GB2358624A - A bottled liquid dispenser - Google Patents

Abstract

A bottled liquid dispenser supplies a liquid such as water from a bottle B to a discharge outlet 8 via a reservoir 15. A pump means, such as an air pump 22, pressurises the bottle B to displace water to the reservoir 15. A draw tube 17 in the reservoir has a main outlet port 18 at the bottom and a second outlet port 21 at the top, through which water may flow to the discharge outlet 8. Thus when the water in the reservoir 15 drops below the second outlet port 21 at the top of the draw tube 17, when water in the bottle B runs out, air is discharged to the discharge outlet 8. This means that when the bottle B is replaced, the reservoir 15 quickly fills to a level above the second outlet port 21 and becomes fully functional again. The bottle B has a connector 12 releasably sealed to it's neck, having an air inlet (24, fig 4), and a dip tube 13 for the removal of water to the reservoir 15. The reservoir 15 is removably received within thermal means 16 such that the reservoir 15 and bottle B can be removed and replaced with clean components. The thermal means 16 may be a heat-conducting holder which embraces an upper region of the reservoir 15, and the reservoir 15 may be pre-formed for reception within the holder. In order to control the temperature of the water dispensed, water from the bottle B may be mixed with water from the chilled reservoir 16 to supply the discharge outlet.

Description

2358624 1 7 BOTTLED LIQUID DISPENSERS

TECHNICAL FIELD OF THE INVENTION

This invention relates to bottled liquid dispensers.

BACKGROUND

Large floor-standing bottled water dispensers are well known in offices and other commercial premises. For example, EP 0 581491 B describes a water dispenser having a vertically elongate housing which supports an inverted bottle. A feed tube projects upwardly into the neck of the bottle through which liquid discharges under gravity into a reservoir in the form of a flexible bag. For hygienic purposes the feed tube is incorporated in unit which can be removed together with the bag and relaced during a maintenance operation.

The present invention seeks to provide a new and inventive form of bottled liquid dispenser which is smaller and more compact than known dispensers of the kind described in the aforementioned patent.

2 SUMMARY OF THE INVENTION

The present invention proposes a bottled liquid dispenser in which water is supplied from a bottle to a discharge outlet via a reservoir, wherein the bottle is mounted; alongside. the reservoir and pump means causes movement of water from the bottle to the reservoir.

With such an arrangement the height of the dispenser is minimised.

Although the pump means could comprise a liquid pump, e.g. a peristaltic pump, such pumps generally have a fixed and relatively slow delivery rate. The pump means preferably comprises an air pump which is arranged to pressurise the bottle. This has a number of advantages:

- A high instantaneous discharge rate can be achieved compared with a liquid pump.

- An air filter can be included in the air supply to the bottle.

- If the bottle contains carbonated soft drinks, pressurisation of the bottle reduces the risk of the contents becoming flat as the bottle becomes empty. - Low cost.

The pump is preferably controlled by a pressure sensor.

The invention also provides a bottled liquid dispenser in which water is supplied from a bottle to a discharge outlet via a reservoir, wherein the reservoir contains a draw tube having a main outlet port adjacent to the bottom of the reservoir and an auxiliary outlet port adjacent to the top of the reservoir.

3 The auxiliary port allows air to purge from the reservoir without having to use a bleed valve or similar means. Furthermore, when the bottle becomes empty and air starts to enter the reservoir, air is discharged as soon as the auxibary port is uncovered. The reservoir therefore remains filled with liquid so that delivery recommences almost immediately afterthe bottle is changed.

The invention also proposes a bottled liquid dispenser in which water is supplied from a bottle to a discharge outlet via a reservoir, wherein the dispenser includes means for holding the bottle, a bottle connector for releasable sealing engagement with a neck formed at the top of the bottle, the bottle connector being provided with an air inlet for supplying air to an upper region of the bottle, a dip tube for removing water from a lower region of the bottle, and a transfer tube for supplying water to the reservoir, thermal means for controlling the temperature of liquid in the reservoir, and an outlet tube for conducting liquid from the reservoir to a discharge outlet, wherein the reservoir is removably received within the thermal means such that, for hygiene purposes, the reservoir and the bottle connector can be removed together with associated tubes and replaced with clean components.

To maintain hygiene the replaceable components can be changed at intervals.

The air inlet is preferably connected to a releasable coupling which incorporates an air filter whereby the air filter is replaced with the bottle connector and reservoir. The air tube preferably supplies air under pressure to the bottle.

