AU599435B2

AU599435B2 - Liquid dispensing system

Info

Publication number: AU599435B2
Application number: AU81266/87A
Authority: AU
Inventors: Gerrit Klaas Bunschoten; Lambertus Gerardus Petrus Van Der Heyden; Wilhelmus Klaas Der Kinderen
Original assignee: Unilever PLC
Current assignee: Unilever PLC
Priority date: 1986-11-19
Filing date: 1987-11-16
Publication date: 1990-07-19
Anticipated expiration: 2007-11-16
Also published as: DE3774672D1; NO874805L; GB8627598D0; NZ222541A; NO169884C; AU8126687A; EP0268451A3; EP0268451A2; ZA878632B; NO874805D0; NO169884B; EP0268451B1; ES2027303T3

Description

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AUSTRALIA

PATENTS ACT 1952 COMPLETE SPECIFICATION 599435 Form j 0

(ORIGINAL)

FOR OFFICE USE Short Title: Int. Cl: Application Number: Lodged: Complete Specification-Lodged: Accepted: Lapsed: Published: This docurrent contains the amendments made under Section 49 and is correct for printing.

q a 00o o oo.

0 Priority: Related Art: 0 Qo TO BE COMPLETED BY APPLICANT Name of Applicant: Address of Applicant: UNILEVER PLC UNILEVER HOUSE

BLACKFRIARS

LONDON EC4

ENGLAND

Actual Inventor: 1 Address for Service: CLEMENT HACK CO., 601 St. Kilda Road, Melbourne, Victoria 3004, Australia.

Complete Specification for the invention entitled: LIQUID DISPENSING SYSTEM The following statement is a full description of this invention including the best method of performing it known to me:- :*j

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A11A HED I j LIQUID DISPENSING SYSTEM The present invention relates to liquid dispensing systems, particularly for dispensing liquid detergent products, although not necessarily restricted to this.

Patent specification GB 2,147,881 A discloses a modular liquid dispensing system including a pump and control components. This system 0 o o is used for controlling the dosing of liquid detergent products delivered 0 00 to industrial or semi-industrial cleaning equipment. Such a system can o 10 be supplied with liquid detergent from a simple reservoir such as a 0 0 0 0 collapsable plastics bottle. This has a number of disadvantages, as will be elaborated hereinbelow, and furthermore, it would be most desirable 0 00 to incorporate in such a modular system, a modular liquid dispensing 0 0 0 facility, preferably containing a suitably concentrated product.

1 o 0 15 We have now devised such a modular dispensing facility, which O0 provides a plurality of inventive features, overcoming several technical 0 problems. One problem is encountered when it is desired to feed a I oo modular system from a reservoir containing a liquid chlorine-based bleach, or a detergent product including same. The inherently noxious nature of such products means that it is highly desirable that in storage, or when temporarily disconnected from the system, their containers should be firmly sealed to prevent accidental spillage or coming into contact with the operator. Whilst this could be overcome by provision of a conventional lid, for example screw-threaded, inconvenience and risk would arise from the need to remove and replace such a lid, and in a:0u DECLARED at London. Englandhis 4th day of November Sdy19 87 *of Kampweg 17, 3981 Ex Bunnik, The Netherlands.

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connecting to the system.

A further problem arises becauie of the inevitable heat and light induced degradation of the products, to release oxygen. The oxygen gas thus released increases the pressure above the liquid surface, which could risk rupturing the container, or result in excess internal pressures which can have hazardous effects when the container is coupled to the rest of the system. A similar problem can be encountered with the other noxious agents giving rise to gassing or development of volatile components.

lTo overcome the above mentioned problem of accidental spillage, and provide a liquid container which is convenient to use, this invention provides a container coupling system comprising a container for

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liquid and a liquid duct for connection to the container, the container comprising a valve coupling providing entrance to the container for S 15 transfer of liquid between container and duct, the valve coupling closing said container and preventing spillage therefrom while said container is gas oriented with the valve coupling below the level of liquid in said container, the duct and valve coupling having co-operating configurations enabling connection together and disconnection of the duct and valve coupling, without spillage of liquid, while the container is so oriented with the valve coupling below the level of liquid in the container.

