PORTABLE REFRIGERATED DESKTOP DISPENSER FOR BEVERAGES

Abstract

The present invention relates to a portable desktop refrigerated dispenser for beverages, preferably bottled, comprising a base (3), a cup (4) intended for housing beverages, a holder lid (6) equipped with holder lid holes (7), bottle holders (28) that can be coupled to the holder lid holes (7) that retain the bottles inverted and inclined, a cool box (8) that limits a cooling cavity (9) around the cup (4) and that is intended for housing a cooling element, a manifold (13) connected to the cup (4) that receives the beverage and at least one tap assembly (15) connected to the manifold (13) through which the beverage is dispensed. Alternatively, the cup (4) can be filled from a dispensing column for draught beverages, dispensing with the bottle holders (28).

Claims

1. A portable desktop refrigerated dispenser for beverages characterised in that it comprises: a base (3) intended for resting on a support surface; a cup (4) intended for housing a beverage, equipped with an outlet mouth (5) through which the beverage is ejected; a holder lid (6) that can be linked to the cup (4) at a height with respect to the outlet mouth (5) that is equipped with holder lid holes (7); bottle holders (28) that can be coupled to the holder lid holes (7) which are in turn equipped with bottle holder cavities (29) intended for embracing the neck of the bottles (2) and retain them inverted and inclined; a cool box (8) which is an outer casing that can be linked to the cup (4) by means of a watertight attachment and which surrounds it at a certain distance, limiting a cooling cavity (9) around the cup (4), which is intended for housing a cooling element and wherein the cool box (8) is equipped with a central cavity (10) that is coaxial to the outlet mouth (5) of the cup (4); a tap connection part (11) attached to an upper area of the base (3) and which is equipped with a housing (12); a manifold (13) housed in the housing (12) and connected to the outlet mouth (5) of the cup (4), which is intended for receiving the beverage and which is equipped with at least one outlet hole (14) through which the beverage is ejected; at least one tap assembly (15) removably linked to the tap connection part (11), equipped with a tube (16) equipped with an inner end (17) connected to the outlet hole (14) and an outer end (18) through which the beverage is dispensed.

2. The dispenser (1) of claim 1, wherein the tap assembly (15) comprises a tubular body (20) that partially houses a tube (16) and that is equipped with an access hole (21) that partially houses a plunger (22) and a handle (23) linked to the plunger (22), in a vertical rest position the plunger (22) presses the tube (16) deforming it and preventing the liquid from coming out and in an activation position the movement of the handle (23) moves the plunger (22) away from the tube (16), enabling the beverage to pass therethrough.

3. The dispenser (1) of claim 2, wherein the tap assembly (15) comprises a nozzle (19) connected to the body (20) by pressure.

4. The dispenser (1) of claim 2, wherein the tap assembly (15) comprises a spring (24) that embraces the plunger (22) and forces the handle (23) to return to the vertical rest position when the handle (23) is in an intermediate activation position between a fixed horizontal activation position and the vertical rest position.

5. The dispenser (1) of claim 4, wherein the manifold (13) comprises two external connections (26) that are tubular protrusions that respectively define the outlet hole (14) and the dispenser (1) comprises two tap assemblies (15), wherein the tubes (16) of the tap assemblies (15) embrace the external connections (26) at the inner end (17) thereof.

6. The dispenser (1) of claim 5, wherein the outlet mouth (5) of the cup is a tubular protrusion with a threaded outer surface and the manifold (13) comprises a non-through cavity (27) wherein the outlet mouth (5) is connected.

7. The dispenser (1) of claim 1, comprising a sealing gasket (25) between the cup (4) and the cool box (8) around the central cavity (10) intended for preventing leaks of the liquid housed in the cooling cavity (9).

8. The dispenser (1) of claim 1, wherein the bottle holders (28) are conical tubular bodies limited by an upper bottle holder edge (30) and a lower bottle holder edge (31), wherein the upper bottle holder edge (30) is inclined with respect to the lower bottle holder edge (31).

9. The dispenser (1) of claim 8, wherein the bottle holders (28) comprise a curved surface (32) that extends from the upper bottle holder edge (30) towards the cavity of the bottle holder (29) reducing the transversal section thereof.

