RU156838U1 - THREAD SOCKET CONTROL DEVICE FOR HOUSING EQUIPMENT - Google Patents

Abstract

1. The control device of the threaded sockets of the casing equipment, comprising a central rack and instrument fasteners, characterized in that the instrument fasteners are made in the form of a holder mounted on a central rack and configured to fasten devices at its end, the central rack being rotatable around the axis of a circle along which threaded sockets are placed, and the holder is retractable. 2. The device according to claim 1, characterized in that an ultrasonic control device is used as the device. 3. The device according to claim 1, characterized in that the eddy current control device is used as the device. The device according to claim 1, characterized in that the device used is a device for cleaning the surface of a flange with threaded sockets. The device according to claim 1, characterized in that the device used is a device for cleaning threaded sockets. The device according to claim 1, characterized in that the central rack and holder are equipped with electric drives. The device according to claim 1, characterized in that the device is adapted to transmit information from devices to information processing and storage facilities.

Description

The utility model relates to the field of remote control and is intended for ultrasonic (ultrasonic testing) and eddy current (VTK) control of the base metal of the threaded sockets of the flanged connectors of the reactor equipment (RU) case equipment during the pre-operational period and during the period of scheduled preventive maintenance, in particular, continuity control the base metal in the annular zones with a width of 20 mm around the threaded sockets and monitoring the state of the metal of the threaded surfaces in the hairpin sockets along the entire length.

A device for non-destructive testing of pipes [RU 24563, U1, G01N 29/04, G01N 27/82, 08/10/2002], comprising a transport line, a scanning mechanism with ultrasonic transducers connected to a flaw detector and a thickness gauge, a unit for monitoring the strength groups of metal of controlled pipes , a multi-channel marker, a unit for storing and presenting information connected to the outputs of a flaw detector, a thickness gauge and a unit for monitoring strength groups of metal, a control unit whose outputs are connected to a scanning mechanism, a multi-channel marker and a block storing and presenting information, a magnetized system of a controlled pipe with a controlled power supply unit and a magnetic field converter unit connected via a signal processing circuit to a control unit, a speed meter of a controlled pipe, the output of which is connected to the first input of the unit for calculating the average value of the pipe wall thickness, two blocks delays and the device of the demagnetization of the controlled pipe, the input of which is connected to one of the outputs of the control unit, moreover, the second input of the calculation unit cf dnego thicknesses are connected to the output of the gauge, the block output is connected via a first delay unit with a first input managed magnetizing system power supply, a second input connected to the output of the block control groups strength metal pipes, and multi marker connected to the control unit via the second delay unit.

The disadvantage of this device is its relatively high complexity.

The closest technical solution to the proposed, taken as a prototype, is a device [RU 2052812, C1, G01N 29/26, G01C 17/00, 01/20/1996] containing a support-centering unit made in the form of a biologically protective cylindrical body, open from the bottom coaxially placed in it the Central rod with a suspension located on its lower end, on the guides of which are mounted carriages with control devices, and its free end is mounted on a trolley mounted with the possibility of moving in the radial direction on the rotary table, on the end surface of the housing, in the lateral surface of which a window is made for changing control devices, moreover, one of the guides consists of sections, which are a section made in the form of a biologically protective cover with centering grooves along its edges, and a section rigidly connected to the housing and joined with the first by means of also articulated lever mechanisms located at its edges, the extreme links of which are interconnected by a beam, pivotally mounted on the inner surface of the housing, and are made one in the idea of a fastening cylindrical rod with a threaded thread and a fixing nut, passed through the body and biologically protective cover, and another link - in the form of a spring-loaded stop, also passed through the body and the guide section, rigidly connected with it, and equipped with an axis mounted for movement in a longitudinal groove made in the housing and interacting with the centering grooves of the biologically protective cover, while the carriage interacting with this guide is made in the form of an additional self hydrochloric trolley with pressure rollers mounted thereon for engagement with both the sections, and with resilient abutment.

The disadvantage of this device is the relatively narrow functionality due to the fact that the movement of the control devices in the known device is provided in the radial direction, which limits its use for the case when the control objects are located, for example, in a circle, in particular, as threaded sockets for flanged connectors of the case reactor plant equipment. This reduces the performance of the device.

The task to which the present utility model is directed is to increase the speed of the device by expanding its functionality by providing control with the movement of control devices in a circle.

The technical result that is achieved by the implementation of the claimed utility model is to increase performance.