Preferably the duct is provided with opening means to open the valve coupling, e.g. by unseating a se to gassaling member thereof, after the duct and valve coupling come into sealing engagement upon connection.

Preferably the opening means project beyond a terminal portion 3.

of the duct, and sealing means are provided to seal between the valve coupling and the terminal portion of the duct.

Generally for connection, disconnection and use, the container will be orie,.ed with the valve coupling downmost.

While the invention is particularly intended for applications in which liquid is pumped out from the container through the duct, it could be employed in analogous systems where liquid is pumped via a duct into a container.

1t To overcome the above mentioned problem of excess pressure in the container, the valve coupling is preferably constructed such that when the container is not connected to the duct, the valve coupling substantially prevents escape of liquid during storage, whilst permitting Cescape to atmosphere of excess pressure within the container.

Preferably the valve coupling comprises a sealing member, 15 which may be a sealing washer, resiliently biased against a valve seat, 0 0which may be a lip. Such a washer may be provided with a suitably o 0. dimensioned slit which allows vapours of gases at excess pressure to 00000o escape, yet prevents passage of liquid when the container is inverted ready to be coupled to the duct, by virtue of the weight of the liquid contents.

Normally, with such a closed system, it would be necessary to have a collapsable container in order to be able to extract liquid.

However, it would be desirable to use a rigid container because with collapsable plastics bottles) of the conventional kind, as the bottle collapses, irregular wrinkles are formed in the walls, which may trap part of the liquid product, resulting in unacceptable wastage.

To prevent such wastage, according to a second aspect of the invention, we provide a container coupling system comprising a substantially rigid container for liquids and a duct, the container being provided with a valve coupling for connecting the container to the duct, the duct being provided with opening means configured to co-operate o 00 at with the valve coupling to permit flow of liquid from the container into the duct, whilst admitting air to displace said liquid.

cetrl Preferably, the opening means comprises a pillar having a central channel, one end of which is open to atmosphere. The other end o ofC of the channel is connected to one or more openings in the pillar and is provided with valve means, serving to admit air to the container, whilst

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a preventing travel of liquid via the reverse path. Most preferably, the valve means comprises one or more slits in a resilient section of the pillar, terminating said channel.

at Conveniently, the duct is provided with a chamber having a a level sensor to indicate when the liquid in the container is substantially exhautsted.

A problem generally associated with liquid containers which are sealed by valves comprising spring-loaded washers, is that the operation can be slow or the seating of the washer imperfect, so that a finite amount of liquid can escape when not intended.

In the context of the present application, in order to overcome the latter type of disadvantage, and according to a third aspect of the present invention, we provide a container coupling system comprising a container for liquids and a duct, the container being provided with a valve coupling for connecting the container to the duct, the duct being provided with opening means configured to co-operate with the coupling to permit flow of liquid from the container into the duct, the opening means and the valve coupling also being configured to co-operate with one another to assist closing of the valve coupling as the duct is 4 C' disconnected therefrom.

In a preferred form, this operation is provided for by a 4 projection engaging into an undercut recess. In particular a projection 04(4 10 from the opening means may be a suitably located nipple on the opening o r means, the nipple having a flange for locking when the nipple co-operates with a corresponding recess provided in the sealing member, washer) of the valve coupling. When the container is pulled away from the duct, the nipple is retained in the recess, urging the sealing member more 15 definitely against its seat.

It is also preferred that the duct has a protective shield resiliently biased to a position covering an entrance to the duct, and forced to a position exposing the entrance to the duct when the duct and valve coupling are connected, but when they are disconnected helping to prevent any residual liquid from coming into contact with the user.