10. The dispenser (1) of claim 1, wherein the holder lid holes (7) describe a narrowing area (33) and the bottle holders (28) comprise an attachment tab (34) that is clipped to the narrowing (33).

11. The dispenser (1) of claim 1, wherein the holder lid (6) comprises a circular base surface (35) equipped with the holder lid holes (7) and which is limited by a lower holder lid edge (36) that can be linked to the cup (4) from which a lateral surface (37) extends.

12. The dispenser (1) of claim 11, wherein the cup (4) comprises an upper cup edge (38) equipped with first attachment elements (39) and the holder lid (6) comprises second attachment elements (40) on the lower holder lid edge (36) that can be linked to the first attachment elements (39).

13. The dispenser (1) of claim 1, comprising an upper lid (41) covering the holder lid (6).

14. The dispenser (1) of claim 1, comprising a closure gasket (42) between the manifold (13) and the cup (4) which prevents leaks in the thread that attaches both parts.

15. The dispenser (1) of claim 1, wherein the tap connection part (11) comprises support legs (56).

16. The dispenser (1) of claim 1, wherein the base (3) comprises attachment ribs (63) on the upper face thereof distributed around the perimeter and the tap connection part (11) incorporates on the lower face thereof first perimeter anchoring rails (65), which can be coupled to the attachment ribs (63) of the base (3).

17. The dispenser (1) of claims 1 and 16, wherein the base (3) additionally comprises guide bushings (64) on the upper face thereof that extend along the bottom, the tap connection part (11) incorporates stop housings (67) on the lower face thereof wherein there is a ledge (80), and the dispenser additionally incorporates a first interlocking element (70) equipped with a first piston (74) ending in a first end (72) intended for fixing the tap connection part (11) with the base (3), which is inserted through the guide bushing (64) of the base (3) and penetrates in the stop housing (67), making lateral contact with the ledge (80) preventing the rotation of the tap connection part (11) which remains locked and fixed to the base (3).

18. The dispenser (1) of claim 1 wherein the tap connection part (11) comprises perimeter attachment projections (59) on the upper face thereof, the cool box (8) has second anchoring rails (68) on the lower face thereof that can be coupled to the attachment projections (59).

19. The dispenser (1) of claims 1 and 18, wherein the tap connection part (11) incorporates hollow turrets (60) that start at the top, which internally incorporate guide housings (66), the cool box (8) has stop elements (69) on the lower face thereof, and the dispenser (1) additionally incorporates a second interlocking element (71), housed in the guide housing (66), which is equipped with a second piston (75) ending in a second end (73), vertically movable until it makes lateral contact with one of the stop elements (69), thus preventing the rotation of the cool box (11) which is locked and fixed to the tap connection part (11).

20. The dispenser (1) of claim 6, wherein the tap assembly (15) additionally comprises a stop extension (55) starting from the handle (23) in a front area and limits the range of movement of said handle (23) from the vertical rest position to the fixed horizontal activation position.

21. The dispenser (1) of claim 17, wherein the first interlocking element (70) additionally comprises a first spring (81) arranged around the first piston (74) and internally in one of the guide bushings (64), embedding said first piston (74) in the guide bushing (64) and controlling the vertical movement thereof.

22. The dispenser (1) of claim 19, wherein the second interlocking element (71) additionally comprises a second spring (82) arranged around the second piston (75) and internally in the guide housing (66), embedding said second piston (75) in the guide housing (66) and controlling the vertical movement thereof.

23. The dispenser (1) of any one of the preceding claims, wherein the beverage is beer and the beverage bottles are beer bottles.

Description

DESCRIPTION OF THE DRAWINGS

[0017] As a complement to the description provided herein, and for the purpose of helping to make the features of the invention more readily understandable, in accordance with a preferred practical exemplary embodiment thereof, said description is accompanied by a set of drawings constituting an integral part of the same, which by way of illustration and not limitation, the following has been represented:

[0018] FIG. 1 shows a perspective view of the dispenser.

[0019] FIG. 2 shows a first exploded view of a portion of the dispenser.

