CS207449B1 - Angle membrane closure - Google Patents

Description

The object of the invention is a corner membrane closure for closing or regulating the flow of clean or slightly dusty air, particularly in air-conditioning systems.

Some HVAC nodes require automatic or manual regulation of the air extraction or suction, which, for example, in the case of filtering devices, takes place automatically and at a predetermined frequency. In particular, tightness, simplicity, operational reliability even in moderately dusty environments and low energy consumption are required for regulatory or shut-off bodies.

The current devices used for this purpose are generally dampers or sliders of different shapes and design controlled electrically, actuators, electromagnetically and the like. Since the equipment is operated mainly in a non-clean environment and not only with clean air, operational failures often occur due to leaks, seizure of lever mechanisms, bearings and the like.

Disadvantages of the devices used hitherto are largely eliminated by the corner membrane closure according to the invention, which is based on the fact that the connecting flange is welded with a pipe neck ending with a sealing lip, the cross-section of which is closed by a membrane of resilient material. and a closure housing face having a central pressure overhang for pressurized air.

The advantages of the diaphragm closure are mainly in its simple construction, operational reliability, minimum failure rate and low energy consumption. Higher effect will be evident especially in the possibility of sensitive regulation of air flow rate which is slightly dusty, which is beneficial especially in filtration devices. The diaphragm closure is operated by means of compressed air, the distribution of which is found in virtually every plant, and the operation can be both manual and automatic, depending on the type of control system used.

An exemplary arrangement of a corner membrane cap is shown in FIG. 1 in cross-section and FIG. 2, where the overall view of the closure is in the direction of the incoming air mass.

The corner diaphragm closure consists of a pipe neck 2 with a connecting flange 3, by means of which the closure is fixed to a regulated or closed cross-section of an air-conditioning device. The neck 2 is terminated within the closure housing 1 by a rim 4, the plane of which is actually a plane sealing against the membrane 5, which is made of a resilient elastic material. The diaphragm 5 is tightly secured between the flange of the closure housing 1 and the face 6 of the closure housing 1 by means of rivets or bolts. The face 6 of the closure housing 1 is deepened in the area of the sealing cross-section by a recess in which a nozzle 10 is provided for the connection of the compressed air. 1, represented by arrows. The expected deflection of the membrane 5 with the cap closed is shown in FIG. 1 is shown in dotted lines.

The corner membrane closure can be used e.g. for filtration equipment, air-extraction, dust extraction systems or pneumatic transport, in particular for the wood and furniture industries.

Claims (1)

2 tiek. The face 6 of the closure housing 1 is deepened in the sealing cross-section by a cross-section in which the pipes 10 are connected to the compressed air. The direction of entry and exit of the air is shown by arrows in FIG. The presumed deflection of the diaphragm 5 when closed is shown in phantom in FIG. A corner diaphragm seal is usable for example. for filtering equipment, air-technical suction, dedusting systems or pneumatic conveying of the timber and furniture industry. OBJECTS OF THE INVENTION A corner diaphragm closure for closing or even slightly dusty air flow control, in particular for air handling equipment, characterized in that it comprises a connecting flange (3) of a welded neck (2) of a pipe ending with a sealing lip (4) whose cross section is enclosed by a membrane (5) made of a resilient material which is tightly connected between the flanges of the closure housing (1) and the closure face (6) of the closure (1) having a central air nozzle (10) for supplying the compressed air. 2 drawings i i