DD140632A3 - GAS DENSITY DISPENSER - Google Patents

Abstract

The invention relates to a gas-tight shut-off, the in piping systems for conveying and conducting gaseous media is used. The use of the device is appropriate in Installations in which a standstill of the conveyor Return flow must be avoided, for example in rooms with different air conditions or different hygienic Conditions. The aim and the object of the invention are to provide a Establish facility with which a complete shut-off of Conduit systems against the flow of gaseous media possible is. The essence of the invention is the / utilization of the Volume increase of a hollow seal body, with a pneumatic pressure is applied and thereby the constructive conditional distance between two line components fills and thereby a gas-tight barrier is brought about. Possible Areas of application are ventilation systems, but also others Systems in the low pressure range

Description

Title of the Invention Gas-tight shut-off device

Field of application of the invention

The invention relates to a device by means of their sections of piping systems in which gaseous media, such as air, promoted, leit'und distributed, gas-tight from the entire system or other parts of the system can be separated. In particular, the use of gas-tight shut-off devices in air-conditioning systems of hygienic facilities in which return flows from living quarters or other building spaces must be avoided at all costs is required.

It is known that shut-off devices are designed so that a tube located inside the tube adapted disc is rotated by a motor drive about its transverse axis from its rest position to the blocking position, wherein the disc at each of the upper and lower inner tube circumference To keep the disk in this position, a permanently acting force must be applied * Numerous devices are known for the realization of this object, the main disadvantages of which are that

- They from a relatively large number of components

''. - 2 - 209884

are constructed

for the maintenance of the blocking state, a torque acting permanently on the axis of rotation of the disc is required, or locking and unlocking devices must be present,

- drive and power transmission components must be more strongly dimensioned to protect against damage,

- Due to the complicated structure of such facilities, high costs arise. - ·

Another design of shut-off devices is based on the utilization of the principle of the one-sided lever, shut-off devices of this type can be used only with clear pressure conditions. In the locked position, the locking member of this device is also on occupied with Dichtraaterial webs, which is advantageously used to increase the contact pressure on the pressure side of the device dynamic pressure, are disadvantageous z. B, the high restoring forces that must be applied when opening the device * shut-off devices of this type are mainly used in channels, but can also be installed using appropriate complicated mechanisms for the realization of the pivoting movement of the locking member in tubes or adapted by appropriate transition pieces on pipes ·

All facilities of the types shown are characterized by a relatively high leakage, which has its cause in that the locking members in the area of their planks, especially in fulcrum close insufficiently sealed v / ground and therefore are only partially gas-tight »

Object of the invention

The object of the invention is to provide a device for gas-tight shut-off of installations or parts of installations in which gaseous media are conveyed and / or distributed. The useful effect in comparison with known solutions is the utilization of a known physical principle the utility properties of the subject invention are much higher than known solutions.

Explanation of the essence of the invention

The technical problem which is solved by the invention.

The invention has for its object to provide a device that meets the following requirements:

- mechanically simple and easy to maintain construction

- Ensuring a high tightness in the locked state

- Ensuring a high puncture safety

- Energy and cost-effective operation of the device.

This task results from the investigation of the technical deficiencies of known solutions, which have their causes in the selected puncture and sealing principles «

Features of the invention

According to the invention, the problem is solved so that the design-related distance between Leitungsinnenwandung.und the

Contour of a standing in the blocking position with its greatest extent perpendicular to the longitudinal axis of the line locking member by the "intentionally triggered Volumenzunahrae an annular self-contained, inflatable hollow seal body is filled · Here, the filled with compressed air sealing body sets over a large area firmly to the line inner wall and the Locking member and thus causes by form and adhesion between the components involved a tight connection, which allows the gas-tight shut-off of certain parts of a plant system.This hollow sealing body is similar to a well-known from the automotive pneumatic hose.The locking member is for safe reception formed by the constructive design of the locking member abutment for the seal body, which in addition during the blocking process against deporting of the sealing body formed on the circumference in the manner of a vehicle rim Locking member is secured · loads of this kind occur due to the building up of static pressure and the force acting on the locking mechanism,

embodiment

An embodiment of the gas-tight shut-off device according to the invention is illustrated in FIG. 3 and the functioning of the device will be explained with reference to these figures.

It shows:

Figure 1 shows a longitudinal section through the gas-tight shut-off device in forward position

FIG. 2 shows a longitudinal section through the gastight shut-off device

- 5-direction in locked position

FIG. 3 shows a cross-section through a gas-tight shut-off device in the blocking position when applied to a conduit system with a rectangular cross-section.

In Figure 1, the device according to the invention in the forward position, which is at the same time the rest position, darge-. · In a line component 1, an axis 3 "on which a locking member 2 is mounted stored. The locking member 2 carries the sealing body 4 and the compressed air line 5 »which is guided through the axis 3 to the outside to the drive and control member 6 · Constructively, the shut-off device is constructed so that it can be used as a complete assembly · To ensure safe operation of the device to ensure the drive and control member is designed so that only two stable end positions of the locking member 2 are possible.

In Figure 2, the obturator is in the locked position, which corresponds to the working position shown on the control command "locks" the drive 6 pivots the locking member 2 by a 90 ° rotation of the axis 3 in the locked position. By a further control command that triggers after taking the end position, a valve releases a compressed air flow, which causes the volume increase of the seal body 4. Thus, the lock state is reached. By building a defined static pressure of 100 to 500 Pa in the seal body 4, this is filled bulging and thereby pressed over a large area firmly against the walls of the line component 1 and the rim-like recording on the locking member 2. As a result, the design-related distance 7 is closed and the gas-tight shut-off of a strand of an installation system is achieved *

In a first step, the volume reduction of the sealing body 4 and the constructional distance J is released for the "movement of the locking member 2" At the same time, the static pressure on the pressure side of the locking member 2 is reduced a second switching step, the provision of the locking member 2 is effected in its rest position and thereby completely canceled the barrier ·

FIG. 3 serves to better illustrate the mechanical structure and the representation of the device according to the invention in the adaptation to the geometric conditions of rectangular piping systems. In principle, the adaptation can also be made by means of corresponding transition pieces of rectangular to round cross-section.

Claims (3)

invention claim 1 * Gas-tight shut-off device for plant systems in which gaseous media, such as air, promoted, conducted and distributed, with a constructive distance (7) between the line component (1) and a blocking position with its largest surface area perpendicular to the longitudinal axis of the line component. (1.) standing obturator, characterized in that the constructive conditional distance (7) due to the increase in volume of an elastic sealing body (4), which is acted upon by an amount of static air under a defined static pressure, off. is filled and that the pressure generated by this static pressure of the sealing body (4) on the bearing surfaces. • Force and positive connections both between the seal body (4) and the locking member (2) and between the seal body (4) and the conduit member (1), which effect a gas-tight barrier against the non-pressurized part of the system and the, by the on the locking member (2) acting thrust axial force evenly distributed over the circumference radially on the line component (1) and the fact that the drive (6) during the blocking phase of the shut-off «device does not exert a holding force on the shut-off device. 2 »Device according to item 1, characterized in that the device can be used in line systems with a round cross-section · Device according to item 1, characterized in that the device can be inserted in conduit systems with a rectangular cross-section by enlarging the radii in the corners of the conduit component (1) * Eiten drawings