[0020] FIG. 3 shows a second exploded view of a portion of the dispenser.

[0021] FIG. 4 shows a perspective view of the cup.

[0022] FIG. 5 shows a perspective view of the holder lid.

[0023] FIG. 6 shows a perspective view of a bottle holder.

[0024] FIG. 7A shows a top view of the holder lid with the bottle holders.

[0025] FIG. 7B shows a cross-sectional view according to a B-B cut of FIG. 7A.

[0026] FIG. 8A shows a transversal view of the tap assembly in a vertical rest position.

[0027] FIG. 8B shows a transversal view of the tap assembly in an intermediate activation position.

[0028] FIG. 8C shows a transversal view of the tap assembly in a fixed horizontal activation position.

[0029] FIG. 9 shows a cross-sectional view of a detail of the dispenser.

[0030] FIG. 10 shows a top perspective view of the base and the tap connection part.

[0031] FIG. 11 shows a bottom perspective view of the base and the tap connection part.

[0032] FIG. 12 shows a cross-sectional view of the base and the tap connection part attached together.

[0033] FIG. 13 shows a perspective view of the tap connection part and the cool box.

[0034] FIG. 14 shows a cross-sectional view of the tap connection part and the cool box, attached together.

PREFERRED EMBODIMENT OF THE INVENTION

[0035] FIG. 1 shows a perspective view of a portable desktop refrigerated dispenser (1) for beverage bottles, such as beer bottles (2), in a final assembly situation, wherein the dispenser (1) comprises a base (3) intended for resting on a support surface the function of which is to hold and give stability to the remaining portions of the dispenser (1). The device (1) comprises a cup (4) intended for housing beer, equipped with an outlet mouth (5) through which beer is ejected and a holder lid (6) that is linked to the cup (4) that is at a height with respect to the outlet mouth (5). The holder lid (6) has holder lid holes (7) wherein bottle holders (28) are coupled, which are in turn equipped with bottle holder cavities (29) that embrace the neck of the bottles (2) and retain the bottles inverted and inclined as shown in the image, making the brand of the bottle (2) visible.

[0036] The dispenser (1) has a cool box (8) which is an outer casing linked to the cup (4) by means of a watertight attachment and which surrounds it at a certain distance, limiting a cooling cavity (9) around the cup (4) intended for housing a cooling element. Between the base (3) and the cool box (8) there is the tap connection part (11) attached to an upper area of the base (3), to which two taps (15) are linked through which the beer is dispensed.

[0037] FIG. 2 shows a first exploded view of a portion of the dispenser (1), according to the present invention. The base (3), the tap connection part (11) on the same, equipped with the housing (12) wherein the manifold (13) is housed, LED lights on the inner portion of the tap connection part (11), a closure gasket (42), the cool box (8), a sealing gasket (25), the cup (4), the holder lid (6) with the holder lid holes (7) thereof, the bottle holders (28) with the bottle holder cavities (29) thereof and an upper lid (41) covering the holder lid (6) can be seen. The cool box (8) is equipped with a central cavity (10) configured to be arranged coaxially to the outlet mouth (5) of the cup (4).

[0038] The tap connection part (11) is equipped with a housing (12), wherein a manifold (13) is housed. The manifold (13) is configured to be connected to the outlet mouth (5) of the cup (4), so that it receives the beer coming from the cup (4) and distributes it to the taps (15). It can be seen that the base (3) has connection windows (62) to facilitate the connection of the tap connection part (11).

[0039] FIG. 3 shows a second exploded view of a portion of the dispenser (1), specifically the tap assembly (15) and the manifold (13), according to the present invention. The tap assembly (15) is equipped with a tube (16) equipped with an inner end (17) configured to be connected to the manifold (13) and an outer end (18).

[0040] The tap assembly (15) comprises a tubular body (20) that partially houses the tube (16) and that is equipped with an access hole (21) that partially houses a plunger (22) and a handle (23) that is linked to the plunger (22), wherein in a vertical rest position the plunger (22) presses the tube (16) deforming it and preventing the liquid from coming out and in an activation position the movement of the handle (23) moves the plunger (22) away from the tube (16), enabling beer to pass therethrough.