The bottle connector preferably incorporates a rotatable connection, which r 4 prevents kinking of the tubes.

The invention also provides a bottled liquid dispenser in which water is supplied from a bottle to a discharge outlet via a reservoir, wherein the reservoir is pre-formed for reception in a heat-conducting holder which embraces an upper region of the reservoir and includes thermal means for controlling the temperature of liquid in the reservoir.

The portion of the reservoir below the holder is preferably stepped inwardly.

The reservoir is preferably moulded of a semi-rigid plastics material.

The thermal means preferably includes a peltier element.

The holder is preferably provided with a plurality of heat-conducting fins, and the holder is preferably provided with means for creating an air flow over the fins.

The invention also provides a bottled liquid dispenser in which water is supplied from a bottle to a discharge outlet via a reservoir, which includes thermal means for controlling the temperature of liquid in the reservoir, and mixer means for mixing liquid from the reservoir with liquid from the bottle to supply a discharge outlet.

BRIEF DESCRIPTION OF THE DRAWINGS

The following description and the accompanying drawings referred to therein are included by way of non-limiting example in order to illustrate how the invention may be put into practice. In the drawings:

Figure 1 is a general view showing the front, top and one side of a bottled water dispenser in accordance with the invention; Figure 2 is a rear elevation of the dispenser; Figure 3 is a schematic drawing showing the internal components of the dispenser; Figure 4 is a more detailed general view of the replaceable components of the dispenser; Figure 5 is a general view of a single component of the dispenser, namely a tip moulding; Figure 6 is a general view of another component of the dispenser, namely a flow spreader; Figure 7 is a general view of the reservoir and cooling unit of the dispenser; and Figure 8 is a bottom view of another component, namely the plug of Fig. 4.

DETAILED DESCRIPTION OF THE DRAWINGS

1 6 The bottled water dispenser shown in the drawings is suitable for use on a kitchen work surface or the like. Referring to Fig. 1, the dispenser comprises a moulded plastics housing 1 having a base 2 and side walls 3. A lid 4 is connected to the side walls by a single hinge 5 at the rear of the housing. At one side of the housing the base 2 projects from the wall 3, best seen in Fig. 2, to form a platform 6 for supporting a water bottle (not shown), which may be a 5 litre capacity bottle of the kind which can be purchased from supermarkets and other retail outlets. The lid 4 projects over the platform 6 to cover the neck of the bottle.

At the front of the housing the wall 3 is formed with a recess 7 for receiving a drinking vessel, which is normally held by hand during filling. A water outlet, indicated generally at 8, is located at the top of the recess for dispensing water into the drinking vessel under the control of a valve which is operated by a lever 9. The bottom of the recess is formed by the base 2, which may be slightly concave and may also be provided with drainage apertures 10 to collect any small spillages of water.

On the opposite side of the housing relative to the platform 6 there is an air vent 11.

The main internal compgnents of the water cooler are shown diagrammatically in Fig. 3. A bottle connector 12 is coupled to the neck of the water bottle 8. The connector 12 incorporates a flexible dip tube 13 which is connected to a transfer tube 14 leading to the upper part of a reservoir 15. The reservoir is provided with an external cooling device 16 for cooling liquid in the reservoir. A draw tube 17, having a main outlet opening 18 at the bottom of the reservoir, extends through the top of the reservoir 15.

7 The draw tube is connected to an outlet tube 19 for transferring cooled liquid to the discharge valve 8. It will be noted that the draw tube 17 has an auxiliary outlet opening 21 at the top of the reservoir, of smaller diameter than-the main opening 18.

The bottle 8 and reservoir 15 are located alongside each other at substantially the same level. An air pump 22 supplies atmospheric air via an air filter 23 and air tube 24, through the connector 12 into the top of the bottle B. This pressurises the bottle so that when the discharge valve 8 is opened water flows from the bottle B into the reservoir 15 displacing cooled water from the reservoir through the openings 18 and 21.

The pump 22 incorporates a pressure sensitive switch (not shown) which shuts off the pump when the pressure at the pump outlet rises above a predetermined level. The cutoff pressure is set to ensure that there is sufficient pressure in the system to dispense a useable quantity of liquid when the valve 8 is opened. Normally the pump will start as soon as the pressure drops, thereby ensuring a continuous discharge of cooled water at an acceptable rate.