The problem is solved, and the required technical result is achieved by the fact that, in a device containing a central rack and instrument mounting means, according to a utility model, the instrument mounting means is made in the form of a holder mounted on a central rack and configured to mount devices at its end, moreover, the central rack is made to rotate around the axis of a circle along which threaded sockets are placed, and the holder is retractable.

In addition, the required technical result is achieved by the fact that, as an instrument, an ultrasonic control device is used.

In addition, the required technical result is achieved by the fact that, as a device, an eddy current control device is used.

In addition, the required technical result is achieved by the fact that, as a device, a device is used to clean the surface of a flange with threaded sockets.

In addition, the required technical result is achieved by the fact that, as a device, a device for cleaning threaded sockets is used.

In addition, the required technical result is achieved in that the central rack and holder are equipped with electric drives.

In addition, the desired technical result is achieved by the fact that the device is configured to transmit information from devices to the processing and storage of information.

The drawing shows:

in FIG. 1 - a control device for the threaded sockets of the case equipment together with the flange on which the threaded sockets are placed (for an example of the use of the device);

in FIG. 2 - a device for performing ultrasonic testing;

in FIG. 3 - a device for performing eddy current control;

in FIG. 4 - a device for cleaning the surface of the flange;

in FIG. 5 - a device for cleaning threaded sockets.

The control device for the threaded sockets of the cabinet equipment contains a central rack 1 and instrument fastening means, made in the form of a holder 2, mounted on a central rack 1 and configured to fasten devices 3 at its end.

In the control device for the threaded sockets of the cabinet equipment, the central rack 1 is rotatable on the axis of the circle along which the threaded sockets 4 are placed, and the holder 2 is retractable.

A feature of the device is that, as an instrument, either an ultrasonic control device (Fig. 2), or an eddy current control device (Fig. 3), or a device for cleaning the surface of a flange with threaded sockets (Fig. 4), or a device for cleaning threaded sockets (Fig. 5).

The central rack 1 and the holder 2 are equipped with electric drives, the device itself is configured to transmit information from devices to information processing and storage facilities.

The device controls the threaded sockets of the hull equipment as follows.

The device is intended mainly for ultrasonic (ultrasonic testing) and eddy current (VTK) testing of the base metal of the threaded sockets of the flanged connectors of the reactor equipment of the reactor installation, the pre-operational period and during the scheduled preventive repair. It allows you to control the continuity of the base metal in the annular zones with a width of 20 mm around the threaded sockets and the metal condition of the threaded surfaces in the hairpin sockets along the entire length.

Before starting work, the central rack 1 is placed and secured (fasteners not shown) in the center of the corresponding flange connector of the reactor equipment of the reactor facility. On the holder 2, mounted on the Central rack 1 and made with the possibility of mounting devices 3 at its end, the corresponding device is fixed. As the device, either an ultrasonic control device (Fig. 2) or an eddy current control device (Fig. 3) can be used. When monitoring after a relatively long period of operation, it is possible to use a device for cleaning threaded sockets (Fig. 5) for cleaning the surface of a flange with threaded sockets (Fig. 4). This extends the functionality of the device and improves the quality of control, since it eliminates the detection of latent defects.

Since the Central rack 1 is rotatable around the axis of a circle in the threaded socket monitoring device of the casing equipment, along which the threaded sockets 4 are located, and the holder 2 is retractable, the device is easily adjusted to the required radius of extension of the holder 4 and circular movement along which nests are placed.

The introduced arsenal of technical means increases the speed of the device, since the transition time from socket to socket is significantly reduced due to the expansion of its functionality, since control is provided with moving control devices in a circle.

Claims (7)

1. The control device of the threaded sockets of the casing equipment, comprising a central rack and instrument fasteners, characterized in that the instrument fasteners are made in the form of a holder mounted on a central rack and configured to fasten devices at its end, the central rack being rotatable around the axis of a circle along which threaded sockets are placed, and the holder is retractable. 2. The device according to p. 1, characterized in that the device used is an ultrasonic control device. 3. The device according to claim 1, characterized in that the eddy current control device is used as the device. 4. The device according to claim 1, characterized in that the device used is a device for cleaning the surface of a flange with threaded sockets. 5. The device according to claim 1, characterized in that the device used is a device for cleaning threaded sockets. 6. The device according to claim 1, characterized in that the central rack and holder are equipped with electric drives. 7. The device according to claim 1, characterized in that the device is arranged to transmit information from devices to information processing and storage facilities.

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