NO118057B - - Google Patents

Description

Device for valves with a closing part of compliant material.

The present invention relates to a

valve comprising a closure part made of

rubber or other compliant material i

shape of a sack, the free edge of which is sealed

attached to the valve body. A one-way valve off

this type is known, in which bag is

intended to be pressed against the wall of the channel containing the valve, using a

pressure element which is placed inside said

bag and which is attached to an operable screw-spindle. Valves constructed in this way

offers the great advantage that the impact mechanism does not come into contact with the fluid, so that there is no possibility of

that the components of the fluid are deposited in inaccessible places, and thus cause infection, e.g. in pipes that carry milk.

However, this known valve can

only used in single lines as a one-way valve.

The purpose of the present invention is now to provide a simple and more

reliable construction of this valve type,

which is also suitable for use as a

selector valve.

According to the invention, the above purpose is achieved by arranging a

valve of the above-mentioned type, characterized by the pressure element being rotatable

the axis of the closing part, so that the direction of

its transfer movement across its

axis can be selected, and by the devices at

against which said pressure element can be locked

such transverse movement, except in on

preselected turning positions, in which

said pressure element is opposite one of

said openings.

A construction in which the press

ment can only be operated in a pre-selected turning position is preferable. This precaution results in a valve of the type in question which, despite its great simplicity, is capable of closing various supply and/or drain openings. The preferred construction thus ensures that the closure takes place in the correct position at all times.

The valve according to the invention is particularly suitable for use as a two-way valve, in which there is almost always a continuous connection between two lines, while the third line is closed.

A special effect of the valve according to the invention is that deformation of the bag due to this being eccentrically pressed against at least one of the openings means that the passage of liquid between the other openings becomes larger.

A favorable embodiment of the valve according to the invention is obtained if the influence mechanism which extends into the bag is rotatably mounted in the valve housing, and has the pressure element movably mounted at the end. Said pressure element should then preferably be movable in a direction largely perpendicular to the axis of rotation of the impact mechanism. To ensure a correct seal, the pressing element is controlled during its movement by a part of the impact mechanism, which part also determines the turning position for the pressing element, and which is intended to be blocked in preselected turning positions.

According to the invention, the active movement of the pressing element is performed by relative rotation of an active shaft arranged centrally in the impact mechanism, which shaft is provided with at least one cam. Said central shaft is freed for rotation in relation to said impact mechanism by means of a blocking device in the positions in which said blocking device prevents rotation of the part of the impact mechanism which determines the turning position for the pressing element.

According to another advantageous embodiment according to the invention, the pressing element is connected to the part of the influence mechanism which determines the turning position of the pressing element by means of an intermediate piece, rotatably attached to said part, to which piece said pressing member is also rotatably attached, the two turning pins are largely parallel and the pressure element is intended to slide on said part of the impact mechanism. The pressing element will thereby carry out its effective movement without angular displacement, which is of the greatest importance for achieving correct closure.

In this embodiment, it is an advantage that the rotatable intermediate piece comprises a projection that fits into a depression in a flat part which has a certain inclination in relation to the axis of rotation of the central shaft, to which it is connected, which part is calculated on influencing the pressing element over said intermediate piece and its projection by relative rotation of said central shaft. In that embodiment, the optional blocking effect is obtained by the fact that the projection for the intermediate piece can only be removed from the depression in the inclined flat part by moving a part which, except in predetermined positions of the part, is secured by the effective mechanism that determines the turning position of the pressing element from such displacement.

When the valve according to the invention is used as a one-way valve in a single line, it can be designed so that there is no possibility for liquid to collect anywhere, which is of the greatest importance for lines that transport milk. This can be achieved by connecting the two largely aligned branches tangentially to the valve body.

Embodiments of the invention will be described in more detail below as examples with reference to the attached drawings. Fig. 1 is a section through an embodiment of a two-way valve comprising a rotatable intermediate piece, to which the pressure element is attached. Fig. 2 is a section through another embodiment of a two-way valve, in which the pressure element is affected by a cam. Fig. 3 and 4 show some details regarding said embodiments taken in section along the lines III—III and IV—IV respectively in fig. 2. Fig. 5 shows an application of the valve as a one-way valve in an unbranched line. Fig. 6 shows a few parts of the embodiment according to fig. 5 in their relative location. Fig. 7 is a section through further

a modification of a two-way valve, and

Fig. 8 and 9 show some details regarding said valve, taken in section along the lines VIII—VIII respectively. IX—IX in fig. 7.

