NL194121C - Tap head with a housing with coupling means for coupling it to a vessel. - Google Patents

Description

1 194121

Tap head with a housing with coupling means for coupling it to a vessel

The present invention relates to a tap head with a housing with coupling means for coupling it to a vessel, such as for beer under gas pressure and for opening downwardly against resilience in an annular valve body of a valve of this vessel, which tap head is provided with a gas inlet into the housing, and of a tubular slide, which is slidable by a handle in the housing between a lower position to open the valve in a vessel and allow liquid to flow out of it through the slide, and an upper starting position, an elastomeric sealing ring which is slidable coaxially with the carriage is provided in a housing recess at the bottom of the tapping head and which serves to form a seal between the tapping head and a contact surface of the annular valve body of a vessel valve when coupling, further comprising means for pressing the sealing ring against such a contact surface before the carriage by axially downwardly move to the bottom position, the valve and gas inlet open, and the carriage at the lower end is equipped with a collar such that this collar engages the sealing ring from below to lift it off the contact surface when the carriage is from the 15 lower position is moved to the starting position.

Such a tap head is known from British patent application GB-A-2,185,469. Here, the means for pressing the sealing ring against the abutment surface at a barrel valve are formed by a number of narrow upwardly projecting pins on the sealing ring, which pins are elastically pressed together against the top wall of the recess when the slide is raised to its top position drawn. In practice, however, it has been found that pins do not function enough to push the sealing ring into the recess from the top position due to the necessarily firm fit. This allows liquid to splash unacceptably from the opening between the tapping head and the valve before the carriage has pressed this ring onto the contact surface with an upper collar engaging the top of the sealing ring. A possible solution for this drawback can be to increase the dimensions of the pins and thus the resilience thereof. However, this would simultaneously increase the force required to lift the sealing ring free from the valve. In addition, the load on the pins on parts of the valve is constantly present during the application of the tap head to the valve. During this application, the tapping head is moved transversely to the valve, the considerable friction which then occurs between the sealing ring and the contact surface of the valve having to be overcome. This makes the application of this known tap head to the valve more difficult.

The object of the invention is to provide a tapping valve of the type mentioned in the opening paragraph, which, after activation of the tapping head, is guaranteed to remain closed until the carriage succeeds in opening the valve and the gas inlet, and wherein the tapping head is moreover easily can be fitted and removed from the valve without applying excessive force.

This object is achieved according to the invention when the tap head is characterized in that the means for pressing the sealing ring against the contact surface of the valve are formed by a second collar on the slide spaced above the first collar, which second collar has a circumferential diameter slightly larger than the smallest inner diameter of the sealing ring, such that when the slide is moved from its starting position to its lower position, the slide engages the second collar on the sealing ring where it has its smallest inner diameter, takes the sealing ring down to press it against the contact surface of a valve body of a barrel valve, before the slide opens the valve and the gas inlet, and from the slide moving further down to its bottom position the second collar through the sealing ring can move, because the sealing ring can be compressed at least where it has its smallest diameter by the second valve ag.

45 The sliding function of closing and opening the gas inlet and valve, respectively, means that the slide makes a relatively long stroke between the upper and lower position. The sealing ring, on the other hand, should only be lifted slightly to remove it from the valve before removal. The second outwardly facing collar of the carriage will therefore be pulled up and down through the sealing ring during the movements of the carriage between its extreme positions, and in order to achieve a correct functioning in this connection 50 this collar preferably has the shape in cross section of a triangle with the top protruding outwards, so that the collar can easily pass through the sealing ring.

A particularly advantageous embodiment is obtained if, as is known, the sealing ring is provided with a circle of inwardly directed noses and, moreover, the carriage of a third outwardly 55 facing collar, which is arranged at a distance below the second collar of the carriage correspondingly. with the height of the noses, and that the diameter of the slide between the two collars has a diameter corresponding to the diametrical distance between the noses. When the dispensing head is in its 194121 2 free, unassembled position, the seals of the sealing ring tend to be caught in the space between the second and third collars of the carriage by activating the carriage with the handle. The sealing ring thereby acts as a piston pump in the recess if the handle is moved up and down repeatedly, and this function can be used advantageously to clean the internal parts of the dispensing head, which may be partially selected during this operation can be immersed in a suitable cleaning fluid.

