RU2233466C2 - Feed controller for gases and liquids - Google Patents

Abstract

FIELD: machine engineering, possibly controlling feed of gases and liquids at gas-shield metal welding, in medicine, in domestic condition for mixing cold and hot water and son on.

SUBSTANCE: feed controller includes hollow body with outlet union in central part, two sleeve with internal thread mounted on ends of body. On bottom portion of each sleeve there is inlet union. On lateral surfaces of each sleeve there are electromagnetic windings that may be connected to power source. In chambers restricted by inner surfaces of sleeves and ends of body there are members for controlling stroke of valve-core arranged in cavity of body with possibility of axial motion and having central cylindrical part and cone end portions. In central part of valve-core there is annular turning whose cavity if communicated with outlet union; in cylindrical part of valve-core at both sides relative to turning there are lengthwise grooves for passing liquids and gases from chambers to cavity of annular turning. Each member for controlling stroke is in the form of ring of non-magnetic material whose elasticity modulus is more than that of material of valve-core. Said ring has thread on its generatrix and axial opening with cone turning around opening designed for engaging with cone surface of valve-core. Turning has size 2 - 3.5 mm. Conicity angle of cone portions of valve -core is in range 90 - 150 degrees. Each member for controlling stroke is screwed in thread of respective sleeve and it may be moved for adjustment.

EFFECT: simplified design, increased useful life period of controller.

2 cl, 1 dwg

Description

The invention relates to mechanical engineering and can be used to control the flow of gases when welding metals in a gas-protective environment, in medicine, in everyday life to ensure mixing of hot and cold water, etc.

A device for pulsed shielding gas supply containing a burner, gas supply lines, a valve, a pulsator made in the form of a cylindrical body and an oscillating piston (see UK patent No. 1372518, CL 23 K 9/00, 1974).

The disadvantages of the known device are the inability to alternately supply two different gases and control the frequency and duration of the pulsation of each gas.

A metering device is known in which there is a conical valve inside the cylindrical body, the axial movement of which is ensured by a magnetic ring located outside the body (see Japanese Application No. 47-16023, F 16 K 11/04, 1972). The disadvantages of the known device are significant dimensions and insufficient frequency of movement of the conical valve.

A device for supplying a working medium is known, in which the channels for supplying a working medium are each equipped with their own conical valve, the channels being opened and closed by means of electromagnetic actuators, the number of valves and their sizes set the required accuracy of controlling the flow rate of the working medium (French patent No. 2482241, G 05 D 7/00, F 16 K 1/24, 1985) The disadvantages of the known technical solutions are the complexity and significant overall dimensions.

A device for the pulsed supply of protective gas or liquid, comprising a housing with two inlet and one outlet channels with fittings on each channel, a mixing chamber, an axially movable valve element with a cylindrical central part and two conical end parts, and a valve movement actuator, bushings are installed on the housing from the side of the exhaust channels, the mixing chamber is formed by a hollow cylindrical housing and bushings, the cylindrical part of the valve element is made with with an diameter equal to the inner diameter of the hollow cylindrical body, an annular groove is made in the cylindrical part of the valve element, longitudinal grooves are located on either side of it, the fittings on the inlet channels are made in the form of adjusting screws with an axial hole in each of them installed in the bushings with the possibility of axial displacement relative to the housing, and the screws are made of material with an elastic modulus greater than the elastic modulus of the material of the valve element. (see RF patent No. 2049618, class B 23 K 9/16, 1995) - the closest analogue.

As a result of the analysis of the known device, it should be noted that the implementation of the inlet fittings and adjusting elements in the form of a single structural unit complicates both the design of the regulator and the regulation of the valve core, and in addition, it is possible to jam its conical part when in contact with the adjusting element, which leads to the need to stop the process of supplying gases or liquids (which is especially undesirable when conducting, for example, welding) and the need for disassembly of the regulator. Quite often, when the core valve is jammed, contact surfaces of the core valve and (or) the element for regulating its position are damaged. This reduces the life of the regulator and leads to the need for repair.

