DE2043002A1 - Pressure and suction valve - Google Patents

Description

1. Vladimir Alexandrovich Mikhailov, engineer, USSR, Moscow, ulitsa Matrosskaya Tishina, 23, kv. 22 2nd Alexandr Alexandrovich Shtelmakh Engineer, USSR, Moscow, Astakhovsky pereulok, 1/2, kv. 123 3. Maria Vladislavovna Izhkevich, engineer, USSR, Moscow, Novocheremushkinskaya ulitsa, 3-a, corpus 2, kv. 71 PRESSURE AND SUCTION VALVE The present invention relates to pumps and compressors, in particular to automatic suction and pressure valves for these machines.

There are valves known, the seat of a prism with the Through openings for fluid is formed on side surfaces. As locking pieces for these through openings each one attached to one edge of the seat body is used Plate (see, for example, U.S. Patent Nos. 2698818 and 2934083 Class 137).

However, these valves are complicated in construction and unreliable in their construction Operation and have a relatively large space requirement.

Furthermore, since higher panel elasticities are usually only available with larger ones Plate lengths are to be achieved, the valve plates must be used for larger flow capacities of the valve are dimensioned very long and the whole valve turns out to be bulky. this is the reason that this type of valve is only used in compressors has not found application in pumps.

Valves for pumps and compressors are also known which the valve seat is a cylinder with Durchden passage openings in side walls and the closure piece is formed by a rubber O-ring (see for example French patent specification No. 165 271, class E16k) Because of the low strength of the rubber ring, however, this type of valve is only suitable for a limited pressure range.

The invention aims to address the disadvantages of the known valves remove.

The purpose of the discovery is to create a fundamentally new one Specify closure piece for the valves of the type described above.

the task at hand will be the printing resp. Suction valve with discharge openings for / fluid in the seat side walls and with a plate-shaped, predominantly metal closure piece, according to the invention daduroh solved that the closure plate is bent according to the seat shape, in such a way, that they are at the seat side walls and over all through openings (27) extends, but does not form a closed ring.

According to a further feature of the invention is the permeability of the valve is higher if it is offset in relation to the through openings in the seat Provides openings in the closure plate and recesses on the seat opposite these openings worked out separately from the seat openings. Aui this way a higher permeability of the valve can be achieved without increasing the valve plate stress reach.

The elasticity of the specified closure piece can be determined according to the invention also through continuous slots in the webs between the outermost openings of the locking piece and its edge.

The invention is based on an exemplary embodiment below explained in more detail with reference to the accompanying drawings. It represents Fig.1 valve designed according to the invention for pumps and compressors in longitudinal section, in which the the passage openings for fluid in the direction of Extend valve longitudinal axis, Fig.2 the section II-II according to Fig.1, Fig. 3 a further Design variant for the valve according to the invention, wherein the through openings that for fluid extend transversely to the valve longitudinal axis Fig. 4 the section IV-IV according to FIG. 3, FIG. 5 is another variant of the embodiment according to the invention Valve in longitudinal section, in which the closure plate is in contact with the inner seat surface, Fig. 6 the section VI-VI according to Fig. 6, Fig.? the longitudinal section of a erfindungsgernäß trained valve, in which the closure plate with pins and collars to the Seat front sides is secured against rotation and axial displacement, Fig.8 Section VIII-VIII according to Figure 7, Figure 9, 10, 11 three possible designs for the Closure plate (drawn in a stretched manner), with the through-openings in dashed lines are drawn in the seat.

Fig. 12, 13 some examples for the arrangement of the valves in pumps and compressors.

The valves shown in the drawings are for pumps and Compressor thought. They are basically made up of a cylindrical seat 1 with passage openings 2a, 2b, 2c and 2d (Fig. 1 to 8) in the side walls and a closure piece 3 together. The locking piece represents one to one not closed Ring curved plate, which rests against the cylinder surface of the valve seat and all through openings 2 covers. The valve seat 1 can in addition to the cylindrical also have an oval or conical seat or prism-shaped 8ei.

The shape of the closure plate is always adapted to the seat.

In the present case, the valve plate is made of metal. However, other materials are also suitable for this, for example plastics, metal-reinforced Rubber, etc.

The closure plate 3 is against axial displacement and rotation opposite the valve seat with the threaded pins screwed into the valve seat 1 4 secured, which engage in the plate openings 5 (Fig. 9, 10, 11, 12).

