RU58107U1 - STATIONARY RESERVOIR SUPPORT DEVICE - Google Patents

Abstract

The technical solution relates to supporting devices of reservoirs for storing oil or oil products with a floating roof or pontoon. The technical result of the claimed technical solution is the possibility of increasing the height of the stationary support device of the tank to improve the working conditions of staff during routine and repair work on the bottom of the tank. The technical result is achieved by the fact that the stationary support device of the tank is equipped with a movable support ring, along the perimeter of which vertically directed supports are installed, to the lower ends of each of which one end of the ride element is attached, and the other end of the ride element is attached to the upper end of the adjacent support, the riding elements are attached to the supports with the formation of equal inclination angles relative to the movable support ring, directed to one side along the perimeter of the movable support ring ca, and arranged on support rollers, mounted on the upper ends of the struts on which the driving elements are able to move by traction mechanisms, mounted on the tank wall and connected by cables to brackets fixed to the supports of the movable support ring.

Description

The technical solution relates to supporting devices of reservoirs for storing oil or oil products with a floating roof or pontoon.

Known analogues are the support devices of tanks for storing oil or oil products, containing support stands or a cylindrical shell mounted on the bottom of the tank, onto which a floating roof or pontoon is lowered (see, for example, descriptions of inventions to copyright certificate SU 1440814, IPC 4 B 65 D 88/34, publication date 1988.11.30; Patent RU 2211791, IPC 7 B 65 D 88/34, publication date 2003.09.10).

The disadvantage of the analogues is the low height of the floating roof (or pontoon) when it is necessary to carry out routine maintenance and repair work at the bottom of the tank due to the low height of the supporting devices due to operational requirements for the design of the tank in terms of the minimum possible location of the floating roof (or pontoon) above the bottom of the tank . This minimum height is limited by the presence in the walls of the tank near the bottom of the holes for the operation of the tank, the need to protect the bottom of the floating roof (or tank) and prevent its contact with the bottom of the tank. For example, if there are floats at the bottom of the floating roof (or pontoon), the supporting device protects them from destruction when the floating roof (or pontoon) is lowered to the lower position. Usually the height is taken up to 1.5 meters. At this height, it is extremely difficult to carry out any work on the bottom of the tank after it is emptied from oil or oil products.

The closest analogue to the proposed utility model is a stationary support device of the tank with a pontoon for storing volatile oil products, containing support beams evenly located at a given height from the bottom of the tank on the racks on which the pontoon (floating roof) is supported by a stiffening ring at the lowermost position, (cm ., for example, the description of the invention to the patent of the Russian Federation 2211791, IPC 7 B 65 D 88/34, publication date 2003.09.10).

The disadvantage of the closest analogue is the invariable height of the supporting device, due to its design, and defined as the minimum possible from the operating conditions of the tank without taking into account the provision of routine and repair work. This design of the support device requires

additional lifting devices that raise the pontoon (or floating roof) to the required height to perform routine and repair work under it.

The objective of the claimed technical solution is to provide a change in the height of the stationary support device of the tank from the minimum required during operation and to the minimum necessary when performing routine and repair work on the bottom of the tank.

The technical result of the claimed technical solution is the possibility of increasing the height of the stationary support device of the tank to improve the working conditions of staff during routine and repair work on the bottom of the tank.

The technical result is achieved by the fact that the stationary support device of the tank is equipped with a movable support ring, along the perimeter of which vertically directed supports are installed, to the lower ends of each of which one end of the ride element is attached, and the other end of the ride element is attached to the upper end of the adjacent support, the riding elements are attached to the supports with the formation of equal inclination angles relative to the movable support ring, directed to one side along the perimeter of the movable support ring ca, and arranged on support rollers, mounted on the upper ends of the struts on which the driving elements are able to move by traction mechanisms, mounted on the tank wall and connected by cables to brackets fixed to the supports of the movable support ring.

The essence of the technical solution is illustrated by drawings, where

figure 1 shows a top view of a stationary support device of the tank inside the tank;

figure 2 shows a side view of a stationary support device of the tank with the lower position of the movable support ring;

figure 3 shows a side view of a stationary support device of the tank with the upper position of the movable support ring;

figure 4 shows a side view of part of a stationary support device of the tank with the lower position of the movable support ring;

figure 5 shows a side view of part of a movable support ring with a bracket mounted on it;