The dispenser is also useful for cooling fizzy soft drinks since the carbonation is maintained by the pressuri.sation of the bottle.

The auxiliary outlet port 21 allows air to purge from the reservoir 15 as the reservoir fills with liquid for the first time. Furthermore, when all the water has been removed from the bottle B and air therefore starts to enter the reservoir, air will start to discharge from the reservoir as soon as the port 21 is uncovered. The reservoir therefore remains filled With water so that when 8 the bottle is replaced with a full bottle, delivery recommences almost immediately.

Bottled water should be supplied free from bacteria and impurities. In order to maintain a high level of hygiene all of the components which come into contact with the water can be periodically replaced with a new set of clean components. Fig. 4 shows the replaceable parts of the dispenser in more detail. Components which correspond to those of Fig. 3 are referenced similarly. The air filter 23 is housed within a twist-lock connector 25 for releasable connection with the air pump 22. The bottle connector 12 incorporates a moulded cap 26 to which the tubes 24, 13 and 14 are coupled. The cap has an angled through-connector 27 to which the dip tube 13 and transfer tube 14 are coupled while the air tube 24 is pushed onto a tubular spigot 28. The cap 26 is held onto the neck of the bottle by a screwthreaded flanged ring 29, with a sealing ring 30 interposed between the cap and the rim of the bottle. The ring 29 thus allows the cap 26 to be connected with the bottle without twisting the tubes which are connected to the cap. The cap 26 andlor the ring 29 can be changed, if required, for use with different kinds of bottle.

The dip tube 13 and the transfer tube 14 are formed of corrugated-wall plastic to allow them to be easily stretched and flexed during bottle replacement without being longer than necessary. The volume of water which they hold is thus kept to a minimum. A tip moulding 31, also shown in Fig. 5, prevents the dip tube 13 from being obstructed by contact with the bottle 8. The moulding has a generally cylindrical portion 32 which is a press-fit into the end of the dip tube 13 and is provided with an external flange 33. The flange carries an arcuate projection 34 which prevents the 9 entry hole 35 from being obstructed.

Referring back to Fig. 4, the reservoir 15 is moulded of polythene or a similar semi-,rigid thermoplastic and is vertically elongate, being of square or rectangular cross section. The bottom portion 36 of the reservoir is stepped inwardly for ease of insertion into the cooling device 16. The tubes 14, 17 and 19 are connected to the reservoir via coupling spigots 37 formed on a screw-threaded plug 38. A flow spreader 39, shown also in Fig. 6 is inserted into the water inlet spigot of the plug 38. The spreader has a cruciform section 40 which is inserted into the spigot and which carries an external end plate 41. Thus, when water enters the reservoir through the plug 38 it hits the plate 41 and is dispersed into the top region of the reservoir to reduce mixing of the warmer water entering the reservoir with the cooled water at the bottom of the reservoir.

Referring to Fig. 7, the cooling device includes a heat-conducting metal sleeve 42 which snugly receives the upper part of the reservoir 15, being shaped such that there is a minimal air gap between the reservoir and the sleeve. The sleeve 42 is formed with an integral vertically extending Tsection head 43, which is coupled to the cold side of a thermostatically controlled pettier cooling unit 44. The opposite hot side of the pettier unit is thermally coupled with a heat.sink plate 45 having an array of closely spaced parallel vertical cooling fins 46 projecting away from the reservoir. A fan 47 is mounted on the fins adjacent to the air vent 11 to force air between them. Thus, the pettier unit 44 removes heat from the water in the reservoir, which is dissipated into the atmosphere. Since warmer water will tend to move to the top of the reservoir by convention currents, cooling of the reservoir is very efficient.

Although Fig. 3 shows the auxiliary outlet port 21 as a hole in the draw tube 17 it is preferably formed in the plug moulding 38. As can be seen in Fig. 8, the outlet port may comprise an axial groove 48 which extends along the external surface of the spigot 3Ton which the draw tube 17 is received. The groove also extends for a short distance 49 along the top wall 50 of the plug, beyond the wall of the draw tube, so that air and water can pass from the highest part of the reservoir into the draw tube 17 via the groove sections 49 and 48. This arrangement ensures complete purging of air from the reservoir.

In a modification to the basic cooler shown in Fig. 3, the temperature of the dispensed water can be instantly controlled by means of a mixer valve 51. The mixer valve is connected in the tube 19 and receives water at ambient temperature through a bypass tube 52 from the bottle 8 through transfer tube 14. Thus, the user can vary the relative proportions of cooled and ambient water issuing from the discharge valve 8.

