DE1550203A1 - Control valve - Google Patents

Description

Dipl.-Ing. Heinz Ciaesaen
! Patent attorney
7QQQ Stuttgart W
RotebUhletr, 70

DB-GO / Heg. 18th

Η. * Γ · öevatter-H.Kirner ^ W.Klebahn 2-5-5

DRÄGER-GQ REGELUNGSTECHNIK GmbH, Easen

Control valve.

The invention relates to a cone valve for high pressure air conditioning systems, those according to the four-pipe system with admixing control work.

For controlling induction devices in high pressure air conditioning systems According to the four-pipe system with admixing control, it is known either two mixing valves and a switching valve with together nine connections or two special valves with a total of eight connections to use. The expenditure on actuators is therefore considerable and makes such a system more expensive.

To reduce the effort on actuators, i.e. the puncture to achieve several valves with only one valve, which only has as many connections as because of the number of pipelines are absolutely necessary, based on the technology known from hydraulic slide valves, it has already been proposed that the upper part and the lower part of the valve body are arranged outside the valve body and parallel to it to connect running connecting pipe or a bypass line. Such an arrangement results in comparison with the known Valves have considerable advantages, but this is not the case the bypass line running through the valve body is not yet the best solution

August 19, 1966

_ö / _wt 9 0 9 8 8 1/0 85 S _2-

DR-GC / Beg. 18th

The object of the invention is based on the proposed one mentioned To improve control valve. According to the invention, this is thereby achieved achieved »that the upper part and the lower (bearing of the valve body are connected by a coaxial inner bore provided with lateral openings in the control cone.

According to one embodiment of the invention, the side openings the inside of the control cone through perpendicular to the inside bore running, sioh intersecting holes formed.

According to a further embodiment of the invention, the lateral openings of the inner bore of the regulating cone by a reduction of the outside diameter of the control cone in this area.

The interior of the valve body corresponds in structure to a Hydraulic slide, however, the openings are not only closed in the simple way that is usual there, but the valve cone is according to a further embodiment of the invention with profiles to achieve certain flow characteristics.

The control valve according to the invention provides several advantages. In the case of a high-pressure air conditioning system that works according to the four-line system with mixing control, only one valve is required when using the valve according to the invention, compared to at least two or more valves previously. Since only a single drive is required for this, the cost savings are also considerable. In addition, due to its simple puncture, such a control valve can be installed by fitters in air conditioning systems to be created with far less effort than z, ^f 3. two mixing valves and a switching valve of the previously known type. The control valve according to the invention thus combines the function of three mixing valves with a. Changeover relay in a single, compactly constructed component, in which the bypass line is routed to the inside of the Rtgelkegel.

909881/0156 *

BAD ORSGLNAt

DR-GC / Reg. 18th

The invention is explained using a drawing:

In the drawing, a control valve is shown, which consists of the valve housing 1 with the connection openings 2, 3, 4, 5, 6 and 7, the sliding seats 9, 10, 11, 12, 13, 14, the valve cone 15 with its profiles 1.6, 17 _r ¹ 8 and 19 sovde its inner bore 8 with the transverse bores 22 and 23, the spindle 20 and the stuffing box 21 consists. The valve is actuated by a pneumatic or electric drive (not shown). However, the type of drive has no influence on the function.

The control valve has only six connections: hot water flow, Hot water return, cold water flow, cold water return, Induction device flow, induction device return. "

The valve is connected as follows:

DHW flow at 4 Waro water return with 5 cold water flow with 3 cold water return with 2 Induction device flow at 7 Induction device return at 6

In the valve position shown, there is full flow of the hot water through the induction device.

The hot water flows from connection 4 via sliding seat 12 (completely on), "connection 7, induction device, connection 6, holes 22 (and 23), inner bore 8 for connection 5.

The cold water flows from connection 3 via sliding seat 10 (fully open) «to connection 2. The sliding seats 9, 11 and 13 are geaciQ, QS _r

90988 1/06 56

DB-GC / Reg. 18th

-4-

As the stroke begins, the sliding seat 12 is gradually closed and at the same time the Schiebeeitz 13 gradually opened so that the water no longer flowing through the induction device * amount immediately from connection 4 via sliding seat 13 to connection 5 flows. In the lower part of the stroke you can find the same Control process for the cold water takes place. The lengths of the valve housing and the cone are designed so that at the mid-stroke through the Induction device no water flows. The sliding seats 9, 11, 12 and 14 are then closed, the sliding seats 10 and 13 are open. This ensures that cold and hot water cannot be mixed in any valve position.

