RU2458782C1 - Stud remover - Google Patents

Abstract

FIELD: process engineering.

SUBSTANCE: invention relates to machine building and may be used for making and breaking threaded joints made up of stud and nut for attachment of high-pressure vessel covers, mainly, those of nuclear reactor. Proposed device comprises support mechanism with hydraulic power mechanism and nut making further mechanism. Support mechanism is made up of tensioning and supporting rings. Power mechanism interacts with threaded tie rods fitted on studs and is made up of multistage hydraulic cylinders. The latter are arranged along support ring perimetre. Hydraulic cylinder pistons have bores for threaded tie rods to thrust one against the other by their end faces. Support ring has grooves for wrenches for nut making further.

EFFECT: compact design, sufficient forces for simultaneous removal of stud sets.

2 dwg

Description

The present invention relates to mechanical engineering, and in particular to devices for assembling and disassembling threaded joints in the form of studs with nuts for attaching the covers of pressure vessels of predominantly nuclear reactors.

Known devices for group tightening of threaded connections using a hydraulic actuator mounted on a support flange connection with a threaded rod and a mechanism for interacting with a fastening nut, for example, according to the patent of the Russian Federation No. 1391871, B25 B 29/02, ed. USSR No. 967796, B25B 29/02.

Known devices suggest that there is sufficient space between the mounting studs. However, there are flange connections with a small pitch of the studs along the perimeter and large-sized wrenches are unsuitable for working with them.

Closest to the proposed technical essence is a device for ed. USSR No. 1600946, V25V 29/02, including a support cup with a power hydraulic cylinder with a piston installed on its end, a threaded rod rigidly connected to it, a nut clamp for securing a nut, and an additional hydraulic cylinder with a piston, while a reverse and an additional hydraulic cylinder are installed safety valves, and on the other end of the support cup a latch for its angular displacement is installed.

A disadvantage of the known device is that its installation and removal do not occur simultaneously on the entire flange, but on one power cylinder for each pin, which is unproductive.

The applicant sets the task of creating an easy-to-use compact device for the simultaneous extraction of a group of studs, including those located in hard-to-reach places.

The technical result consists in creating sufficient effort for the simultaneous drawing of a group of pins with a compact device.

The technical result is achieved by the fact that in the device for extracting the studs of flange joints containing a support mechanism with a hydraulic power mechanism mounted on it, interacting with threaded rods mounted on the studs, and a nut-tightening mechanism according to the invention, the support mechanism is made in the form of a tension and support rings, the power mechanism is made in the form of multi-stage hydraulic cylinders with at least two steps in each, located around the perimeter of the support ring, while the pistons are a guide of logs have holes and threaded rod ends abut one another, and the support ring is formed with grooves at the ends to set the key mechanism dovertyvaniya nuts.

The multi-stage hydraulic cylinders located around the perimeter of the support ring, with a through passage of threaded rods through the pistons, will ensure uniform loading ability of the device and develop the necessary force for simultaneous drawing of a group of studs. Reducing or increasing the number of power hydraulic cylinders, you can adjust the magnitude of the axial tensile force of the studs, thereby achieving a quick adjustment of the device to the design value of the hood. Ease of operation is also achieved by the fact that the area of the hydraulic cylinder is reduced in plan, which will allow working with closely spaced studs. The compactness of the entire device is ensured. During operation, if necessary, you can easily replace a faulty hydraulic cylinder without disassembling the entire device.

Figure 1 shows a device for drawing studs, section. Figure 2 - shock absorbers.

The proposed device consists of two rings, a tension 1 and a support 2. On the support ring 2 are bolted multi-stage hydraulic cylinders 3 with pistons 4. The number of stages of the hydraulic cylinders can be different, depending on the required efforts when extracting the studs. In the upper hydraulic cylinder is a valve for discharging air from the hydraulic system of a device (not shown). The oil is supplied to the hydraulic cylinders from the pneumohydraulic unit by a high pressure sleeve through a quick-connect, and then through the channel system in the tension ring 1. The support ring 2 is mounted on the flange joint cover. Previously, an adapter 7 is installed on each nut 5 of the stud 6. And on each protruding part of the stud 6, a threaded rod 8 is installed, at the end of which spherical washers are installed, and a threaded rod 8 is installed, at the end of which spherical washers and nuts 9 are installed. In the support ring 2 shock absorbers 10 evenly spaced around the circumference are installed, consisting of belleville spring blocks. Shock absorbers 10 are designed to return the pistons 4 of the hydraulic cylinders 3 to their original position at the end of the extraction process of the studs. When installing the tension ring 1, the threaded rods 8 pass through the holes in the pistons 4. In the grooves of the support ring 2, wrenches 11 are installed during operation, the gears of which engage with the teeth on the adapters 7.

Work using the proposed device is as follows.

The support ring 2 is mounted on the flange joint cover. Before this, an adapter is preliminarily installed on each nut 5 of the stud 6. A threaded rod 8 is installed on each protruding part of the stud 6, at the end of which spherical washers and nuts 9 are installed. A tension ring 1 is installed on the support ring 2, fixing it with pins and securing with screws. Turn nuts 9 until they stop, while the pistons 4 are installed in the lowest position, the shock absorbers 10 are compressed. Using the pump station, hydraulic pressure is applied to the hydraulic cylinders 3 and the pistons 4 move up. The pistons 4 of the hydraulic cylinders, resting on the nuts 9, pull the threaded rods 8 and the associated studs 6, stretching the studs by a predetermined amount. Monitoring the magnitude of the extraction of the studs is carried out using displacement sensors (not shown) mounted on the upper ends of the threaded rods 8 with magnetic holders. When the design value of the hood is reached with all the pins, the pressure in the hydraulic cylinders is not relieved, the keys 11 are installed in the grooves of the support ring 2, the gears of which engage with the teeth on the adapters 7. After this, manually tighten or unscrew the torque wrenches installed on the keys 11. stud nuts torque. The torque is transmitted to the nuts 9 of the studs through the gear of the key 11 and the gear adapters 8 installed on the nuts 9.

After performing the operation of unscrewing or tightening the nuts, the pressure in the hydraulic system of the device is relieved.

Claims (1)

A device for extracting flange connection studs, comprising a support mechanism with a hydraulic power mechanism mounted thereon, interacting with threaded rods mounted on the studs, and a nut-tightening mechanism, characterized in that the support mechanism is made in the form of tension and support rings, the power mechanism is made in in the form of multi-stage hydraulic cylinders with the number of steps of at least two in each, located around the perimeter of the support ring, while the pistons of the hydraulic cylinders have holes for threaded rods and the ends abut one another, and the support ring is made with grooves on the ends to install the keys of the nut-tightening mechanism.

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