The two-way valve according to fig. 1 comprises a rubber bag 2, whose edge 3 together with the flange 4 for a ring 5 of T-shaped cross-section is clamped between the upper edge of the valve housing 1 and a nut 6. In the ring a bowl-shaped part 7 is rotatably adapted, the edge 8 of the part 7 and the edge 9 of the threaded part 10 screwed into the part 7 enclosing the ring 5, so that the position of said parts in relation to each other and in relation to the valve housing is determined in the axial direction.

The underside of the cup-shaped part 7 has two parallel ribs 11, between which the intermediate piece 13 provided with a projection 14 is rotatably mounted on the shaft 12. The intermediate piece 13 likewise fits between two ribs 15 for the pressing element 16 with which ribs the intermediate piece 13 is rotatably connected by of the pin 17. Two springs 18 placed on either side of the rib pins 11 and 15 pull the pressing element towards the bowl-shaped part 7, the ribs 15 resting against and designed to slide on the ribs 11. The further connection is provided over the intermediate piece 13, and the pins 12 and 17.

The intermediate piece 13 is intended to revolve around the pin 12, so that the pin 17 for the pressing element will perform a swinging movement in the direction of the opening to be closed. The edges of the ribs 11 and 15 which are kept in contact with each other are designed so that during the pivoting movement of the pin 17 the pressing element 16 remains parallel to its original position.

In order to cause the pressing element to press the bag against and seal an opening, the intermediate piece 13 must be swung around the pin 12. To this end, the projection 14 is guided through the underside of the cup-shaped part 7 to be able to be pressed down by the inclined underside of the central part 19 , 20, which fits into the part 7 and into the screw 10, when said central part is turned 180° by means of the operating arm 21, in which case the projection 14 will finally come to rest under the straight surface 22 of the central part 19. In order to enable the central part 19 to be rotated in relation to the projection 14, this must first be removed from a recess 23 (shown with dashed lines) in the central part. For the aforementioned purpose, the operating arm 21 is provided with a vertical arm 25, intended for rotation about a pin 24 by means of which arm 25 and the spindle 26, the intermediate piece 13 can be rotated downwards about the pin 12 so that the projection 14 is released.

The spindle 26 is provided with a cross pin 27 which prevents the spindle from being pressed down, except when said cross pin 27 is located opposite a recess 28 in the upper edge of the ring 5. As soon as said cross pin enters said recess, the bowl-shaped part 7 is secured and thus the other parts of the impact and pressure mechanism against further rotation. When the spindle 26 has been pressed down sufficiently that the projection 14 has come out of engagement with the recess 23, the central part 19, 20 together with the arms 21 and 25 can be rotated further in relation to the other parts.

The depressions 28 are placed directly opposite the openings to be closed, so that the pressure element can only be affected if the mechanism is in the correct position. The arm 25 is turned away from the spindle 26 under the influence of the pressure element, but said arm is so wide that before the spindle 26 is completely released, the projection 14 is already under the inclined surface of the part 19. The spring 29 serves to keep the spindle 26 in contact with the intermediate piece 13 The force of this spring is less than the force of the springs 18. The projection 14 can be provided with an adjustment screw (not shown), by means of which the front side of said projection can be regulated for setting the pressure exerted by the pressure element against the bag.

In the embodiment according to fig. 2, the valve housing 1, the rubber bag 2 and the flange 3 correspond to the corresponding parts fig. 1, but the influence mechanism is somewhat different. The flange 3 is clamped between the flange 30 for the valve housing and the flange 31 for a ring 32, which ring is sealed by means of the nut 33, which engages with the threads on the flange 30 for the valve housing. The flange 31 is secured against rotation in relation to the valve housing by means of a pin 34. A sleeve 35 is rotatably adapted to the ring 32, which with a flange 36 rests against the ring 32, and is provided with screw threads at the lower end, on which threads are fitted with a nut 33, prevented from moving by a stop bolt 37. The nut 38 is screwed in so far that the ring 32 is enclosed axially between the nut 38 and the flange 36 without said ring 32 being clamped. At the lower end, the sleeve 35 is provided with two parallel planar sides (Fig. 3) with which sides the lower end slidably fits into a groove 39 in the pressing element 40, so that the angular position of the pressing element in relation to the sleeve is thereby determined, as the pressing element allows movement perpendicular to the axis of said sleeve to such an extent that the wall of the bag 2 is thereby pressed against the edge of an opening for a connecting branch. Said movement perpendicular to the axis of the sleeve 35 is achieved by means of a cam 43, fixed

by means of a screw 42 to the lower end

of the central axis 41. which extends through the sleeve 35.