The objective of the present invention is to develop a controller with a long service life, simple structurally, the design of which provides convenient and accurate control of the valve core, and also eliminates its jamming during operation.

The task is ensured by the fact that in the regulator for the supply of liquids and gases, containing a hollow body with an outlet fitting in its central part, two glasses are installed at the ends of the body with threads on their inner surface, an inlet fitting is installed in the bottom of each of them, and on the side the surfaces of each of the glasses are placed electromagnetic coils that can be connected to a power source, in the chambers formed by the inner surfaces of the glasses and the ends of the housing, there are control elements the stroke of the core valve installed in the cavity of the housing with the possibility of axial movement and made with the Central cylindrical part and conical ends, and on the Central part of the valve core is made an annular groove, the cavity of which is connected to the outlet fitting, and on the cylindrical part of the valve core with of two sides relative to the groove, longitudinal grooves are made for the passage of liquids and gases from the chambers into the cavity of the annular groove, new is that each of the elements walking the valve core is made in the form of a ring of non-magnetic material with a thread on the generatrix and an axial hole with a tapered-shaped groove around the latter, designed to interact with the tapered surface of the core valve, each control element is screwed into a thread made in a glass and has the possibility of adjusting movement, and the groove made in each of the elements of the valve – core stroke control has a size of 2.0–3.5 mm, and the taper angle of the tapered parts of the valve is dechnika is 90-150 °.

The total cross-sectional area of the grooves made on each side of the annular groove of the core valve is less than the cross-sectional area of the corresponding inlet fitting.

The implementation of the stroke elements of the valve core in the form of rings having the ability to move along the thread of the inner surface of the glasses, makes it easier to install them in a predetermined position.

The presence on the ring around its opening of a groove (chamfer) with dimensions of 2.6-3.5 mm allows, along with the values of the angle of the cones of the core valve, to virtually eliminate jamming of the core valve and the element for adjusting its position.

The claimed ratio of the cross-sectional areas of the grooves on the cylindrical surface allows you to provide the optimal ratio of the pressures of liquids or gases in the chambers and the annular groove of the valve core and create optimal conditions for their mixing.

When conducting patent research, no solutions were identified that are identical to the claimed one, which allows us to conclude that the claimed invention meets the criterion of “novelty”.

The essence of the claimed invention does not follow explicitly from the known technical solutions, and therefore, it meets the criterion of "inventive step".

The information set forth in the application materials is sufficient for the practical implementation of the invention.

The invention is illustrated by drawings, which show the regulator of the supply of liquids and gases, axial section.

The regulator for the supply of liquids and gases consists of electromagnetic coils 2 having the ability to connect with a power source 1, located on the side surfaces of the glasses 3, having a thread 4 on the inner surfaces and an opening 5 in the bottom.

Glasses 3 are installed at the ends of the hollow body 6 with an outlet fitting 7 in its central part.

An axial valve 8 is placed inside the housing 6 with the possibility of axial movement, in the central part of which an annular flow passage 9 is made, there are cylindrical sections 10 on two sides relative to the groove, and the ends 11 are conical in shape. On the cylindrical surfaces 10 there are longitudinal grooves (grooves) 12, providing simultaneous and complete filling of the groove 9 of the core valve 8 with gases or liquids. The groove 9 is connected to the outlet fitting 7.

The inner surfaces of the cups 3 and the ends of the housing 6 form two chambers, each of which has an element 13 for regulating the stroke of the valve core 8, made in the form of a ring of non-magnetic material with a thread on the generatrix and an axial hole 14 with a conical groove (chamfer) 15 around the hole .

Rings 13 have the ability to tune along the thread of 4 glasses.

The rings 13 are made of a material whose elastic modulus is greater than that of the material of which the core valve is made. This improves the operation of the device (controller).