In addition, to ensure effective and lasting sealing during use, an annular disc may be provided in the housing recess above the sealing ring, and a breast spaced above the second collar may be mounted on the carriage and may cooperate with the disc to pass through the disc to keep the sealing ring axially compressed when the carriage is in its lowest position.

In order to avoid the drawbacks associated with the circumferential grooves provided in the underside of the sealing ring at the known tapping head, the sealing ring may have a lower cross-section triangular rib with a downward pointing tip protruding further down than the remainder of the underside of the sealing ring in the unloaded state. In use, this ring rib 15 is in a highly compressed state, and it has been discovered that this rib is able to form a very effective seal even in cases where the abutment at the barrel valve is very uneven or damaged by scratches extending transversely .

During the removal operation, the compressed ring rib initially contributes to the force that serves to lift the sealing ring free from the valve. However, if the bend of the sealing ring has reached the area on the annular rib and has begun to lift it, the annular rib will become increasingly unstable due to its triangular cross section and at some point it will no longer be able to withstand the load of the trapped compressed gas . The ring rib thereby collapses and allows the trapped pressurized gas to blow under the rib. The pressure on the sealing ring then completely disappears and it can now be lifted freely. At no time during this operation has it been necessary to subject the sealing ring to an upwardly directed force, which corresponds to the relatively large downwardly directed force of the total compressed gas load on the sealing ring.

In addition, in order to ensure effective sealing of the lower ring rib, additionally even against an uneven surface on the valve, shoulders can advantageously be arranged in a circle tangentially spaced on the top of the sealing ring directly above the ring rib at the bottom, which shoulders protrude above the rest of the top of the sealing ring. If the annular disc in the housing opening for opening the valve is pushed down to the sealing ring through the chest on the carriage, the disc exerts a downward force on the sealing ring, which is transferred significantly through the shoulders to the ring rib, which is pressed into the surface of the valve with certainty in all scratches and irregularities.

In an efficient embodiment of the tapping head, the sealing ring near the top circumferentially may be equipped with a ring lip which contacts the inner wall of the housing recess, immediately sealing the space above the sealing ring as soon as the gas inlet is opened.

The invention will be further explained by the following description of an embodiment, which serves only as an example, with reference to the drawings, in which: figure 1 is a partial cross-sectional view of a tapping head with coupling means according to the invention, which tap head is shown in a closed position in the left half and in an open position in the right half; figure 2 shows a sealing ring for the coupling means according to figure 1; Figure 3 is a top view of the sealing ring; and Figure 4 is a bottom view of the sealing ring.

Figure 1 shows a tap head 1 equipped with coupling means and a valve 2. The valve 2, of which only the upper part is shown, is screw-threaded to a connecting piece 50 3, which is welded upwards to a container 4, of which only part is shown. The valve is provided with an axially slidable annular gasket 5 forming the valve body, which is engaged by the upwardly directed force of a compression spring 6. A delivery pipe 7 extends downwards into the liquid, for example beer, which is to be tapped.

The tapping head 1 comprises a housing 8, a tubular slide 9, which is slidable up and down inside the housing 55, as well as a handle 10, which serves to slide the slide. The handle is pivotally mounted about pivot pins 11 and can pivot between an upper position shown in dotted lines and a bottom position shown in solid lines. The tapping head is further provided with a 3 194121 connecting piece 12, which serves to connect the tapping head to a pressure gas source (not shown), for example COa in a bottle or cartridge. The tubular slide 9 has an axially extending channel 13 through which the liquid to be tapped is passed to the point of consumption (not shown).

The valve has a flange 14 at the top, and the tapping head has an inwardly directed rim 15, 5 which engages firmly under the flange 14 when the tapping head is coupled to the valve. The inwardly directed rim 15 extends only semi-circularly along the lower circumference of the tapping head, which can be moved transversely across the flange of the valve for the coupling. The seal between the tap head and the valve is provided with a sealing ring 16, which is axially slidably arranged in a recess 17 in the housing 8.

