UA145046U - DEVICE FOR FORCE CREATION DURING SEALING OF FLANGE JOINTS OF MAIN CONNECTORS OF PUMP HOUSINGS - Google Patents

Abstract

The device for creating a force when sealing the flange connections of the main connectors of the pump housings comprises a casing, in the inner cavity of which are hydraulic actuators and high pressure pipelines, and a system of automatic control and data processing. At least two series-paired cylinders are mounted vertically in each actuator, the working chambers of which are hydraulically connected, and the automatic control system includes wireless digital indicators with a built-in Bluetooth LE signal reception and transmission channel, which are located on the actuators. 1

Description

A utility model belongs to the field of mechanical engineering and can be used to seal the connectors of pump housings and other pressure equipment.

A well-known hydraulic device (Uuepshek) for sealing the connector of pump housings.

This device provides simultaneous loading of all pins of the housing connector. The disadvantages of the UMUepshshchek device are that in the case of an increase in the required axial force at the existing maximum working pressure in the hydraulic system, it is necessary to increase the radial dimensions of the operating mechanisms, which is impossible in the conditions of limited space between the fastening elements.

From the state of the art, a device for sealing and unsealing the lids of pressure tanks is known (Patent KO Mo 2319876, MPK8 E16.)13/02, filing date: 03.11.2006), which contains M power elements for pulling out pins, made in the form of hydraulic jacks, hydraulically connected to each other, each of which includes at least one hydraulic cylinder and one hollow piston, a hollow support cylinder, the lower end of which is installed above the cover of the pressure tank, a rod that passes inside the piston and the support cylinder and is fixed on a pin during the extraction process, at the same time, the device is equipped with a single one for all

M hydraulic jacks with a body connected to the upper ends of the rods and including M hydraulic cylinders, the hollow support cylinders are made movable relative to the single body, while the upper ends of the hollow support cylinders are connected to the lower ends of the hollow pistons. The disadvantage of this solution is the creation of a very high working pressure in the hydraulic cylinder and, secondly, the execution of the hydraulic cylinder piston with a large working area and, as a result, a diameter. This leads to an increase in the dimensions of the device and a decrease in the reliability of hydraulic system nodes with increased requirements for the safety of work.

A device for sealing and unsealing lids of pressure tanks is known (Patent KO

Mo 130363, IPC E16213/02; filing date 16.12.2013), containing M power elements for pulling out pins with compression nuts, each of which includes a hollow support mounted on the cover of the pressure tank, a hydraulic cylinder body with a piston and a rod made in its lower part, located inside the hollow support and supported on the latter, while the power units are equipped with a sag sleeve connecting the rod with the pin, and at least one spring placed between the flanges made in the upper part

From the protruding sleeve and the lower part of the hydraulic cylinder housing. The disadvantage of this solution is the creation of a very high working pressure in the hydraulic cylinder and, secondly, the execution of the hydraulic cylinder piston with a large working area and, as a result, a diameter. This leads to an increase in the dimensions of the device and a decrease in the reliability of hydraulic system nodes with increased requirements for the safety of work.

The closest analogue to the proposed technical solution is a device for creating a force when sealing flange connectors of equipment housings (Patent SHA Mo 71976, IPK E16B 1/00, filing date 04/20/2010). The device has hydraulic actuators, the number of which corresponds to the number of fastening elements, sealing the flange connectors of the equipment housings, and in each actuator, the necessary number of power hydraulic cylinders is installed coaxially, connected mechanically and hydraulically so that the axial force is summed up. The disadvantage is the design of the hydraulic cylinder piston with a large working area and, as a result, a diameter. This leads to an increase in the dimensions of the device and a decrease in the reliability of hydraulic system nodes with increased requirements for the safety of work. In addition, in the known solution, infrared ports are used in the automatic control system, the signal from which is transmitted through a wired connection to the computer, which does not allow receiving information remotely.

The useful model is based on the task of reducing the working pressure in the hydraulic system of the device while providing the necessary effort when pulling out the pins and increasing the reliability and durability of the equipment elements.

The task is solved by the fact that the device for creating force when sealing the flange connections of the main connectors of the pump housings contains a casing, in the inner cavity of which there are hydraulic actuators and high-pressure pipelines, and an automatic control and data processing system. At least two serially paired cylinders are vertically installed in each executive mechanism, the working chambers of which are connected by a hydraulic connection, and the automatic control system includes wireless digital indicators with a built-in signal reception-transmission channel Vipeifooii IE, which are located on the executive mechanisms.

In addition, thirty executive mechanisms were used, which are made with the possibility of creating the necessary force when pulling out the pin and transferring this force through the thrust, which is part of the executive mechanism, to the pin.

