller than the bridge L in this section, moreover to the locking cylinder 13 are fixedly mounted on both sides of the trunnion 18. In the trunnions 18 are made supports 19 and spindles 20.

Two plugs 4 are the control organs for leakage of the working medium and determine the failure of the sealing elements 17, the service life of which depends on adverse working conditions, by signaling the need for replacement.

Two sealing bodies 3 are installed on both sides of the locking cylindrical surface 16 in the pipe channel 11 and are made in the form of fluoropolymer bushings 21 with a hole D _y , a sealing ring 22 in the pipe channel 11 and an end sealing surface 23 corresponding to the reciprocal locking cylindrical surface 16. Two centering the bushings 6 have a sealing ring 24 in the channel 12 under the locking member 2 and bearings 25 under the supports 19 of the locking member 2.

Two pipe flanges 7 have a hole D _y and a sealing ring 26 in the pipe channel 11.

Assembly of a cylindrical crane is as follows:

Two plugs 4 are installed in the housing 1. To the locking cylinder 13 are fixedly mounted on both sides of the journal 18 and two sealing elements 17 are mounted on the locking cylindrical surface 16, for example, in the form of rubber rings.

O-rings 22 are mounted on two bushings 21.

Bearings 25 and o-rings 24 are mounted in two centering sleeves 6.

O-rings 26 are installed on two pipeline flanges 7.

The locking body 2 is installed in the channel 12 of the housing 1, after which the centering sleeves 6 are installed at the ends of the channel 12 and are fixedly attached to the housing 1.

Sealing bodies 3 are installed in the pipeline channel 11 on both sides of the locking cylinder 13, then elastic elements 8 are installed on both sides, which are compressed by the pipe flanges 7 installed on both ends, which are fixedly attached to the housing 1. A control element is mounted on the spindle 20 from either side 5.

Opening and closing of a cylindrical crane is carried out by turning the control 5 by 90 °.

The implementation of the locking body with a hollow locking cylinder in the form of two mutually perpendicular pipes, and supports and spindles in the form of pins simplifies the design of the locking body and reduces the complexity of its manufacture.

The manufacture of pipes 9 and 10 of the housing 1 and pipes 14 and 15 of the locking cylinder 13 from organoplastics can significantly reduce the weight and the complexity of manufacturing a crane.

The manufacture of bushings 21 of the sealing member 3 of fluoroplastic will reduce the opening and closing times of the valve.

Claims (1)

A cylindrical valve having a body, which consists of two mutually perpendicular, hermetically connected pipes of different sections, the pipe of a smaller cross section having a pipe channel for the passage of the working medium, and the pipe with a larger cross section has a channel for a shut-off element with a shut-off cylindrical surface, in the cross section of which a hole was made for the conditional passage of the working medium D _y , which is smaller than the jumper L in this section, moreover, on both sides of this surface there are a support and a spindle, and in the pipe there is a lock on the edges plugs are installed on the cylindrical surface and fixedly centering sleeves with a seal in the channel are installed at the pipe ends, in which there are bearings for bearings, and sealing bodies are made in the pipe channel on both sides of the cylindrical locking surface, made in the form of bushings with a hole D _y , sealing in the pipe channel and the end sealing surface corresponding to the reciprocal locking cylindrical surface, which are pressed against it by elastic elements, the compression of which carry out fixedly installed pipe flanges with a seal in the pipe channel and the hole D _y , while a control element is installed on the spindle to ensure that the valve opens and closes when rotated by 90 °, characterized in that the locking element has a locking hollow cylinder containing two mutually perpendicular sealingly interconnected by pipes of different cross-section, wherein the smaller cross-section tube has an opening D _y, a larger cross-section pipe having an outer cylindrical surface with a locking seal to the elements at the ends, and the support and spindles are made in the journals, which are fixedly attached to the stop cylinder, the two bodies are plug control leakage of the working medium.