As an alternative to providing for escape of excess pressure through the valve coupling, or admission of air through the valve coupling, or both, the container may be provided with a gas flow passageway closed by a porous membrane. The membrane may be made of microporous polytetrafluoroethylene (PTFE) with a pore size which will L77...

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not allow liquid to pass, yet which will allow air in, or excess gas out, according to the pore size employed. Such a gas passage could be separate from the valve coupling, for instance positioned alongside it.

The present invention will now be better explained by the following exemplary embodiment and with reference to the accompanying drawings in which:- 'Figure 1 shows a cross section through a liquid filled container 'illustrating the invention; Figure 2 shows an exploded view of the container of Figure 1, o" 10 at rest in storage position; o0 4t S' Figure 3 shows the container of Figures 1 and 2 positioned prior to insertion in a receiving module, showing in fragmentary view, o and containing a duct; o 4 4 C Figure 4 shows a cross sectional view of the container, 15 receiving module and duct of Figure 3, when coupled; Figure 5 shows a part cross sectional view of analternative S' form of construction of duct, having a sliding protective shield, with the 04 .9 f container mouth just prior to coupling or just after coupling; Figure 6 shows a cross section through part of a second form of liquid filled container; Figure 7 is a detailed view of the sealing washer of the container of Figure 6; Figure 8 shows a part cross section through the same container, fitted to a receiving module and duct.

Referring to Figures 1 and 2, a container 1, having a plastics

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3' L I L ilill ii. 7.

wall 3, is filled with a liquid detergent composition 5. The container wall terminates in neck 7 to which is fitted a valve coupling 9. The valve coupling comprises a collar 11 fitted to the container neck by a screw thread arrangement. A bayonet or irremovable snap-fit arrangement is also possible. The valve coupling further comprises a resilient washer 13 mounted on a compression spring 15 which urges said washer against a lip 17. The compression spring is held in place by 000 basket 19. The action of the spring urging the washer against the lip r,€ 0 results in sealing of the opening 21 so that substantially none of the 00 10 liquid contents can escape, even if the container is inverted. However, 0 0 t 0" the washer is provided with a slit 23 which is dimensioned so as to open at 0.10-0.12 bar excess pressure within the container. Thus, where the 00 0 0 0 liquid detergent composition contains volatile components giving rise to S0 gassing, for example a chlorine bleach, any gas at excess pressure above o 15 the liquid can degas i.e. escape to atmosphere. Preferably, an annular 00 sealing washer 25 is also provided to ensure good sealing of the container o cc 0 against the collar.

O~if 000 a0 Referring now to Figure 3, in use, the container and valve 0 0 coupling are positioned mouth downwards, by virtue of the container being manipulated with handle 27. The container is inserted in receiving module 29 having a lid 31 which is closed by means of a hinge 33.

Within the receiving module is positioned a valve opening means having a head 35, at the top of a hollow pillar 37. An internal channel 38 within the pillar 37 leads from an air inlet, as seen in Figure 4. A nipple 39 is situated on the top of the valve opening means.

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A probe 41 to detect presence of a container 1 and connected to a reset switch is located inside the receiving module to trigger pumping control equipment (not shown) when an exhausted container is removed and a new one inserted.

The valve opening means is positioned at the mouth of a duct 43 provided with an O-ring for ensuring a good seal with the mouth of 0 00 the container/valve coupling. As will be explained in more detail below, 00oo oa 0 0 o 0 the duct mouth is connected via chamber 45 containing a float level 0 C 0 0, sensor (provided with output wire 49) to an outlet duct connector 51. By 10 means of this connector, the container and duct may be coupled to 0 00f 0 0 0 0 0 modular pumping and control equipment of the kind described in the aforementioned UK patent specification.