In addition, the calculation of the axial force on the pin created by one executive mechanism is calculated by the formula Ro-Prx5, where Ro is the created axial force, Pp is the working pressure kg/sme, 5 is the total area of the working surfaces of two serially coupled pistons of hydraulic cylinders, cm.

The proposed device for creating a force when sealing the flange connections of the main connectors of the pump housings has its own name "MKU-195".

Drawings explain the essence of a useful model.

Figure 1 schematically shows the proposed device.

In Fig. 2 shows the executive mechanism in section.

The proposed device for creating a force when sealing the flange connections of the main connectors of the pump housings (as shown in Fig. 1-2) contains a casing 1, in the inner cavity of which there are hydraulic actuators 2 and high-pressure pipelines (not shown) and a system automatic control and data processing 3. In each executive mechanism 2, at least two serially paired cylinders 4 are vertically installed, the working chambers of which are connected by a hydraulic connection. The number of actuators corresponds to the number of fastening pins, and in this technical solution, thirty actuators are preferably used, which are made with the ability to create the necessary force when pulling out the pin and transfer this force to the pin through the thrust, which is part of the actuator. Moreover, the calculation of the axial force on the pin, which is created by one executive mechanism, is calculated according to the formula Ro-Prx5, where Ro is the created axial force, Pp is the working pressure kg/cm7, 5 is the total area of the working surfaces of two serially coupled pistons of hydraulic cylinders, cm.

The proposed technical solution includes a system of automatic control and data processing 3, which includes wireless digital indicators 5 with a built-in channel for receiving and transmitting the signal of Vinefooi GE, which are located on the executive mechanisms.

In addition to wireless indicators 5, the Z control and data processing system includes: - indicator signal receiver 6; - portable personal computer 7 with autonomous power supply and information processing system;

Zo - connecting wire 8 between the signal receiver and the computer;

Indicators 6 are equipped with autonomous power supply, a dial and a magnetic stand, with the help of which they are installed on the end of the rod. The indicator rod rests on the intermediate thrust measuring rod. Each indicator performs two functions: - shows the elongation value; - transmits information to receiver 6.

This information transmission system allows you not to use wires in the work area of repair personnel. The following are displayed on the personal computer display: - pressure created by the pumping station; - indication of elongation of each pin; - calculated values of the modulus of elasticity for each pin.

After the process is completed, the obtained results of sealing the main connector are recorded on a magnetic medium for further printing. In addition, the computer 7 ensures the preservation of all measurement results for further analysis in cases where changes in the elongation values of the pins have occurred during further sealing.

Casing 1 has the shape of a ring with a U-shaped section and is the main supporting element of the device.

It has 30 holes for fastening executive mechanisms 2. A high-pressure hydraulic manifold is attached to the inner surface of the casing. On the horizontal shelf of the casing there are three holes for fastening rods 9 connecting the casing 1 with the upper sling ring 10 or rim bolts when transporting the device in a partially disassembled form inside the NPP. The outer vertical shelf of casing 1 has six windows, intended for inspection of the state of the hydraulic system and executive mechanisms in the process of preventive and repair work and when performing an overhaul of the hydraulic system. The windows are equipped with removable covers.

Sling eyes 11 are welded to the ring 10, with the help of which the device is installed/removed from the main connector of the pump. The top ring includes three rods (rods) 9, which connect the ring 10 and the casing 1. The rod has threaded couplings for displaying the casing in a horizontal plane with different lengths of slings. With the help of rods, the service personnel corrects the directions of the device through three windows in the upper spacer when it is lowered onto the main pump connector.

On the horizontal plane of the casing, there is a fitting 12, which is connected to the hydraulic unit, which includes an oil pump station, by means of a high-pressure flexible hose 13

The hydraulic unit consists of an oil tank with a capacity of, for example, six liters, a low-pressure pump, a multibooster (pressure booster) and a flexible high-pressure hose 13, which provides hydraulic communication with the collector located inside the annular casing. An electric motor is used to drive the pump. The power of the drive ensures that the pump starts from any pressure in the system in the operating range. The oil pumping station is equipped with an adjustable safety valve, an electric pressure sensor, the signal from which is sent to the computer 6. The hydraulic unit ensures a smooth increase in pressure in the system up to 100 MPa.

In addition to the main supporting element, casing 1 performs the functions of a platform for service personnel during work, and also provides protection for service personnel from contact with high-pressure pipelines.

Executive mechanisms 2 (of which 30 pieces were used) serve to create the necessary force when pulling out the pin and transfer this force through the thrust, which is part of the executive mechanism, to the pin.

All metal parts of executive mechanism 2 are made of high-strength steel.

