IT9022326U1 - ELETTROVALVOLA - Google Patents

Description

Description for Utility Model

This Utility Model refers to a solenoid valve in plastic material, consisting of a printable phenolic-based technopolymer, such as to allow the application of this solenoid valve to small steam generation boilers for irons or similar applications.

In general, the solenoid valves for iron boilers and the like are made of a metal material such as brass, which can be obtained by casting or by hot pressing according to the design and shape of the valve body.

However, brass valves have comparatively high costs due to the need to perform the machining required for the preparation of some functional parts of the valve such as threads, sealing surfaces and the formation of the valve seat with corresponding and fixing parts of the electromagnetic coil. shutter command.

Furthermore, the valves currently manufactured in brass can cause dangerous drawbacks due to the possible clogging of the ducts caused by limescale deposits, with a serious risk for boilers working under pressure.

The purpose of this utility model is to provide a solenoid valve for the uses specified above, whose body is made of an easily moldable technopolymer, such as to substantially reduce production costs, avoid the formation of limescale deposits, and in any case such as to eliminate any type of machining after molding.

A further object of the present model is to provide a solenoid valve of the type mentioned above, with which an appropriate thermal insulation is achieved which reduces the diffusion of heat from the inside of the boiler towards the electromagnetic coil, which can thus be sized for lower powers without compromise the safety and good operation of the valve itself.

The purposes referred to above are achievable by means of an electrovalve according to the present utility model which is characterized in that the valve body is molded in one piece with a plastic material consisting of a technopolymer comprising an aromatic resin with a phenolic base. From tests and experiments it has been found that by using a phenolic-based aromatic resin, in particular a polyphenol-sulfide having good printability characteristics, it is possible to obtain a valve body having good mechanical, dielectric and chemical properties, such as to allow a high reliability of use for the control of steam flows from a boiler to a user appliance, in particular for irons and the like.

The solenoid valve according to the present invention will be further illustrated hereinafter with reference to the attached drawing, the only figure of which shows a cross section of a solenoid valve according to the invention.

In general, the solenoid valve comprises a valve body 10 having an inlet duct 11 and an outlet duct 12 ending with a section of reduced diameter for insertion into a rubber tube or other steam passage duct.

In the case shown, the inlet duct 11 and the outlet duct 12 are axially aligned with each other, however it is evident that the two ducts could also be oriented differently, for example in orthogonal directions lying in the same plane normal to the axis of a electric control coil 14, ie in a plane orthogonal to the previous one.

The inlet conduit 11 and the outlet conduit 12 are separated by a valve seat 15 against which a shutter 16 closes. The shutter 16 is carried by the movable core 17 of the electromagnetic coil 14, which is axially sliding in a tubular extension 18 of the valve body made by molding in one piece with the valve body itself, on one side of the inlet duct 11 and / or of the outlet duct 12 mentioned above. The upper end of the tubular extension 18 is closed by the fixed core 19 of the electromagnetic coil 14, which also defines the abutment surface for a spring 20 inside the movable core 17, which tends to push the shutter 16 closed against the seat of valve 15.

According to the present utility model, the valve body 10 as a whole is made by molding in one piece using a plastic material consisting of a technopolymer comprising a phenolic-based aromatic resin such as a polyphenyl sulphide or similar aromatic resin.

In fact, from tests and experiments it has been found that a phenolic-based aromatic resin, in particular polyphenylsulfide, belonging to the family of technopolymers, has proved to be suitable for similar applications, for its good printability characteristics, as well as for its mechanical properties. , electrical, thermal and chemical, which allow the creation of solenoid valves for the specific uses specified, having high safety and reliability characteristics.

The good printability characteristics of the resin allow to produce valve bodies at comparatively lower costs, also avoiding the formation of limestone deposits in the most critical points of the path, where the vapor tends to cool and condense causing the formation of encrustations which, over time, they could cause an imperfect closing of the valve or the blocking of the valve itself.

Furthermore, the high dielectric characteristics of the material used do not affect the magnetic circuit of the coil and also make it possible to reduce the transfer of heat from the water vapor towards the electromagnetic control coil; in this way it is possible to design the coil for comparatively lower powers equal to half the power required for traditional solenoid valves.

Claims (3)

CLAIMS 1. Solenoid valve, in particular for application to boilers for the generation of water steam that can be used with irons and the like, comprising a valve body having an inlet and a steam outlet duct, as well as a controlled intermediate shutter from the movable core of an electromagnetic coil to close or open the inlet duct towards the aforementioned outlet duct, characterized by the fact that said valve body is molded in one piece with plastic material, consisting of a technopolymer comprising a phenolic-based aromatic resin . 2. Solenoid valve according to claim 1, characterized in that said phenolic-based aromatic resin is in particular a polyphenyl sulphide. 3. Solenoid valve according to the preceding claims, characterized in that said valve body has an inlet duct, an outlet duct, a valve seat and a tubular extension arranged on one side, for supporting and anchoring the electromagnetic coil, said parts being made in a single piece of molded plastic material, said inlet duct and said outlet duct lying in the same plane orthogonal to the tubular extension supporting the electromagnetic coil, or lying in mutually orthogonal planes.