As shown in the left part of Figure 1, the valve 2 is closed when the slide 9 is in the top position, and as shown in the right part of Figure 1, the valve 2 is opened when the slide is in the upper position. lower position, where it has pressed the gasket 5 down so that the liquid can be discharged to the point of consumption via the delivery pipe 7, a ring of openings 18 therein and the channel 13 in the carriage. At the same time, the carriage has opened the gas inlet 12.

Figures 2, 3 and 4 show the sealing ring 16 on an enlarged scale. The sealing ring is made of an elastomeric material, which may be, for example, rubber of a suitable hardness. As shown, the underside of the sealing ring is provided with a relatively large lower, annular rib 19 with a triangular profile in cross section. The rib 19 is spaced from the outer periphery of the sealing ring. Furthermore, two smaller annular ribs 20 are arranged between the sealing ring and the rib 19, which also have a triangular profile in cross section. A labyrinth seal is provided along its actual circumference, consisting of three halves of an O-ring, and a lip 22 is provided above this labyrinth seal, which lip serves to provide a seal against the inside of the recess 17 once the gas inlet is opened. A crown of shoulders 23 separated by spaces 24 is provided on the top of the sealing ring. A ring of inwardly facing noses 25, which noses 25 are separated by vertical openings 26, is disposed along the inside of the sealing ring. Furthermore, an annular continuous surface 27 is provided at the bottom of the inner side of the sealing ring.

The carriage 9 is equipped at the bottom with a first outwardly facing collar 28 with a top surface corresponding to the annular continuous surface 27 at the bottom of the sealing ring 16. A second outwardly facing collar 29 is spaced above the first collar 28, which distance corresponds to the height of the sealing ring on the inside. The second collar 29 has a triangular profile in cross section with a top which has a slightly larger diameter than the inner diameter of the sealing ring determined by the noses 25. Additionally, a third outwardly facing collar 30 is provided at a distance below the second collar 29, which corresponds to the height of the noses 25.

An annular disc 31, which has a downwardly directed rim 32 with the same diameter as the noses 25 of the sealing ring and with a ring of openings 33 therethrough, is arranged in the recess 17 above the sealing ring 16. The slide is additionally provided with a chest 34 in the form of 40, for example a ring. The breast 34 has a larger diameter than the diameter of the inside of the annular disc 31.

For the coupling operation, the tapping head is moved transversely across the flange 14 of the valve 2 and is then held thereon by the inwardly directed rim 15 at the bottom of the housing 8. During this operation, the handle 10 is pulled to its uppermost position and the carriage 9 45 is correspondingly present in its upper position, where it has pulled the sealing ring 16 slightly into the recess 17 of the housing with the first collar 28. The tap head is connected to a gas source (not shown) and a consumption site (not shown), respectively.

When the carriage 9 is moved down by the handle 10, the carriage with its second outward facing collar 29 initially entrains the sealing ring 16 and causes it to engage the valve flange 14 even before the carriage enters the gas inlet and opened the valve.

As a result, liquid cannot accidentally splash out of the container when it is opened for the first time, for example.

During the further downward movement, the second collar 29 passes through the opening of the sealing ring 16 because of its triangular shape, and the slide can therefore proceed to the lower 55 position, shown in the right half of Figure 1, in which the valve 2 and the gas inlet 12 are open. In this state, the chest 34 on the carriage has pressed the annular disc 31 into the recess 17 downwardly against the sealing ring so that the downwardly facing edge 32 of the disc with a predetermined

Claims (7)

