RU95784U1 - PROTECTION SYSTEM OF HEAT AND POWER EQUIPMENT - Google Patents

Abstract

 1. The protection system of heat and power equipment, including a system operation control device, a membrane discharge device associated with it, consisting of a housing, a main locking element placed therein in the form of an elastic disk in contact with a saddle, the elastic disk being rigidly connected to one end of the rod, which the other end is connected to the membrane of the membrane actuator located in the upper part of the device, and the membrane is made in the form of a plate, pinched between the flanges of the cover, at the top the parts of which are fitted with a fitting for filling the supmembrane space and an additional locking element with an independent drive, characterized in that the additional locking element and its independent drive are installed coaxially with the membrane actuator, and the membrane is made of elastic material, the elastic disk of the locking element is multilayer and equipped with guides providing parallelism of the elastic disk to the surface of the saddle. ! 2. The protection system according to claim 1, characterized in that the additional locking element is made in the form of a membrane valve, in the body of which holes are made, designed to drain the liquid from the membrane valve.

Description

The proposed system for protecting heat power equipment from high pressure refers to automated mechanisms that protect heat power equipment from accidents associated with increased pressure of the energy carrier, water, air, steam or coolant.

The proposed system is designed to protect the heat supply system and heating equipment of thermal power plants from high pressure waves (water hammer), resulting from a sharp increase in hydraulic resistance in pipelines during emergency shutdown of network pumps, closing valves, valves, etc.

Protection is carried out by dumping from the pipeline into the drainage of network water in an amount that provides a cut-off at a given level of high pressure waves.

A device for "pressure relief containing a main shutoff member connected to a membrane actuator, a supram Diaphragm cavity which is connected to a pressure pipe, an auxiliary shutoff member connected to a standalone drive, communicating a supranembrane cavity of a main shutoff actuator with drainage, and a sensitive-setting element ( see ed. St. 623045 according to CL F16L 55/02, 1975)

A disadvantage of the known device is that it cannot provide the opening speed of the main locking element, which is necessary when the pressure in the systems increases at the time of the water hammer, since they have a link including a sensitive-defining element and an auxiliary locking element that works according to the law of proportional regulation and, consequently, the delay time of the full opening of the main locking element is quite large due to the presence of pressure backwater in the supra-piston cavity.

A known system of protection of heat power equipment containing an actuator kinematically connected with a locking-regulating device mounted using a tripod (see patent No. 2151388, according to CL P16K 31/42, 1995)

The housing of the locking-regulating device is divided into two cavities by a movable element kinematically connected by means of a rod with an actuator.

A spring is installed in the cup adjacent to the cavity, and an element is located at the end of the stem in contact with the saddle made in the partition of the actuator housing.

A disadvantage of the known system is the low reliability. This is due to the fact that pressure stabilization in the second cavity is carried out by the same working medium, which is regulated by the actuator, which is not always possible.

Closest to the technical nature of the proposed utility model is a protection system for heat and power equipment, including a device for controlling the operation of the system, a membrane discharge device associated with it, consisting of a housing placed in it the main locking element, in the form of an elastic disk in contact with the saddle, and elastic the disk is rigidly connected to one end of the rod, which the other end is connected to the membrane membrane actuator located in the upper part of the device, when than the membrane is made in the form of a plate, around the circumference pinched between the flanges of the cover, in the upper part of which there is a fitting for filling the supmembrane space and an additional locking element with an independent drive (see ed. St. No. 881449 according to class F16L 55/02, 1979)

The disadvantages of the known design are:

- the complexity of operation of the known design, because precise installation and adjustment of its elements is required, due to the fact that a change in the gaps in the structure between the elements will inevitably lead to disruption of its operation;

- the system is installed in the premises of pumping stations, heat supply sources, central heating systems, i.e. in rooms with high humidity, i.e. under conditions conducive to the occurrence of corrosion of system elements, and given the rather rare need for the system to operate, despite the requirements for periodic inspection and maintenance, it is not possible to maintain the operability of the structure.

- not the ability to ensure the opening speed of the main locking element, which is necessary when the pressure in the systems increases at the time of the water hammer,

- a complex kinematic diagram of the actuator for opening the drain valve from the supmembrane space of the valve.

The technical result of the invention is the creation of a protection system for heat power equipment that allows you to quickly prevent an increase in the pressure of the medium in the pipelines in excess of the permissible values, including water hammer.

The technical result in the proposed utility model is achieved by creating a protection system for heat and power equipment, including a system operation control device, an associated membrane discharge device, consisting of a housing, a main locking body located therein, in the form of an elastic disk in contact with the seat, and the elastic disk is rigidly connected to one end of the rod, which the other end is connected to the membrane membrane actuator located in the upper part of the device, and the meme the wound is made in the form of a plate fixed between the flanges of the cover, in the upper part of which there is a fitting for filling the supmembrane space and an additional locking element with an independent drive, in which, according to a utility model, an additional locking element and its independent drive are installed coaxially with the membrane actuator, when the membrane is made of an elastic material, and the elastic disk of the locking member is multilayer, and is equipped with guides that ensure parallelism of the elastic about a disk to a surface of a saddle;

The implementation of the additional locking element in the form of a membrane valve, in the body of which holes are made, designed to drain the liquid from the membrane valve, can provide the opening speed of the main locking element, which is necessary when the pressure in the systems increases at the time of the water hammer.

The conducted patent studies showed that technical solutions with the indicated set of essential features are not known in similar protection systems for thermal power equipment, i.e. the proposed solution meets the criterion of "novelty."

