RU122744U1 - BELLOW COMPENSATION DEVICE - Google Patents

Abstract

1. Bellows compensating device containing flanges, outer and inner bellows, characterized in that the inner surface of the first and second flanges are stepped, the outer bellows is fixed on the outer sides of the first and second flanges, and the inner bellows is installed on the same axis with the outer and connected to an internal step of the first and second flanges, and the internal volume of the bellows compensating device is filled with dry air. 2. Bellows compensating device according to claim 1, characterized in that the outer and inner bellows are sealed.

Description

The proposed utility model relates to the field of engineering and can be used in all branches of technology for protective depreciation.

The well-known "bellows Compensator" (RU 97799 U1 publ. 10.09.2010, IPC F16L 51/02), which contains a bellows connected to the lugs and equipped with external and internal shields, and on the one hand the bellows is hermetically connected to the first of the lugs , external and internal protective shields, and on the other hand the bellows is hermetically connected to the second tip, forming a damping device. In addition, the first and second tips are made tapering at an angle of 5 to 40 °.

The closest in technical essence is the "Bellows compensating device" (RU 2396480 C1 publ. 08/10/2010, IPC F16L 51/04). It contains an unloaded compensator, consisting of three coaxially located bellows, flanges and unloading rods. The same extreme bellows of a smaller diameter are rigidly connected by two intermediate flanges to the middle bellows of a larger diameter and are rigidly connected to the end flanges. Each end flange is connected to the second intermediate flange from it by means of unloading rods that are installed along the axis of the unloaded compensator on the outer side of the extreme bellows and inside the middle bellows, are mounted on the connected flanges, freely passed through the through holes of the intermediate flanges located between the connected flanges, and isolated from the working medium inside the middle bellows by flexible elements. The middle bellows is made with an effective area, which is calculated from the balance of the spacer forces in the unloaded compensator and is equal to the sum of the effective areas of the extreme bellows and the effective areas of all flexible elements. In addition, it contains an additional unloaded compensator. Unloaded compensators are installed coaxially and rigidly connected by a pipe. The fastenings of the unloading rods with flanges are made rigid, and the through holes of the intermediate flanges are made with the possibility of providing relative movement of the unloading rods in these holes at maximum angular movements of the unloaded compensators. The disadvantages of the known devices is the complexity of the design and the high complexity of its manufacture. The technical result of the proposed bellows compensating device is to simplify the design and reduce the complexity of its manufacture.

The essence of the proposed utility model is that the bellows compensating device contains flanges, external and internal bellows.

New in the claimed technical solution is that the inner surface of the first and second flanges are stepped, the external bellows are fixed on the outer sides of the first and second flanges, and the internal bellows are mounted on the same axis as the external and connected to the internal step of the first and second flanges, and the internal the volume of the bellows expansion device is filled with dry air, and the external and internal bellows can be installed hermetically.

Figure 1 shows an example implementation of a bellows compensating device.

The bellows compensating device consists of a first flange 1, a second flange 2, an external bellows 3 and an internal bellows 4. The inner surface of the first 1 and second 2 flanges is stepped. The external bellows 3 is fixed on the outer sides of the first 1 and second flanges 2, and the internal bellows 4 is mounted on the same axis as the external bellows 3 and is fixed on the inner steps of the first 1 and second 2 flanges, and the internal volume of the bellows compensating device is filled with dry air. External and internal bellows can be installed hermetically.

The proposed bellows compensating device can be used as an elastic structural element, capable of absorbing static loads and providing their protection from dynamic effects in any direction.

Claims (2)

1. A bellows compensating device containing flanges, external and internal bellows, characterized in that the inner surface of the first and second flanges are stepped, the external bellows are fixed on the outer sides of the first and second flanges, and the internal bellows is mounted on the same axis with the external and connected to the inner step of the first and second flanges, and the internal volume of the bellows compensating device is filled with dry air. 2. A bellows compensating device according to claim 1, characterized in that the external and internal bellows are sealed.