The length dimensions of the profiles and the cylindrical guides of the cone on the one hand and the distances between the valve seats in the housing on the other are therefore coordinated so that regardless of the valve position of the cold water connections 2 and 3 never an open passage to the hot water connections 4 and 5 is available. Furthermore, the length dimensions of the profiles on the cone on the one hand and the distances between the valve seats on the housing on the other hand coordinated so that during the upper half of the stroke, the free area on the sliding seat 10 remains constant and the Sliding seat 9 remains closed as long as the lifting movement of the cone on the sliding seats 12 and 13 causes the free areas to move change. Likewise, the sliding seat 14 remains closed and the free area on the sliding seat 13 remains constant as long as the Stroke movement of the cone on the sliding seats 10 and 11, the free areas change. Furthermore, the length dimensions of the profiles and cylindrical guides of the cone on the one hand and the distances the valve seats in the housing, on the other hand, are matched to one another in such a way that when the sliding seat 14 is open, the sliding seat 12 is also open and the sliding seats 9 and 11 are closed; accordingly that when the sliding seat 9 is open via the bores 22 and 23, The sliding seat 11 is also open and the sliding seats 12 and 14 are closed; further that, from the sliding seats 9 and 14

909881/0656

Both are never open at the same time, and so are the sliding seats 11 and 12 are never both open at the same time and from the sliding seats 10 and 13 are never both closed at the same time.

The valve connections 2 and 5 are preferably against the valve connections 3 and 4 offset by 90 °.

Any amount of cold or hot water required by the induction device corresponds to a certain stroke position. The amounts of water flowing in and out at ports 2, 3, 4, 5 are for every stroke position the same.

8 claims

1 sheet of drawing with 1 figure

-6- 909881/0658

Claims (1)

-6 claims 1. Control valve for high-pressure air conditioning systems that operate according to the four-pipe system work with admixing control, characterized in that the upper part and the lower part of the valve body (1) through a coaxial inner bore (8) of the regulating cone (15) provided with lateral openings (e.g. 22 and 23) are. 2. Control valve according to claim 1, characterized in that the lateral openings of the inner bore (8) of the control cone (15) formed by intersecting bores (22 and 23) running perpendicular to the inner bore (8). 3. Control valve according to claim 1, characterized in that the lateral openings of the inner bore (8) of the control cone (15) can be formed by reducing the outer diameter of the regulating cone (15) in this area. 4. Control valve according to claim 1 to 3, characterized in that the valve cone (15) with profiles (16, 17, 18 and 19) is provided to achieve certain flow characteristics. 5. Control valve according to claim 1 to 4, characterized in that the length dimensions of the profiles and d he cylindrical guides of the cone on the one hand and the distances between the valve seats in the housing on the other hand are coordinated in such a way that that regardless of the valve position of the cold water connections (2 and 3) there is never an open passage to the hot water connections (4 and 5) is present. 6. Control valve according to claim 1 to 5, characterized in that that the length dimensions of the profiles "on the cone on the one hand and the distances between the valve seats on the housing on the other hand so each other are matched that during the upper half of the stroke 909881/0656 -7-BATH ORIGINAL DR-GC / Heg. 18th -7- free area on the sliding seat (10) remains constant and the sliding seat (9) remains closed as long as the lifting movement of the cone on the sliding seats (12 and 13) clears the free areas change; also that the sliding seat (H) remains closed and the free area on the sliding seat (13) remains constant as long as the free areas change due to the lifting movement of the cone on the sliding seats (10 and 11). 7 · Control valve according to claim 1 to 6, characterized in that the length dimensions of the profiles and cylindrical guides of the cone on the one hand and the distances between the valve seats in the housing on the other hand are coordinated in such a way that, ν en: -. Sliding seat (14) is open, the sliding seat (12) is also open and the sliding seats (9 and 11) are closed; corresponding, that when sliding seat (9) over the bores (22 and 23) open is, sliding seat (11) also open and the sliding seat (12 Tind H) are closed; further that from the sliding seats (9 and H) are never both open at the same time; also that of the sliding seats (11 and 12) never both at the same time are open and the sliding seats (10 and 13) are never both closed at the same time. 8 regular rent according to claims 1 to 7, characterized in that that the valve connections (2 and 5) are at 90 ° against the valve connections (3 and 4) are offset. August 19, 1966
G / Wt -8- 909881/0656