To avoid sticking (sticking) when the conical surfaces 11 of the valve core 8 come into contact with the grooves 15 of the rings 13, it is necessary that the conical surfaces 11 have an angle in the range from 90 to 150 °, and the groove size is 2.0-3.5 mm.

The total cross-sectional area of the longitudinal grooves made on each side of the cylindrical surface from the groove of the core valve should be less than the cross-sectional area of the corresponding inlet fitting.

In the holes 5 of the glasses 3 installed inlet fittings 16.

The regulator for the supply of liquids and gases works as follows.

We consider the operation of the regulator as an example of mixing two gases G ₁ and G ₂ .

Before you begin, ensure that the rings 13 are installed in a predetermined position by moving them along the thread 4 of the glass 3.

Gases G ₁ and G ₂ are fed under pressure through fittings 16 into the cavity formed by the bottom of the cup and the end of the ring 13, cups 3 or one of the chambers (chambers), depending on the task and installation of the regulating elements 13. The order of switching on the coils 2 sets the necessary the law of movement of the valve core 8 for the supply of gases. In the extreme position, the valve core 8 overlaps one of the holes 14 of the ring 13, and therefore, the supply through the nozzle 16 of the gas G ₁ or G ₂ . The more the opening 14 of the ring 13 opens during the movement of the core 8, the greater the flow of one of the gases, the more the flow of the other gas is blocked.

Changing the frequency of current pulses in the windings of the coils 2 and adjusting the position of each of the rings, provide reliable control of the composition of the mixture or the supply of a portion quantity of a gas.

The reliability of controlling the composition of the mixture is significantly affected by the angle of the conical part of the valve core (the angle of the conical part must be 90-150 °) and the material of the rings, whose higher elastic modulus than the elastic modulus of the material of the valve core prevents sticking of the latter upon contact with a groove 15 of the hole 14 of the ring 13.

The design of the regulator makes it possible to provide a pulsed alternating gas supply at frequencies from 5 to 20 Hz and can be used in various systems where it is necessary to create a protective gas environment, and especially when welding. So, when arc and laser welding of high-strength steels, aluminum, magnesium and titanium alloys in gas mixtures (argon + carbon dioxide) (argon + helium), the degree of protection of the weld metal is increased by using this device while reducing gas consumption by about half.

The regulator is highly efficient when working with gases such as nitrogen, oxygen, air, which are used in life support systems and in medicine.

Similarly to the above-described controller, it also functions when supplying liquids, such as cold and hot water, in plumbing devices.

The regulator is easy to manufacture, reliable in operation and can be used in various fields of technology.

Claims (2)

1. The regulator of the supply of liquids and gases, containing a hollow body with an outlet fitting in its central part, two glasses with threads on their inner surface mounted on the ends of the body, an inlet fitting is installed in the bottom of each of them, and placed on the side surfaces of each of the glasses electromagnetic coils with the ability to connect to a power source, in the chambers formed by the inner surfaces of the glasses and the ends of the housing are elements of the valve-core stroke control, installed in the body cavity with the possibility of axial movement and made with a central cylindrical part and conical ends, moreover, an annular groove is made on the central part of the valve core, the cavity of which is connected to the outlet fitting, and longitudinal parts are made on the cylindrical part of the valve core from two sides relative to the groove grooves intended for the passage of liquids and gases from the chambers into the cavity of the annular groove, characterized in that each of the control elements of the valve core is made in the form rings of non-magnetic material, the elastic modulus of which is greater than the elastic modulus of the material of the valve core, with a thread on the generatrix and an axial hole with a tapered groove around the latter, designed to interact with the tapered surface of the valve core, said tapered groove has a size of 2.0- 3.5 mm, the taper angle of the conical parts of the valve core is 90-150 °, and each control element is screwed into a thread made in the corresponding glass and has the ability to adjust wow moving. 2. The regulator according to claim 1, characterized in that the total cross-sectional area of the grooves made on each side of the annular groove of the core valve is less than the cross-sectional area of the corresponding inlet fitting.