Before the insertion of the shaft 41, said cam has been introduced from the side into a recess in the pressing element (fig. 4). The comb 43 has a sliding adaptation to the upper and lower walls of said recess and, if desired, with some clearance with the front and rear walls thereof, which latter wall may be a wall 40', especially fixed or welded to the pressing element during its manufacture. The central shaft, the lower end of which has a somewhat smaller diameter, lies with its collar 41' against a corresponding collar arranged for the sleeve 35. The thus mounted pressing element can only perform a reciprocating movement with respect to the sleeve in a fixed direction perpendicular to the axis of the sleeve. By turning the sleeve 35, said direction of movement can be set in relation to the opening to be closed.

In a recess in the flange 36 for the sleeve 35, there is arranged the locking member 45 which is rotatable around the pin 44 and which is intended for engagement with the recess 46 in the ring 32, whereby the sleeve is secured against rotation. The depressions 46 are placed in accordance with the position, in which the pressing element can bring the wall of the bag to close an opening. The locking member 45 can only be removed from said depressions when a depression 47 in the central shaft lies opposite such a depression 46, so that the member 45 can enter the depression 47 against the action of the leaf spring 48, the device being such that the pressing element 40 is then in full withdrawn position.

The locking device therefore prevents the central shaft 41 from turning relative to the sleeve 35, or in preselected positions the sleeve 35 prevents rotation relative to the housing 1. The operator of the device is therefore prevented from incorrect handling.

The central shaft can be provided with a handwheel or, as shown, an operating arm 49.

Fig. 5 schematically shows such a valve arranged in a single line. The two line-connecting branches 50 and 51 constitute tangential parts of the valve housing, the line formed by the connecting branches 50 and 51 being placed under the valve housing, whose axis is horizontal. The rubber bag 2 can be brought to close the opening for the connection branch 50 and 51 respectively when the impact mechanism (not shown in this figure) has been brought into the relative pre-selected position corresponding to the lines 52 and 53 respectively which are indicated to show the directions of movement of the pressure element. During the return of the pressure element, there is no place where the fluid can get stuck. In the open position, the valve can be cleaned, as water supplied e.g. from the left will partially be driven up around the bag 2 by the edge 54, whereby the entire space in the valve is cleaned.

In this tangential connection for the two manifolds 50 and 51 for the valve housing, the branches are made flat in the direction of the housing. However, at least the original cross-sectional area of the branches must be maintained. This is also shown schematically in the arrangement of the bag and the valve housing in fig. 6.

In the embodiment according to fig. 7 denotes 1 the valve housing, 2 the rubber bag and 3 its flange. These parts are identical to those shown in the embodiment according to fig. 1 and 2, apart from the fact that the main shape is cylindrical and not, as before, conical. The flange 3 is clamped between the upper edge 60 for the valve housing 1 and the flange 61 for a ring 62, which ring is tightened by the nut 63, which engages with the threads on the flange 60 for the valve housing. The flange 61 is prevented from turning relative to the valve housing by a bolt 64. A sleeve 65 rotatably fits in the ring 62, which sleeve rests against a flange 66 on the ring 62 and is provided with screw threads near the lower end, on which is screwed a nut 68 which is prevented from moving by a bolt 67, so far that the ring 62 is enclosed axially between said nut 68 and the flange 66, without the ring 62 being clamped.

At the lower end of the sleeve 65 provided with two parallel flat sides (fig. 8), said lower end is slidably fitted into a groove 69 in the pressing element 70, so that the pressing element is thereby prevented from rotating in relation to the sleeve and can only be moved by means of a comb to be described below, perpendicular to the axis of said sleeve to such an extent that the wall of the bag 2 is pressed against the edge of an opening for a connecting branch.

The movement of the pressing element 70 perpendicular to the axis of the sleeve is achieved by means of a cam 73, which by means of a screw 72 is attached to the lower end of the central shaft 71 which extends through the sleeve 65. Before the introduction of the shaft 71 and the movement of sleeve 70', said comb has been introduced from the side into a recess in the pressing element. The comb 73 has sliding engagement with the upper and lower walls of said recess and, if desired, with some clearance with its front and back sides, the latter being constituted by the sleeve 70'.