We believe that the information set forth in the application materials is sufficient for the practical implementation of the invention

The essence of the proposed utility model is illustrated by the following description of the proposed solutions and drawings, where

Figure 1 shows a section of a membrane discharge device;

Figure 2 shows a diagram of a system for protecting heat power equipment, in which a hydraulic type is used as a device for controlling the operation of the system;

Figure 3 shows a diagram of a protection system for heat power equipment, in which an electro-hydraulic type is used as a device for controlling the operation of the system.

The protection system of heat and power equipment consists of a device for controlling the operation of the system, an associated membrane discharge device.

The membrane discharge device consists of a housing 1, the main locking element located in it, in the form of an elastic disk 2 in contact with the seat 3, and the elastic disk 2 is rigidly connected to one end of the rod 4, which is connected to the membrane actuator membrane at the other end the upper part of the device and the additional locking element 5 with a drive 6, which reduces the opening time of the main locking node.

The elastic disk 2 of the main locking node is multilayer and is equipped with guides 7, which ensure parallelism of the elastic disk to the surface of the saddle.

The implementation of the multilayer disk allows you to provide a more snug fit of the disk to the saddle and thereby seal the device.

The membrane actuator comprises a membrane 8 made of an elastic material in the form of a plate, in a circle fixed between the flanges of the cover 9.

In the upper part of the cover 9 there is a fitting 10 for filling with a liquid the supra-membrane space 11.

The design of the additional locking member 5 is similar to the main locking member.

However, holes 12 are provided in its body for quick drainage of liquid from it, while an additional locking element 5 and its drive 6 are installed coaxially with the membrane actuator.

The system operation control device may consist of two drives (main and auxiliary) of a different type (either hydraulic or electro-hydraulic type) depending on the technological capabilities and tasks of the system.

The design of the additional locking member 5 and its drive 6 are similar to the designs of the main locking member and its drive.

Consider the operation of the protection system of heat power equipment when using various types of control devices for the operation of the system.

Example 1 The actuator of the hydraulic type of control of the membrane discharge device contains a sensing element 13.

The membrane discharge device is installed on the protected pipe 14, through the main locking element.

When the pressure rise in excess of the permissible value, which is controlled by the sensitive element 13 (e.g., pressure regulator RD-3M) which is supplied via the control line _{L, RI} (hydraulic connecting line), there is a response and switching to pressure relief from the sensing element 13 and from the above-membrane space 15 of the actuator 6 of the membrane discharge device connected through the line L. _r.kh. .

In turn, there is a pressure release from the supmembrane space 11 of the main valve, which is directly opened by the pressure supplied under the disk 2 from the supply pipe 16 of the protected pipeline

After lowering the pressure, the sensing element 13 switches to the mode of supplying pressure from the line of working water L _r.v. to the hydraulic actuator 6 of the membrane discharge device through the line L. _r.kh. . The pressure in the above-membrane space 15 of the hydraulic actuator 6 increases and thereby closes the drain hole of the hydraulic actuator of the main valve.

After closing, pressure begins to increase in the hydraulic drive of the main locking unit fed along the line L. _r.v. and thereby closes the drain from the protected pipeline.

Example 2 An electro-hydraulic drive type may consist of an electrocontact pressure gauge 17, an electromagnetic valve 18 with a signal converter 19, an intermediate relay 20, and an uninterruptible power supply unit 21

A membrane discharge device is installed on the protected pipe 14, through a locking element.

When the pressure rises above the permissible value, which is controlled by an electric contact pressure gauge 17, the pulse is fed to an intermediate relay 20, which is connected to the pressure gauge 17 through an uninterruptible power supply 21.

Uninterruptible power supply 21 gives a pulse to the opening of the electromagnetic valve 18, there is a pressure release from the supmembrane space 14 of the hydraulic actuator 6 membrane discharge device.

In turn, the pressure is released from the supmembrane space 11 of the main organ, which is directly opened by the pressure supplied under the elastic disk 2 from the supply pipe 16, which is protected by the pipeline.

After lowering the pressure, which is controlled by means of an electric contact pressure gauge 17, the pulse is supplied to an intermediate relay 20, which in turn stops supplying a pulse to the electromagnetic valve 18, which closes.

The pressure in the submembrane space 14 of the hydraulic actuator 6 of the membrane discharge device increases and thereby closes the drain hole of the main valve.

After closing, pressure begins to increase in the hydraulic actuator of the main valve, supplied along the line L. _r.v. , and thereby closes the drain of the protected pipeline.

A prototype of the proposed utility model was manufactured and the following results were obtained.

Technical characteristics of the membrane discharge device.

Work Agent (Wednesday) network water The temperature of the working agent, ° C, no more than 90

Team pressure change

hydraulic drive, MPa from 0.1 to 1.0 Ambient temperature, ° С from 0 to 40 Unregulated leakage through a closed valve,% 0 Response time, sec no more than 0.1

Claims (2)

1. The protection system of heat and power equipment, including a system operation control device, a membrane discharge device associated with it, consisting of a housing, a main locking element placed therein in the form of an elastic disk in contact with a saddle, the elastic disk being rigidly connected to one end of the rod, which the other end is connected to the membrane of the membrane actuator located in the upper part of the device, and the membrane is made in the form of a plate, pinched between the flanges of the cover, at the top the parts of which are fitted with a fitting for filling the supmembrane space and an additional locking element with an independent drive, characterized in that the additional locking element and its independent drive are installed coaxially with the membrane actuator, and the membrane is made of elastic material, the elastic disk of the locking element is multilayer and equipped with guides providing parallelism of the elastic disk to the surface of the saddle. 2. The protection system according to claim 1, characterized in that the additional locking element is made in the form of a membrane valve, in the body of which holes are made, designed to drain the liquid from the membrane valve.