The stationary support device of the tank contains support racks 1 mounted, for example, vertically, on the bottom 2 of the tank, a movable support

a ring 3, along the perimeter of which vertically directed downward supports 4 are installed. One end of the riding element 5 is attached to the lower ends of each vertically directed downward support 4, and the other end of the riding element 5 is attached to the upper end of the adjacent support 4. Riding elements 5 are attached to the supports 4 with the formation of equal inclination angles relative to the movable support ring 3, directed to one side along the perimeter of the movable support ring 3. The ride elements 5 are located on the support rollers 6 mounted on the upper ends of the support racks 1. The support racks 1 in the lower part can be interconnected by a horizontal beam 7 or beams 7. Brackets are mounted on the supports 4 of the movable support ring 3. Driving elements 5 are able to move along the support rollers 6 by means of traction mechanisms 9 mounted on the wall of the tank 10 and connected by cables 11 with brackets 8 mounted on the supports 4 of the movable support ring 3. The brackets 8 are installed symmetrically relative to each other and the center of the movable support ring 3. The number of brackets 8 is determined it is the size of the movable support ring 3, the internal dimensions of the tank, the weight of the floating roof (or pontoon) of the tank, which must be raised above the bottom of the tank 2 and is more than one, for example, two, three, four, etc. The diameter of the movable support ring 3 is less than the inner diameter of the tank to ensure the passage of maintenance personnel, if necessary, carry out routine and repair work on the bottom of the tank. The dimensions of this passage should be at least 60 cm and up to 150 cm. The brackets 8 are directed towards the wall 10 of the tank and are connected by cables 11 to the traction mechanisms 9 mounted on the wall 10 of the tank. The end of each cable 11 is mounted on the corresponding drum 12 of the traction mechanism 9, on which the cable 11 is able to be wound when the drum 12 is rotated. The drive of the traction mechanisms 9 is carried out from the outer side of the tank wall 10. Traction mechanisms 9 have a device for fixing their position and excluding spontaneous winding of the cable from the drum. The movable support ring 3 can be made on the outer perimeter in the form of an annular beam 13, the opposite sides of which are interconnected by horizontal beams 14, located, for example, radially. To the annular beam 13 are attached vertically directed downward supports 4, for example, by electric welding with reinforcing scarves. Since the driving elements 5 when moving along the support rollers 6 carry out a rotational movement, they are made curved along a helix, the dimensions of which are determined by the need to ensure a constant location of each part of the driving element 5 on the supporting roller 6 when moving

relative to each other. As a rule, vertically directed downward supports 4 are attached at the same distance from the center of the movable support ring 3. Accordingly, the ride elements 5 are located at a constant distance from the center of the support ring 3. The fastening of each bracket 8 to the vertically directed downward support 4 can be reinforced with spacers elements 15 and 16, one of which 15 is located at an angle and connects the bracket 8 with a vertically directed down support 4 or to the annular beam 13, and the other 16 is at an angle and connects the end of the bracket and 8 with an adjacent vertically directed downward support 4. On the annular beam 13 and horizontal beams 14, a continuous or with holes coating 17 of sheet material can be located to ensure that the lower part of the floating roof (or pontoon) of the tank is retained when it is placed on the stationary tank support device as a result of emptying the tank from oil or petroleum products. The design of the claimed technical solution provides the minimum height of the stationary support device of the tank at the lower position of the movable support ring 3 of the order of 150 cm and the maximum height at the upper position of the movable support ring 3 of the order of 200 cm, sufficient to ensure that maintenance personnel perform routine maintenance and repair work under a floating roof ( or pontoon) reservoir.

The work of the stationary support device of the tank is as follows. After placing the floating roof (or pontoon) of the tank on a stationary support device of the tank, for example, when mounting the tank or during its operation as a result of emptying the tank from oil or oil products, by means of traction mechanisms 9 and cables 11, the movable support ring 3 is rotated by moving driving elements 5 along the support rollers 6. The direction of movement is determined by the initial position of the movable support ring 3 - lower or upper and the need for lifting or lowering floating roof of the tank. As a rule, when operating the tank, the movable support ring 3 is in the lower position relative to the support rollers 6 and the support posts 1 of the tank. Before emptying the tank, the movable support ring 3 is moved, onto which the floating roof (or pontoon) is lowered, to the upper position.

The above data confirms compliance with the patentability criterion of industrial applicability.

When performing patent research, no distinguishing features of the claimed tank for storing oil or oil products among similar roofs or pontoons of tanks for storing oil or oil products were revealed, which confirms the compliance with the patentability criterion of novelty.

Claims (1)

A stationary support device of the tank, comprising support legs installed on the bottom of the tank, characterized in that it is equipped with a movable support ring, along the perimeter of which vertically directed supports are installed, to the lower ends of each of which one end of the riding element is attached, and the other end of the riding element is attached to the upper end of the adjacent support, while the riding elements are attached to the supports with the formation of equal inclination angles relative to the movable support ring, directed to one side along the perimeter of the movable support ring, and are located on the support rollers installed on the upper ends of the support posts, along which the riding elements are able to move by means of traction mechanisms mounted on the tank wall and connected by cables to brackets mounted on the supports of the movable support ring.