Fig. 7 shows another possibility of securing the locking plate, namely here the rotation is screwed into the valve seat and into a Slot in the locking plate engaging threaded pins 6 and the displacement by collars 7 on the front of the seat (Fig.7., 8; prevented. In the collars 7 are while recesses 8 are provided for the passage of the fluid.

In Fig.1, 2 is a variant of the invention Specified valve in which the through openings 2a in the valve seat 1 in the Extend longitudinally. In the case of the valves according to FIGS. 3 to 6, the passage openings are 2b (Fig.3) and 2c (Fig.5) extended transversely to the valve longitudinal axis. A third possibility can be seen in Fig.7, 8. The through openings 2d (FIG. 8) are round.

The closure plate 3 (Fig.1 to 12) can be both contiguous as well as to increase the permeability with Holes 9 provided be, these of course offset from the openings in the valve seat are.

There are still recesses on the sealing surface of the valve seat 1 10 is provided under the openings in the closure plate 3. These recesses are allowed but not connected to the through openings 2a, 2b, 2c, ad, and 2e in the valve seat 1 will.

To increase the elasticity of the closure plate and thus reduce it the pressure losses in the valve are special continuous slots 11 (Fig. 10, 11) or 12 (Fig.11) in the webs between the openings 2d, 2e (Fig.8, 12) or between the openings 2d, 2e and plate edge provided.

The valve has the task of the fluid (liquid or Gas) in the direction from the valve seat to the closure plate with the lowest possible pressure loss let through and the flow cross-section when reversing the direction of flow Shut off with safety even at higher pressures.

With normal flow direction, the liquid pressure acts The closure plate via passage openings 2a, 2b, 2c (FIGS. 1 to 8) in the valve seat 1 3, which is elastically deformed and lifted from the sealing surface of the valve seat 1 will. Between the valve seat 1 and the closure plate 3 there is a gap, together with the opening 2a, 2b, 2c and recesses 10 in the valve seat and openings 9 in the closure plate connects the interior of the valve seat 1 with the exterior. The liquid flows through the openings formed with relatively little pressure loss by.

If the pressures before and after the valve are the same, it subsides the closure plate under the effect of the internal stresses again on the sealing surface of the valve seat 1 and blocks the openings 2a, 2b, 2c in the valve seat 1.

If the direction of flow changes, the closure plate is from Liquid pressure is pressed against the sealing surface of the valve and blocks the passage cross-section away.

A few more examples of the arrangement of the are described below Valves in pumps and compressors described in more detail.

Fig. 13 shows a possibility for the arrangement of a valve unit V. a pump or compressor housing 14.

The valve unit consists of a pressure valve 15 (Fig. 13) and a suction valve 16 together. The two valves are located in the same housing bore and are clamped with a cover 17. The conveying medium flows during the suction stroke from the suction line 19 through the valve 16 into the working chamber 18 of the pump or of the compressor. Glue pressure stroke is there from the space 18 through the valve 15 in the Pressure line 20 displaced.

Another possible arrangement for the valve unit in the The rag or compressor housing can be seen in Fig. 14.

On the joint clamped in the housing bore with cover 22 Valve seat 21 (Fig. 14) are located inside the closure plate 23 of the suction valve and outside the closure plate 24 of the pressure valve. In the places opposite the Closure plates 23, 24 are annular grooves 25, 26, the dei accordingly with Suag and pressure line are in connection. The plunger 27 engages in the interior 28 of the valve unit 21.

Such an arrangement results in smaller dimensions for the entire housing 14. Furthermore, the Macshine housing 14 is subjected to stress Alternating forces that arise as a result of pressure fluctuations in the working space 28 are avoided. This is particularly important with some aggressive media, as the resistance of the housing material is increased compared to the intergranular decay.

Claims (3)

PATENT CLAIMS: 1. Pressure or suction valve with through openings in the seat side walls and with a plate-shaped, predominantly metal, closure piece, d a d u r c h g e -k e n n z e i c h n e t that the locking plate (3) according to the Seat shape is bent in such a way that it rests against the seat side wall and all through openings (2) covers, but does not form a closed ring. 2. Valve according to claim 1, g e k e n n z e i c h -n e t through openings (9) offset from the through openings in the seat (1) in the closure plate (3) and recesses (10) on the seat opposite these Openings (9), the recesses (10) from the through openings (2) in the seat (1) are separate. 3. Valve according to claim 1, g e k e n n e i c h n e t through continuous slots (12) between the openings (9) of the closure plate and the Plate edge (13),