Claims (1)

1. It will be appreciated that the features disclosed herein may be present

   in any feasible combination. Whilst the above description lays emphasis on those areas which, in combination, are believed to be new, protection is claimed for any inventive combination ofthe features disclosed herein.

   11 CLAIMS 1. A bottled liquid dispenser in which water is supplied from a bottle to a discharge outlet via a reservoir, wherein the bottle is mounted alongside the reservoir and pump means causes movement of water from the bottle to the reservoir.

   2. A bottled liquid dispenser according to Claim 1, in which the pump means comprises an air pump arranged to pressurise the bottle.

   3. A bottled liquid dispenser according to Claim 2, in which the air pump is controlled by a pressure sensor.

   4. A bottled liquid dispenser according to Claim 3, in which the pressure sensor is arranged to sense the pressure of air supplied to the bottle and switch off the pump when the pressure exceeds a predetermined level.

   5. A bottled liquid dispenser substantially as described with reference to the accompanying drawings.

   12 6. A bottled liquid dispenser in which water is supplied from a bottle to a discharge outlet via a reservoir, wherein the reservoir contains a draw tube having a main outlet port adjacent to the bottom of the reservoir and an auxiliary outlet port adjacent to the top of the reservoir.

   7. A bottled liquid dispenser according to Claim 5, in which the auxiliary outlet port is smaller than the main outlet port.

   8 A bottled liquid dispenser substantially as described with reference to the accompanying drawings.

   13 9. A bottled liquid dispenser in which water is supplied from a bottle to a discharge outlet via a reservoir, wherein the dispenser includes means for holding the bottle, a bottle connector for releasable sealing engagement with a neck formed at the top of the bottle, the bottle connector being provided with an air inlet for supplying air to an upper region of the bottle, a dip tube for removing water from a lower region of the bottle, and a transfer tube for supplying water to the reservoir, thermal means for controlling the temperature of liquid in the reservoir, and an outlet tube for conducting liquid from the reservoir to a discharge outlet, wherein the reservoir is removably received within the thermal means such that, for hygiene purposes, the reservoir and the bottle connector can be removed together with associated tubes and replaced with clean components.

   10. A bottled liquid dispenser according to Claim 9, in which the air inlet is connected to a releasable coupling which incorporates an air filter whereby the air filter is replaced with the bottle connector and reservoir.

   11. A bottled liquid dispenser according to Claim 9 or 10, in which the bottle connector incorporates a rotatable connection.

   12. A bottled liquid dispenser substantially as described with reference to the accompanying drawings.

   14 13. A bottled liquid dispenser in which water is supplied from a bottle to a discharge outlet via a reservoir, wherein the reservoir is pre formed for reception in a heat-conducting holder which embraces an upper region of the reservoir and includes thermal means for controlling the temperature of liquid in the reservoir.

   14, A bottled liquid dispenser according to Claim 13, in which the portion of the reservoir below said upper part is stepped inwardly.

   15. A bottled liquid dispenser according to Claim 13 or 14, in which the reservoir is moulded of a semi-rigid plastics material.

   16. A bottled liquid dispenser according to any of Claims 13 to 15, in which the thermal means includes a peltier element.

   17. A bottled liquid dispenser according to any of Claims 13 to 16, in which the heat-conducting holder is provided with a plurality of heat conducting fins.

   18. A bottled liquid dispenser according to Claim 17, in which the heat-conducting holder is provided with means for creating an air flow over the fins.

   19. A bottled liquid dispenser substantially as described with reference to the accompanying drawings.

   20. A bottled liquid dispenser in which water is supplied from a bottle to a discharge outlet via a reservoir, which includes thermal means for controlling the temperature of liquid in the reservoir, and mixer means for mixing liquid from the reservoir with liquid from the bottle to supply a discharge outlet.

   21. A bottled liquid dispenser substantially as described with reference to the accompanying drawings.

   Amendments to the claims have been filed as follows CLAIMS 1. A bottled liquid dispenser in which liquid is supplied from a bottle to a discharge outlet via a reservoir, which includes thermal means for controlling the temperature of liquid in the reservoir and mixer means for mixing liquid from the reservoir with liquid from the bottle to supply the discharge outlet.

   21. A bottled liquid dispenser substantially as described with reference to the accompanying drawings.