DE2205854A1 - VALVE - Google Patents

Description

NTANWAIiT

Dipl. Ing. B. HOLZEB

89 AUOSBTTBG

I.

Augsburg, February 8, 1972

Shoketsu Kinzoku Kogyo Kabushiki Kaisha, 10-5, Shinbashi 2-chome, Minato-ku, Tokyo,

Japan

Valve

The invention relates to valves with a sleeve which has at least two arranged at a certain distance from one another Has openings, and with a piston arranged within this sleeve, which piston is selectively displaceable between two operating positions.

In known valves of this type is usually

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the sleeve is firmly held in the valve housing and the piston fitted into the sleeve is activated by means of an electromagnet displaced so that it establishes a connection between the openings formed in the sleeve or interrupts.

In electromagnetic switching valves of the conventional type, for example in an electromagnetic four-way valve, five annular grooves are formed in a cylindrical sleeve, each at the same distance from one another. A plurality of identical circular openings is formed in each of these annular grooves. The sleeve is held coaxially in a valve housing and at a certain distance from a solenoid. The piston, which is arranged displaceably in this sleeve, is provided at one end with a spring and at its other end with a displaceable iron core arranged on the side of the solenoid facing away from the piston. The circular openings and annular grooves formed in the sleeve are each connected to a supply duct, two connecting ducts and two outlet ducts . When the solenoid is not energized, the piston remains in its position next to the solenoid under the action of the spring and connects the supply

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channel with one of the connecting channels and the other connecting channel with one of the outlet channels. If the Coil of the solenoid is energized, however, so this attracts the iron core and moves the piston in the direction the spring in its other operating position, in which it the connection of the supply channel of the one Connection channel to the other connection channel and the connection of one connection channel from the one The outlet channel switches to the other outlet channel.

It is necessary that the openings in the sleeve are arranged at the mouths of the channels concerned, so that there is a smooth transition for the fluid results. In this known arrangement, however, in which the circular openings in the annular grooves are each in such a manner are arranged that a sufficient passage cross section is achieved, many empty spaces remain in the Annular grooves left over, so that the entire circumferential surface of each groove can not be fully used. That naturally results in an increase in the effective cross-sectional area of the sleeve and in the width of each annular groove.

The object of the invention is to be achieved, the shape and arrangement of the openings formed in the sleeve

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to improve in a valve of the above type in such a way that the entire circumferential surface of each annular groove in the sleeve is maximally usable, so that the width of each annular groove and the effective cross-sectional area of the sleeve and thus the overall size of the valve can be reduced.,

In terms of the solution to this problem, the invention includes a valve with a sleeve, which at least has two openings arranged at a certain distance from one another, and with one inside this sleeve arranged piston, which is optionally displaceable between two operating positions. Such a valve is characterized according to the invention that the dimension of the one opening in the direction of the relative displacement is smaller than the dimension of the other opening that further the arrangement is made so that the valve between the two openings can either be in an open position or in a closed position, depending on which of the two operating positions is selected, and that finally the minimum value between the open position and the closed position required piston displacement from the dimension of the one opening depends.

In a further development of the valve according to the invention

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the two openings in the direction transverse to the piston displacement direction each have an elongated shape.

Another development of the valve according to the invention is the cross-sectional area of the one opening smaller than that of the other opening.

The valve according to the invention differs from known valves of this type, in which the in The openings formed in the bush are each circular areas of the same diameter, in particular in that these openings according to the invention differ in diameter from each other and are thereby maximally usable.

In the valve according to the invention it has also become possible to shorten the piston stroke and thereby to reduce the energy consumption of the solenoid, to shorten the switching time and the valve stroke as well as the Reduce temperature rise to a minimum and thereby extend the service life and service life of the valve as well as to improve the working capacity of the valve. These essential advantages of the valve according to the invention are achieved in that the openings formed in the sleeve each have an elongated, oval shape,

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which leads to a reduction in the voids in each annular groove to a minimum and allows a reduction in the width of each annular groove while maintaining the same passage area.

An embodiment of the invention is shown in the drawings and is described in more detail below. Show it:

Pig. I made a longitudinal section through the

essential part of an electromagnetic four-way switch valve according to the invention,

the pig. 2 and 3 in elevation and in section

the line VI-VI in Fig. 2, the box of the in Pig. I illustrated Valve according to the invention,

Pig. 4 shows the relationship in a diagram

between the piston stroke on the one hand and the coil current, the electrical power consumption, the switching time and the energy

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consumption of the solenoid, on the other hand, in the case of an electromagnetic one Four-way diverter valve according to the invention,

Fig. 5 is a longitudinal section through a

preferred embodiment of the valve according to the invention,

Fig. 6 shows an essential part in elevation

Part of the switching device, and

7 and 8 are cross-sectional and longitudinal sections, respectively

by the part shown in FIG.

A cylindrical sleeve 1 shown in FIGS. 1 to 3, which is shorter in length than the sleeves has in known valves of the type mentioned, is with a plurality of Urnfangs- or annular grooves provided, v / calibrate a smaller width than the Have grooves in the known valves. Along the circumference of each annular groove 2 are several elongated or

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oval passage openings 3 formed with the same passage cross-sectional area. The sleeve 1 is installed in an equally smaller switching valve housing 4. In the sleeve 1, a piston δ is fitted, which is also smaller than in the known valves. In Pig. h shows the relationship between the stroke of the piston 8 and the coil current a, the electrical power consumption b, the switching time c and the energy consumption d of a solenoid. From Fig. 4 it can be seen that the coil current a increases parabolically with increasing piston stroke, while the electrical power consumption b and the switching time c increase linearly. The energy consumption d increases according to a curve of the second order. A reduction in the piston stroke near the 12mm point by 1 micron results in a reduction in the electrical power consumption b by about $ 10, a shortening of the switching time c by about 7%> a reduction in the energy consumption d by about 10 $ and in addition, the temperature rise of the solenoid 5 is slowed down, which results in a considerable extension of the service life and the service life of the valve. In addition, the shortening of the stroke leads to a lessening of the piston impact and an additional extension of the service life.

