RU194816U1 - LATCH FOR EMERGENCY STOPPING OF FUEL PIPELINES - Google Patents

Abstract

The utility model relates to the oil and gas industry, in particular, to means for emergency shutdown of an oil well or fuel pipeline in the event of a fire, preventing open gushing of oil, the spread of fire and environmental pollution. The technical result in the implementation of the utility model consists in expanding the arsenal of technical means used for emergency shutdown of fuel pipelines, simplifying the design of the device and improving fire safety during operation of an oil well or fuel pipeline. To achieve a technical result, a valve for emergency shutdown of fuel pipelines is proposed, comprising a housing (1) with a cover (2), a shutter (3), rigidly connected to a stem (4) installed in a rack (5), mounted on the housing cover and provided with an opening in its crossbar for the passage of the rod, and a rod displacement mechanism located outside the housing. What is new is that the rod displacement mechanism is capable of automatically operating and blocking the passage of the medium in case of fire, while it contains a spring (6) mounted on the rod (4), made of a material with the effect of a “shape memory”, for example, nitinol and acting by changing the length during transformation to the rod using the thrust nut (7) fixed in the part of the rod located above the body of the rod. At the same time, supporting disks are installed at the ends of the spring (6), one of which (8) is supported by a thrust nut (7), and the second (9) is rigidly attached to the crossbar of the rack (5). In addition, the valve comprises a double-disk wedge gate formed by two disks located at an angle to each other and rigidly fastened to each other with the possibility of self-installation relative to the body seats. 2 s.p. f-ly, 2 ill.

Description

The utility model relates to the oil and gas industry, in particular, to means for emergency shutdown of an oil well or fuel pipeline in the event of a fire, preventing open gushing of oil, the spread of fire and environmental pollution.

A device is known for emergency clamping of pipes, containing a drive blocking element in the form of plungers made with the possibility of clamping the pipe and blocking its internal channel, and a support by means of which the device is mounted on a casing or an overlapping pipeline, while the plungers are equipped with thermal elements and are made of materials with the effect of "shape memory", providing a change in the shape of the plungers when the temperature of the plungers reaches the point of transformation of the shape of their materials (RF Patent No. 2 161690 C2, priority date 02.11.1998, publication date 10.01.2001, authors: Kocharov O.B. et al., RU).

A disadvantage of the known analogue is the low probability of complete closure of the internal channel, as well as the high energy intensity of the process of clamping pipes.

Dice preventers having a locking member and drive hydraulic cylinders with a mechanism for automatically operating the preventer, the main function of which is sealing the mouth of an oil and gas well in emergency situations, are widely known in the prior art. According to the method of sealing, die preventers are hydraulically controlled and with manual drive fixing the die.

Known, for example, is a hydraulic die preventer (RF Patent No. 2584707 C1, priority date 01/26/2015, publication date 05/20/2016, authors: Legostaev A.M. et al., RU), as well as a die preventer (RF Patent No. 2632721 C1 , priority date 09/26/2016, publication date 10/09/2017, authors: Legostaev A.M. et al., RU).

A common disadvantage of these analogues is the complexity of the design of the preventer, in particular, hydraulic drives and manual dies drives.

A device for sealing a wellhead is known, comprising a housing with a preventer installed between the upper and lower flanges of the pipelines, including a shutoff member and drive hydraulic cylinders with a mechanism for automatically operating the preventer, which is made in the form of a spool installed in the cylinder. In this case, the spool cylinder is mounted on the pipeline fitting below the lower flange and has a connection with the atmosphere and the cavities of the hydraulic cylinders and the pipeline, the spool is made in the form of one piston half the length of its cylinder with a spring-loaded rod, the piston cavity communicating with the pipeline cavity and the piston cavities of the preventer hydraulic cylinders, and the over-piston cavity with the atmosphere and under-piston cavities of the preventer hydraulic cylinders, while the piston rods of the hydraulic cylinders are spring-loaded from the over-piston side (Paten RF №2347061 C1, priority date 07.05.2007, publication date 20.02.2009, author Shafeev RY, RU, prototype).

The disadvantage of the analogue is the design complexity, due to the need for a hydraulic actuator for automatic operation of the preventer.

As a prototype, a gate valve with a retractable stem is used, which is used as a stop valve, comprising a housing directly integrated into the trunk and a cover forming a cavity under the gate in the form of a valve interacting with the seats located in the housing; the valve is connected to a retractable rod moving perpendicularly flow axis, the rod is mounted in a rack mounted on the housing cover and provided with a hole in the crossbar for extending the rod, a chassis is installed in the part of the rod located above the housing I’m a nut, forming with the rod a mechanism for translating the shutter (http://severarm.ru/stati/ustroistvo-zadvizhek.html. viewing date 02/13/2019, prototype).