194121 4 force rests on the shoulders 23 of the sealing ring, which is compressed to a significant degree through the shoulders, held by the lower annular rib 19, thereby effectively sealing even an irregular surface on the flange 14. The lip 22 of the sealing ring simultaneously ensures that the space above the sealing ring is closed from the moment the gas pressure for the first 5 is admitted. The labyrinth seal consisting of the half O-rings 21 ensures the durability of the seal as it engages the inside of the recess and at the same time supports the sealing ring against the radial pressure of the gas. The coupling device can be used until the container has been laid or needs to be replaced for another reason. The valve and the gas inlet are then closed by pulling the handle 10 upward to its upper position, the carriage 9 moving upward simultaneously. During this movement, the carriage engages the annular flat surface 27 on the bottom of the sealing ring by its first upwardly facing collar 28, and the sealing ring is therefore engaged by an upwardly directed force, which attempts to lift the sealing ring apart from valve 2 against the pressure of the gas trapped in the cavity above the sealing ring. The sealing ring hereby bends at the extreme end, seen in cross section, while the extreme end is still pressed down against the valve by the gas pressure. Initially, the resilience of the highly compressed large, lower rib 19 acts in the same direction as the lifting force of the carriage, which is thereby reduced accordingly. When viewed in cross-section, the bend of the ring has reached the area at the lower rib 19, it is gradually lifted to such a degree that due to its triangular profile, it no longer has the necessary strength and stability to withstand the pressure of the trapped compressed gas. The lower rib 19 thereby releases and allows the gas to escape to the atmosphere. The sealing ring is then completely relieved and can be lifted freely. The structure of the sealing ring means that at no time during the entire lifting operation, it has been necessary to use the lifting force, which is exactly the same as the force with which it is trapped. pressure gas engages the sealing ring. 25 1. Tap head with a housing with coupling means for coupling it to a barrel, such as for beer under gas pressure and for opening an annular valve body of a valve of this barrel downwards against resilience, said tap head being provided with a gas inlet in the housing , and a tubular slide, which is slidable by a handle in the housing between a bottom position to open the valve in a vessel and allow liquid to flow out of it through the slide, and an upper home position, with an elastomeric sealing ring coaxially slidably mounted in a housing recess at the bottom of the tapping head, which serves to form a seal between the tapping head and a contact surface of the annular valve body of a vessel valve when coupling, further comprising means for pressing the sealing ring against such a contact surface before the slide, by moving it axially downwards to the bottom position, the valve and the gas inlet opens, and the slide at the bottom end is equipped with a collar such that this collar engages the sealing ring from below to lift it off the contact surface when the slide is moved from the bottom position to the home position characterized in that the means for pressing the sealing ring (16) against the abutting face of the valve 92) is formed by a second collar 929) on the carriage (9) spaced above the first collar (28) second collar (29) has a circumferential diameter slightly larger than the smallest inner diameter of the sealing ring 916) such that, when the slide 45 (9) is moved from its initial position to its bottom position, the slide (9) engages from the second collar (29) on the sealing ring (16) where it has its smallest inner diameter, take the sealing ring 916) downwards to press it against the contact surface of a valve body of a barrel valve, before the slide (9) k flap (2) and the gas inlet (12) opens, and the second collar 929) of the carriage (9) can move through the sealing ring (16) as it moves further down to its lower position, because the sealing ring (16) at least where it has its smallest diameter is collapsible by the second collar (29). Tap head according to claim 1, characterized in that the second collar (29) on the slide, in cross section, is in the shape of a triangle with the apex pointing outwards. Tap head according to claim 1 or 2, wherein the sealing ring (16) is provided with a circle of inwardly directed noses (25), characterized in that the carriage (9) is provided with a third outwardly directed collar (30) which is arranged at a distance below the second collar 929) corresponding to the height of the noses (25) and that the diameter of the carriage (9) between the second and third collar (29, 30) has a size 194 194 corresponds to the diametrical distance between the noses. Tap head according to claim 1 or 2, characterized in that an annular disc (31) is arranged in the housing recess (17) above the sealing ring (16), and a breast is spaced from the second collar (29) on the carriage. (9) is arranged and can cooperate with the disk (31) to keep the sealing ring 916) 5 axially compressed via the disk (31) when the carriage (9) is in its lowest position. Tap head according to one or more of claims 1 to 4, characterized in that the sealing ring (16) has a lower cross-section triangular rib (19) with a downwardly pointing apex, which protrudes further down than the rest of the underside of the sealing ring (16) in the unloaded state. Tap head according to one or more of claim 5, characterized in that tangentially spaced in a circle, shoulders (23) are arranged on the top of the sealing ring (16), directly above the ring rib (19) at the bottom, which shoulders (23) protrude above the rest of the top of the sealing ring (16). Tap head according to one or more of claims 1 to 6, characterized in that the sealing ring (16) is provided near the upper circumferential side with a ring lip (22) touching the inner wall of the housing recess (17) . Hereby 3 sheets drawing