0t As shown in Figure 4, to connect the container to the duct, O the valve coupling is pushed over the valve opening means, a seal being 15 achieved by means of 0-ring 44. The nipple 39 locks within a recess 53 within the resilient washer, forcing it away from the lip 17 against the S bias of the compression spring. This allows free passage of liquid from 4t( inside the container, into the duct. The head 35 is dimensioned to seal the opening 21 until the O-ring 44 enters this opening.

Although the container is rigid, liquid is able to flow out of it j readily because air is allowed to enter via channel 37 from air inlet The valve opening means is provided with a plurality of valved openings 57 which allow the air to escape into the liquid, through the basket.

The valve openings 57 are covered with a sheath 58 of a suitable resilient material which provides the necessary valve action thus allowing LiLI~I~I -LLI I~I~U i_ 1 i :i ~I ~i the air to enter without liquid escaping through the air channel. It will be appreciated that tnis obviates the necessity for having a collapsable container.

The liquid leaving the container and entering the duct first enters an ante-chamber 59 before the chamber 45 which contains the float level sensor 47, which is provided with an appropriate electrical o transducer of any kind which will be well known to those skilled in the o o 0 o0tc art. The output of the transducer is conducted by means of wire 49 0 0 which is lead through opening 61 in the chamber, a water-tight seal o0 10 being effected by means of rubber grommet 63. The float sensor 0 0 S00°° chamber leads on to channel 65 which is joined to the duct outlet connector 51 shown in Figure 3. The floor of the channel is raised o0 o 0 0 o 0 above that of the ante-chamber and float chamber so that a level 0 0 o 0 establishes itself within the float chamber. When the contents of the 0 15 container are substantially exhausted, the level in the float chamber will 0 0o 00o fall, and will be detected by the sensor, the output of which can be used S0°°o to trigger an alarm and/or initiate switching off of ancillary equipment o 0 oo0o0 as necessary.

0 0 It will be appreciated that when the container I is removed from the duct 43, because the nipple 39 of the valve opening means is located within the recess 53 in the washer of the valve coupling, at first the washer will be pulled back towards the lip 17, assisted by the pressure of the spring 15. Only when the washer has come to rest completely against the lip 17 does additional force break the nipple 39 free of the recess 53. In this way, accidental spillage of residual liquid I is avoided.

As an additional safety measure, especially when the liquid contents of the container are of a noxious nature, as shown in Figure the valve opening means can be provided with a cylindrical shield 67 fixed to the upper end of compression spring 71, the lower end of this spring being located in annular groove 73. Connection or disconnection o a of the container and its associated valve coupling (in the direction of 0 0 t o o f double-headed arrows 75) causes corresponding sliding movement of the o, shield, respectively against or with the bias of the compression spring 71 10 (in the direction of double-headed arrows 77). Thus, it can be o 9, appreciated that without the container and valve coupling in place, the shield covers the mouth of the duct 43 between the end of this duct and S' the head 35 of the opening means, to inhibit any back-seepage of liquid in the duct, and avoid any residual liquid coming into contact with the user. The provision of annular groove 73 means that the float chamber 45 is of an alternative shape to that shown in Figure 4 (sensor not shown).

The embodiment shown by Figures 6 to 8 has some constructional differences. The container I terminates in a neck 7 onto which is screwed a cap 81. This is shaped to provide an encircling collar 83 and a flat face 85 within the neck 7. Upstanding from the centre of face 85 is a tubular portion 87 which is equivalent to opening 21. Extending into the container from face 85 are legs 89 providing a basket accommodating spring 15 which biases a sealing washer 93 to a position as shown in Figure 6 where the washer seals to the tubular i r~* 11.

portion 87.

The washer's relaxed shape is shown in Figure 7. It has a main body similar to that of washer 13, shown in Figure 1, with an undercut recess 53 and a slit 23 as previously described. The body of the washer is joined by thin annuli 95 to sealing lips 97 which seal against the walls of the tubular portion 87. This form of washer is beneficial in giving 0 0 reliable operation of the slit 23.

