RU181042U1 - HEATER RADIATOR AIR - Google Patents

Abstract

The invention relates to devices for removing gases from heating devices, in particular air from aluminum, bimetallic, steel and cast-iron radiators. The air vent contains a housing and is equipped with a locking mechanism. The housing is configured to be mounted in a radiator manifold. On the inside of the case located in the radiator manifold, a protrusion is made with a hole for exhausting air from the manifold. A casing is fixed on the outside of the casing, in which there are axial and lateral channels communicating with each other, designed to exhaust air from the heating system. The threaded channel of the locking mechanism is aligned with the axial air outlet of the casing, and the upper part of the casing with the lateral air outlet is made in in the form of a hemisphere. As an air vent body, a radiator adapter or a plug can be used. The housing is made of bronze or brass. The housing can be fixed in the housing by means of a groove or threaded connection; however, it can be made of polymeric material. The proposed design of the air vent provides an effective way to remove air from the heating devices, and this, in turn, increases the life and technical characteristics of the heating device. In contrast to the presented analogues and prototype, the proposed technical solution provides more favorable conditions for air removal with ease of assembly and maintenance, as well as the cost-effectiveness of manufacturing, without complicating the device itself and the principle of its operation.

Description

The utility model relates to devices for removing basins from heating appliances, in particular air from aluminum, bimetallic, steel and cast iron radiators.

Air in the heating radiator may appear due to poor-quality removal during the connection phase, as well as as a result of the release of air from the water during operation of the radiator.

A device for discharging air from a pipeline is known (USSR author's certificate No. 1712734, F16K 24/00, 1992). A device for discharging air from a pipeline comprises a housing with a sleeve disposed therein having a longitudinal threaded hole. In the lower part of the sleeve there is a threaded channel with a plug, made perpendicular to the threaded hole. A movable rod with a longitudinal channel and a locking member is installed in the hole. The locking body and the rod are made of two lateral through channels located on both sides of the rod. To release air from the pipeline, instead of a stopper, a hose is installed on the threaded channel of the sleeve; then with the helm the rod is shifted so that the locking member opens, and the upper side channel is aligned with the sleeve channel.

The known device allows in the event of clogging of the channels to clean them without disassembling the entire device. However, the known device does not allow to completely remove all the air accumulated in the heating system.

Closest to the proposed utility model is a manual air vent for heating radiators (RF patent for utility model No. 105966, Cl. F16K 24/00, 2011). The known air vent contains a housing configured to install a radiator in the collector, on one side of which a casing is fixed, in the body of which there are communicating axial and lateral channels for air exhaust, and a mechanism for opening and closing the channels, and on the other side of the body there is an insert with a through groove to release air, while the liner is fixed so that the groove is at the top of the inner surface of the housing when installing the air vent in the radiator manifold. A radiator adapter may be used as an air vent body. The casing may be configured to adjust the position of the side channel. The liner can be fixed by means of a groove or threaded connection; however, it can be made of a polymeric material, a metal with a corrosion-resistant coating or a corrosion-resistant alloy.

The main disadvantage of the known air vent is the need to configure the casing with a through groove in such a way as to ensure the most complete removal of air from the heating system due to a certain coincidence of the air ducts. This reduces the efficiency of using a known air vent.

The technical result of the proposed utility model is the maximum possible removal of air from the heating radiator using an easy-to-maintain venting mechanism. At the same time, the air vent has a simple design that provides ease of installation, maintenance and repair at a low cost of production, environmental friendliness and safety in use.

The technical result is achieved by the fact that in the known air vent of heating radiators comprising a housing with a locking mechanism and a housing fixed to the housing with axial and lateral channels for communicating with each other for discharging air, in the lower part of the housing, along the vertical axis, there is a protrusion with an opening for air exhaust , the threaded channel of the locking mechanism is aligned with the axial channel for discharging air in the casing, and the upper part of the casing with the side channel for discharging air is made in the form of a hemisphere.

The air vent of the heating radiator (Fig. 1) contains a housing 1, which can be used as an adapter or plug. A casing 2 is fixed on the outside of the casing, the upper part of the casing is made in the form of a hemisphere. A locking mechanism 3 is located in the housing and the casing, which in the lower position (closed) blocks the possibility of air or moisture entering the axial 4 and lateral 5 air exhaust channels through the protrusion 6 with an air outlet from the heating system.

The principle of operation of the proposed air vent is as follows. The air vent housing 1 is simultaneously used as a plug. In the event of the formation of an air plug in the heating system, the screw of the locking mechanism 3 is twisted half a turn. The air in the heating system through the air outlet of the protrusion 6 is directed to the axial channel of the air outlet 4 and through the threaded gaps of the locking mechanism 3 enters the side channel of the air outlet 5 located in the casing 2. As soon as all the air from the heating system is removed, the screw of the locking mechanism 3 is wrapped and tightly overlaps the hole for air exhaust located in the protrusion 6.

The proposed device is the easiest to operate, works reliably, preventing a large amount of moisture from entering the living room. The upper part of the casing 2, made in the form of a hemisphere, organically fits into the heating system batteries, improving the appearance and organoleptic characteristics of the heating system battery.

Case 1 is made of bronze or brass by hot stamping. The casing 2 is made of organic polymeric materials.

Thus, the proposed design of the air vent provides an effective way to remove air from the radiators, and this, in turn, increases the life and technical characteristics of the heater. In contrast to the presented analogues and prototype, the proposed technical solution provides more favorable conditions for air removal with ease of assembly and maintenance, as well as the cost-effectiveness of manufacturing, without complicating the device itself and the principle of its operation.

Claims (1)

An air vent of heating radiators, comprising a housing with a locking mechanism, and a casing fixed in the housing, with axial and lateral channels for discharging air connected to each other, characterized in that a protrusion with an air outlet is made in the lower part of the housing along a vertical axis, threaded the channel of the locking mechanism is combined with the axial channel for discharging air in the casing, and the upper part of the casing with the side channel for discharging air is made in the form of a hemisphere.

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