In Fig. 2 shows the executive mechanism in section. The support sleeve 15 is intended for installation of the executive mechanism 2 on the bearing surface of the spherical washer of the main pump connector. On the outer surface of the support sleeve 15, a drive 16 with a gear wheel 20 is attached, which ensures the transmission of torque to the nut of the main connector with a toothed ring installed on it. The drive torque is transmitted through an extension tube, the end of which extends to the outer surface of the ring. Screwing (unscrewing) the nuts of the main connector is carried out with the help of two torque wrenches included in the device.

The working two-chamber (two-stage) cylinder 4 is made according to the "tandem" system, that is, with vertically located chambers - one above the other. Both chambers of cylinder 4 are connected by a hydraulic connection. When creating pressure in the system in both stages of cylinders 4, each piston creates the same axial force. The piston of the first stage 19 rests with its upper end on the lower end of the piston of the second stage 20. In the sum, an axial

From the effort, which is 135 tons at a pressure in the system of 100 MPa. The use of the "tandem" system allows you to reduce the maximum pressure in the hydraulic system and increase the safety and reliability of the product. The axial force created by the cylinders 4 is transmitted through two spherical washers 21, 22 to the rod 17, which is wound on the threaded end of the pin of the main connector (not shown).

Winding of the rod 17 on the pin of the main connector is carried out with the help of a pneumatic key, which is included in the equipment set. The rod 17 includes a spring-loaded intermediate measuring rod 23, which provides transmission to the wireless digital indicator 5 of the amount of elongation from the rod, which is installed in the pin hole of the main connector.

Nodes and parts of the executive mechanism are connected into a single whole with the help of screws.

The fastening of the executive mechanisms on the ring is carried out with the help of keys, which ensure their free movement relative to the ring in three planes by a regulated amount. The cavities of the cylinders 4 are connected to the hydraulic manifold by means of flexible connecting elements.

The main functions of the proposed device (installation kit for sealing/unsealing the main pump connector, for example, MKU-195 for ГЦН-195M pumps) are: - hydraulic simultaneous pulling of all thirty pins of the main pump connector by a given force or a regulated value. - by unscrewing/screwing the nuts of the main connector. - computer control of the amount of pin extraction or effort. - saving all the results of lengthening the pins of the main connector and diagnosing the condition of the pins.

The advantages of the proposed technical solution are:

The time for performing the operation of loosening the main connector is 50-60 minutes. It is calculated from the conditions that the device is located in the reactor compartment at the 36 mark.

The time required for sealing the main connector is 60-70 minutes, based on the same conditions.

The process of unsealing/sealing the main connector of the GCN-195M pump using the device will reduce the duration of repair work by approximately 11-12 hours, while the number of personnel involved will be reduced from 5-6 people to 3 people (2 fitters and 1 operator).

In addition, the application of the proposed technical solution will allow: 60 - to improve the quality of tightening;

- reduce the load on the side of the pump housing (snail), which will ensure the preservation of its flatness, and as a result will improve the tightness of the main flange connection of the main connectors of the pump housings; - exclude technology violations, especially when loosening the main connector; - significantly shorten the process of tightening the main connector and reduce the dosed load on the service personnel involved in this operation; - the possibility to obtain an analysis of the state of the pins by calculation.

Numerical designations used in this description of the utility model: 1 - casing; 2 - executive mechanism;

C - data management and processing system; 4 - cylinders; 5 - wireless digital indicators; b - indicator signal receiver; 7 - personal computer; 8 - connecting wire; 9 - bars; 10 - sling ring; 11 - ears; 12 - fitting; 13 - sleeve; 14 - oil pumping station; 15 - support sleeve; 16 - drive for screwing (unscrewing) the nut of the main connector; 17 - a rod that is screwed onto the threaded end of the pin; 18 - gear wheel; 19 - piston of the first stage; 20 - piston of the second stage; 21, 22 - spherical washers;

From 23 - measuring rod.

Claims (3)

USEFUL MODEL FORMULA 1. A device for creating a force when sealing the flange connections of the main connectors of the pump housings, containing a casing, in the inner cavity of which hydraulic actuators and high-pressure pipelines are located, and an automatic control and data processing system, which is distinguished by the fact that in each executive mechanism is vertically equipped with at least two series-paired cylinders, the working chambers of which are connected by a hydraulic connection, and the automatic control system includes wireless digital indicators with a built-in channel for receiving and transmitting the signal of Vinefooi GE, which are located on the executive mechanisms. 2. The device according to claim 1, which is distinguished by the fact that thirty executive mechanisms are used, which are made with the possibility of creating the necessary force when pulling out the pin and transferring this force through the thrust, which is part of the executive mechanism, to the pin. 3. The device according to claim 2, which differs in that the calculation of the axial force on the pin created by one executive mechanism is calculated according to the formula Ro-Prx5, where Ro is the created axial force, Pr is the working pressure kg/cm7, 5 is the total area of the working surfaces of two serially coupled pistons of hydraulic cylinders cm.