000t o a" The container I is inserted in a receiving module 29, as shown by Figure 8. This receiving module has a duct 43 projecting from which 10 is a va.ve opening means with a head 35 at the top of a solid pillar 99.

0 0 o The portion 87 is fitted over the valve opening means and seals onto the duct 43 which may be provided with an O-ring similar to O-ring 44.

00 °o The valve opening means displaces the washer 93 against the bias of spring 15 allowing liquid to flow between the legs 89 and into ooo.a 15 the duct 43 through the gap between the duct 43 and the head Extending into the container 1 from the face 85 is a short tube 101 which is closed at its inner end by a membrane 103 of microporous polytetrafluoroethylene (PTFE). This tube acts as a gas passage, by passing the washer 93. The membrane 103 will not allow liquid passage, but has pores of a size allowing gas to escape when the container 1 is disconnected as in Figure 6, and allowing air to vent into the emptying container, as in Figure 8. The gas passage 101 might be relied on for only one of these functions if desired.

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Claims

1. A container coupling system comprising a container for liquid and a liquid duct for connection to the container, the said container comprising a valve coupling providing entrance to the container for transfer of liquid between container and duct, said valve coupling closing said container and preventing spillage therefrom while said container is oriented with said valve coupling below the level of liquid in said container, the said duct and valve coupling having co- operating configurations enabling connection together and disconnection of the said duct and valve coupling, without spillage of liquid, while the container is so Q t oriented with said valve coupling below the level of 0 .0 liquid in said container, said valve coupling ,0 incorporating meains to release excess pressure within the container to atmosphere while the container is ortttl disconnected from the duct. r

2. A system according to claim 1 wherein the valve coupling comprises a valve sealing member and resilient means urging the sealing member into a position closing valve, the duct being provided with opening means positioned to displace the sealing member when the duct and valve coupling come into sealing engagement upon connection thereof.

3. A system according to claim 2 wherein the opening means project beyond a terminal portion of the duct, and l sealing means are provided to seal between the valve coupling and the terminal portion of the duct.

4. A system according to claim 2 or claim 3 wherein the-opening means and the valve coupling are configured to co-operate with one another to assist clcising of the valve coupling as the duct is CO L i 9Lj ~k L. r p 9 I S0* Oi 4 o 41 Os .1*1 disconnected therefrom. A system according to claim 4 wherein a projection from either the opening means or the valve sealing member engages an undercut recess in the other of them.

6. A system according to any one of the preceding claims wherein the duct incorporates an air passage, the said duct and the valve coupling having configurations to enable air to flow into the container via the air passage as liquid flows from the container into the duct.

7. A system according to any one of claims 2 to 5 wherein the opening means comprises a pillar having a channel through the pillar leading from atmosphere to one or more openings in the pillar and provided with valve means serving to admit air to the container as liquid flows from the container into the duct.

8. A system according to any one of the preceding claims wherein the duct has a protective shield resiliently biased to a position covering an entrance to the duct, and forced to a position exposing the entrance to the duct when the duct and valve coupling are connected.

9. A system according to any one of the preceding claims wherein the duct is provided with a level sensor to indicate when liquid from the container is substantially exhausted. A system according to any.n. of the pr.e.ding cla..ims wh. the valve coupling incorporates means to rel cess pressure within the container to atmo s while the container is disconnected from t\0,c A system according to- wherein the valve coupling A system according to -"clai 10 wherein the valve coupling

14. incorporates a resilient sealing member, and the said means to release excess pressure is a slit in the sealing member. 1-2. A system according to any one of the preceding claims wherein the container incorporates a gas flow passageway additional to the valve coupling, which passageway is closed by a porous membrane. o t ft ft o DATED THIS 16TH DAY OF NOVEMBER 1987 UN ILEVER PLC By its Patent Attorneys: V, CLEMENT HACK CO. Fellows Institute of Patent Attorneys of Australia.