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The sleeve 1 of the valve according to the invention can also be used with other types of valves, to achieve the same advantageous effects described above, for example one with a piston and a sleeve electro-magnetic switching valve.

Fig. 5 shows a longitudinal section through an electromagnetic four-way switch valve according to the invention. Fluid enters through a supply channel 21 formed in a lower plate 37, passes through circular openings 26 and 27 formed in a sleeve 35 held within a valve housing 36, and flows through a channel 23 formed in an upper plate 38 the end. Due to the fluid pressure, on the other hand, fluid passes from a channel 22 formed in the upper plate 38 via circular openings 28 and 29 in the sleeve 35 and flows out via a channel 2k formed in the lower plate 37. The direction of flow of the fluid is switched over by supplying a coil 31 with an excitation current so that it attracts a plunger 32 and thereby the piston 33 overcoming the counteracting force of a spring 34

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into its other stable operating position in FIG shifts right. In this operating position, fluid flows out of the channel 21 through the circular Openings 26 and 28 in sleeve 35 through and into channel 22 while fluid is out of the channel flows through the circular openings 27 and 30 in the sleeve into the channel 25. When the to the coil flowing current is switched off, this is de-energized and consequently the plunger 32 and the piston 33 are through the compressive force of the spring 3 ^ in its starting positions pushed back.

In general, the life of an electromagnetic changeover valve of the type described above strongly influenced by the quality of the individual parts and the stroke of the movable part. If consequently If this stroke is shortened, the electrical and mechanical wear and tear on the solenoid is reduced, its Extended service life and also improves its stability in the event of frequent switchovers. In addition, the Reduced the possibility of spring failure due to fatigue. Overall, this results in an extension the life of the valve according to the invention.

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Taking into account the above considerations, in the valve according to the invention, the circular supply openings 26 and the outlet openings 29 and 30 in the sleeve 35 are made as small as possible within the permissible range of the effective cross-sectional area, while the circular openings serving as outlet openings 27 and 28 are made as large as possible in order to achieve a maximum of the effective cross-sectional area. The size of the circular openings 26, 29 and 30 is directly related to the stroke of the piston 33 _s, but the size of the circular openings 28 and 29 has no direct influence on this stroke, so that it is possible to use the openings 28 and a to give maximum size.

While in the known valves of the type mentioned, the openings in the sleeve all the have the same diameter regardless of their location and the minimum permissible size of this opening diameter is limited by the required effective passage cross-sectional area, are in the valve according to the invention the openings controlling the stroke are made as small as possible, while those openings which are in none direct relationship to this hat) are as large as

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are possible. This makes it possible, overall to achieve the required effective passage cross-sectional area. This principle according to the invention can also be used there can be used where the openings are each elongated Have shape. In addition, the idea on which the invention is based can not only apply to directly acting electromagnetic Valves are used which have a piston and ', a sleeve, but in the same Also with solenoid switch valves or air valves.

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Claims (12)

Claims (1.j valve with a sleeve, which at least two has openings arranged at a certain distance from one another, and with one arranged within this sleeve Piston which is displaceable between two operating positions, characterized in that the Dimension of one opening (26) in the direction of the relative displacement is smaller than the dimensions of the other opening (27) that the arrangement is further made is that the valve between the two openings is either an open position or a closed position can take, depending on which of the two operating positions is selected, and that finally the minimum value the piston displacement required between the open position and the closed position of the / dimension that depends on one opening. 2. Valve according to claim 1, characterized in that the area of a circle whose diameter is equal the dimension of one opening (26) is smaller than the area of the other opening (27). - 13 - 309839/001 1 3. Valve according to claim 1, characterized in that the two openings in the direction transverse to the piston displacement direction each have an elongated shape (Fig. 2). 4. Valve according to claim 3, characterized in that the cross-sectional area of the one opening (26) is smaller is than that of the other opening (27). 5. Valve according to one of claims 1 to 4, characterized characterized in that a plurality of said one openings (26) in a direction perpendicular to the direction of displacement Level is arranged (Fig. 6). 6. Valve according to one of claims 1 to 5, characterized in that a plurality of the other Openings (27) is arranged in a further plane at right angles to the direction of displacement (FIG. 6). 7. Valve according to one of claims 1 to 6, characterized in that the one or each one opening (26) opens into an annular groove (2) formed in the sleeve. 8. Valve according to one of claims 1 to 7, characterized 309839/0 011 characterized in that the other or each other opening opens into a further annular groove formed in the sleeve. 9. Valve according to one of claims 1 to 8, characterized characterized in that the piston (33) has a part that allows fluid to flow and is displaceable on the Inside wall of the sleeve (1) reads and which either in a position on one side or in one position is displaceable between the one and the other openings, depending on whether the open position or the closed position of the valve is selected. 10. Valve according to one of claims 1 to 9, characterized by a control device (31) for adjustment the open position or the closed position. 11. Valve according to claim 10, characterized in that the control device is an electromagnet (31). 12. Valve according to claim 1 or claim 3 and one of claims 4 to 11, characterized in that the openings (26, 27, 28, 29, 30) are each circular are. - 15 - 3098 3 9/0011 4t Blank page