The disadvantage of the prototype is the lack of automatic activation of the shut-off body in case of fire.

The technical problem solved by the utility model is the creation of a simplified design of a device for emergency shutdown of an oil well or fuel pipeline in case of fire or occurrence near a fire hazard by ensuring the automatic actuation of the shut-off element.

To solve a technical problem, a valve was proposed for emergency shutdown of fuel pipelines, comprising a housing with a cover, a shutter rigidly connected to a rod mounted in a rack mounted on the housing cover and provided with an opening in its crossbar for the passage of the rod, and a rod movement mechanism located outside the housing . What is new is that the rod movement mechanism is configured to automatically operate and block the passage of the medium in case of fire, while it contains a spring mounted on the rod, made of material with the effect of “shape memory” and acting by changing the length during transformation on the rod using a fixed in above the body of the stem part of the thrust nut, and at the ends of the spring supporting discs are installed, one of which is supported by the thrust nut, and the second is rigidly attached to the crossbar of the rack.

According to a utility model, the valve comprises a double-disk wedge gate formed by two disks located at an angle to each other and rigidly fastened together with the possibility of self-installation relative to the body seats.

According to a utility model, the spring is made of nitinol.

In FIG. 1 schematically shows a valve for emergency shutdown of fuel pipelines, a longitudinal section, the position is “closed”; in FIG. 2 is the same side view.

The valve for emergency shutdown of fuel pipelines is made on the basis of the well-known valve with a sliding stem, used as stop valves, and contains a housing 1 with flanged ends for installation in the trunk and with a cover 2 forming a cavity with the housing 1, in which the double-disc is placed in the open position wedge gate 3, consisting of two disks rigidly fastened to each other, located at the same angle to each other as those made in the saddle body. The double-disk wedge gate 3 is rigidly connected to the sliding rod 4, which is installed in the rack 5, mounted on the cover 2 of the housing and provided with an opening in the center of the crossbar of the rack, covering the sliding rod 4. The valve also contains a mechanism for moving the rod, which is made with the possibility of automatic response in case of fire and contains a spring 6 mounted on the rod 4, made of a material with the effect of "shape memory", which is a drive element that affects the change in length during transformation on the rod 4 using replennoy located above a body of the stem thrust nut 7.

At the same time, supporting disks 8, 9 are installed at the ends of the spring 6, and the disk 8 is supported on the thrust nut 7, and the disk 9 is rigidly attached to the crossbar of the rack 5.

The implementation of the protective function for fire safety using the inventive device is as follows.

When operating fuel pipelines in standard safe mode, the spring 6 has its original initial length, and the double-disk wedge gate 3 is located in its highest position (according to the drawing). In this case, the valve body 1 is open for the passage of the work flow. In the event of an emergency, in particular, a fire in the well or in the area of the pipeline, the temperature near the valve rises sharply. The spring 6, made of a material with a shape memory and which is a driving element of the automatic actuation mechanism, changes shape when heated, becomes longer and acts on the thrust nut 7 of the rod 4 by the lower support disk 8, as a result of which the double-disk wedge gate 3 connected to the rod 4 moves down and blocks the passage of the housing 1, as shown in the drawing. After the emergency, the spring 6 returns to its original initial position, and the passage of the work flow resumes.

Thus, the advantage of the inventive valve for emergency shutdown of fuel pipelines is the simplicity of design compared to analogues due to the presence of a simplified mechanism for automatic operation in case of fire due to the use of a spring made of a material with shape memory as a drive element. The design does not require special maintenance; it can be performed on the basis of a prefabricated gate valve, which reduces manufacturing and operation costs.

The technical result in the implementation of the utility model consists in expanding the arsenal of technical means used for emergency shutdown of fuel pipelines, simplifying the design of the device and improving fire safety during operation of an oil well or fuel pipeline.

Claims (3)

1. The valve for emergency shutdown of fuel pipelines, comprising a housing with a cover, a shutter rigidly connected to a rod mounted in a rack mounted on the housing cover and provided with a hole in its crossbar for the passage of the rod, and a rod movement mechanism located outside the housing, characterized in that the rod movement mechanism is configured to automatically operate and block the passage of the medium in case of fire, while it contains a spring mounted on the rod made of material with the effect of "memory" forms ”and acting by changing the length during transformation onto the rod with the help of a thrust nut fixed in the part of the rod located above the body of the rod, with support discs installed at the ends of the spring, one of which is supported by the thrust nut, and the second is rigidly attached to the crossbar of the rack. 2. The valve according to claim 1, characterized in that it comprises a double-disk wedge lock formed by two disks located at an angle to each other and rigidly fastened to each other with the possibility of self-installation relative to the body seats. 3. The valve according to claim 1, characterized in that the spring is made of nitinol.

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