As a result of the fact that the flattened side of the sleeve 65 fits in the groove 69 and that the cam 73 fits in the recess in the pressing element 70, this can only provide a reciprocating movement with respect to the sleeve 65 in a determined direction perpendicular to said axis of the sleeve 65. By turning the sleeve 65, said turning movement can be set in relation to the opening to be closed.

In a depression in the flange 66 for the sleeve 65, there is arranged a locking device 75 which is rotatably mounted on a pin 74 and which engages in one of the depressions 76 in the ring 62, whereby the sleeve 65 is prevented from rotating. The arrangement of said recesses 76 corresponds to the positions at which the pressing element can bring the wall of the bag to close an opening. The locking member 75 can only be released from said recesses when a recess 77 in the central shaft 71 lies directly opposite a recess, so that the cam 78 for the member 75 can enter such a recess 77, the device being such that the pressing element 70 is then in full withdrawn position. Locking device which can thus, independent of the effect of a spring, slide into a recess 76, either secures the central shaft 71 from turning in relation to the sleeve 65 or in pre-selected positions secures the sleeve from turning in relation to the housing 1. During operation, incorrect handling is thus prevented .

The central shaft can be turned by means of an impact mechanism 79 which, together with the cam 73, simultaneously holds the shaft 71 in place in the axial direction in relation to the sleeve 65.

Claims (7)

1. Valve for regulating a liquid flow, comprising a housing with an enclosing wall, provided with inlet and outlet openings and comprising inside this housing a closing part, made of elastic material, such as e.g. rubber, in the form of a bag, having the free edge sealingly attached to the wall of the housing and providing free passage between itself and the wall, a pressing element, operatively inside this bag to press its wall by a transfer movement across its axis can is selected, and by an-one of said openings, characterized in that the pressing element (16, 40, 70) is rotatable about the axis of the closing part (2), so that the direction of its transfer movement across its axis can be selected, and by the devices by in which said pressing element can be locked against such transverse movement, except in pre-selected turning positions, in which said pressing element lies opposite one of said openings. 2. Valve as stated in claim 1, characterized in that an impact mechanism (7, 11, 13, 14, 19, 20, 21, 35, 41, 43, 49, 65, 71, 73, 79) extends into the closing part (2) and is rotatable about the axis of the closing part, the end of said influencing mechanism carrying the pressing element (16, 40, 70) which is movable with respect to the influencing mechanism in a direction transverse to said axis, when brought into a pre-set pivoting position by of said mechanism. 3. Valve as stated in claim 2, characterized in that the pressure element (16; 40; 70) during transverse movement in relation to the impact mechanism (7, 11, 13, 14, 19, 20, 21; 35, 41, 43, 49; 65, 71, 73, 79) is controlled by a part (7, 11; 35; 65) of said mechanism, which is designed to be locked in preselected deri positions. 4. Valve as stated in claims 2 and 3, characterized in that the transverse movement of the pressure element (16; 40; 70) is intended to be affected by the relative rotation of an influence shaft (20; 41; 71) which is centrally arranged in the impact mechanism (7, 11, 13, 14, 19, 20, 21; 35, 41, 43, 49; 65, 71, 73, 79) and which can only be released for rotation in relation to said mechanism by means of a locking device (14, 23, 26, 27, 28; 45, 47, 46; 78, 77, 75, 76) in the positions in which said locking device secures against rotation of the part (7, 11; 35; 65) for the impact mechanism , which controls the pressing element during its relative transverse movement. 5. Valve as set forth in claim 4, characterized in that its centrally arranged actuating shaft (41; 71) is provided with a cam (43; 73) to cause the pressing element (40; 70) to perform a movement transverse to its axis. 6. Valve as stated in claim 4, characterized in that the pressure element (16) is rotatable (17) supported on an intermediate piece (13), which itself is rotatable (12) connected to the part (7, 11) of the impact mechanism that is calculated to control the pressing element (16) during its transverse movement, the central influence axis (20) of the influence mechanism (7, 11, 13, 19, 20, 21) being provided with a planar end face, which is inclined in relation to the axis of rotation, and the intermediate piece (13) cooperates with said end surface in such a way that it is rotated about the connecting pin (12) by relative rotation of the central influence shaft (20). 7. Valve as stated in some of the preceding claims, characterized by two connecting branches (50, 51), which are tangentially connected to the valve housing.