[0041] Additionally, the tap assembly (15) comprises a nozzle (19) configured to be connected to the body (20) by pressure, wherein both the nozzle (19) and the tube (16) are made of plastic materials that comply with the regulations on plastic materials in contact with food.

[0042] Additionally, the tap assembly comprises a pin (46) housed in a handle hole (45) in the handle (23) and a pin hole (51) made in the plunger (22) that enables the handle (23) to rotate causing it to move the plunger (22) with its rotation, as explained later.

[0043] The access hole (21) is limited by an external threaded access surface (52) to which a spring support (48) is coupled and on which an O-ring (53) and a washer (47) are arranged. It additionally comprises a cap (50) and a nut (54) linked to the body (20) that enables the body (20) to be attached to a tap connection protrusion (57) of the tap connection part (11).

[0044] Likewise, the tap assembly (15) comprises a spring (24) that embraces the plunger (22) and forces the handle (23) to return to the vertical rest position when the handle (23) is in an intermediate activation position, between a fixed horizontal activation position and the vertical rest position.

[0045] The manifold (13) is equipped with two outlet holes (14) through which the beer is ejected towards the two tubes (16) connected to said outlet holes (14), wherein the outlet holes (14) are limited by two external connections (26) that are tubular protrusions and the dispenser (1) comprises two tap assemblies (15), wherein the tubes (16) of the tap assemblies (15) embrace the external connections (26) at the inner end (17) thereof.

[0046] The manifold (13) comprises a non-through cavity (27) equipped with a threaded inner surface, wherein the outlet mouth (5) of the cup (4) is housed, which is defined by a tubular protrusion with a threaded outer surface that is screwed with said internal threaded surface of the cavity (27).

[0047] FIG. 4 shows a perspective view of the cup (4) and FIG. 5 shows a perspective view of the holder lid (6). The holder lid (6) comprises a circular base surface (35) equipped with the holder lid holes (7) and limited by a lower lid edge (36) from which a conical lateral surface (37) extends. The cup (4) comprises an upper cup edge (38) equipped with first attachment elements (39) and the holder lid (6) comprises second attachment elements (40) on the lower holder lid edge (36) that can be linked to the first attachment elements (39).

[0048] Specifically, the holder lid (6) has six external female areas in which the six internal male areas of the cup (4) are inserted, embedding the male and female areas of both parts, by means of a bayonet locking system, rotating the holder lid (6) until the end of the path.

[0049] FIG. 6 is a perspective view of a holder (28), according to the present invention, wherein the bottle holders (28) are conical tubular bodies limited by an upper bottle holder edge (30) and a lower bottle holder edge (31), wherein the upper bottle holder edge (30) is inclined with respect to the lower holder edge (31) as can be seen in FIG. 7B.

[0050] The bottle holders (28) comprise a curved surface (32) that extends from the upper holder edge (30) towards the inside of the holder (28), reducing the transversal section thereof. Additionally, it can be seen that the bottle holders (28) comprise an attachment tab (34).

[0051] FIG. 7A shows a top view of the holder lid (6) with the bottle holders (28), and FIG. 7B shows a transversal section of FIG. 7A according to a B-B cut. The holder lid holes (7) describe a narrowing (33) where the attachment tab (34) is clipped.

[0052] FIGS. 8A, 8B and 8C show the tap assembly (15) with the handle (23) in a vertical rest position, in an intermediate activation position and in a fixed horizontal activation position, respectively. The handle (23) in the vertical rest position of FIG. 8A maintains the plunger (22) pressing the tube (16) deforming it and preventing the liquid from escaping. When the handle (23) is inclined forward, as in FIG. 8B, in an intermediate activation position, the opening of the tube (16) is allowed, enabling the passage of the liquid and once the force is no longer exerted, it recovers the initial position thereof. FIG. 8C shows the fixed horizontal activation position, which enables the opening of the tube (16) and the locking of the handle (23).

[0053] Thus, when the handle (23) is in the vertical rest position, the assembly formed by the handle (23), pin (46), washer (47), O-ring (53), spring holder (48), spring (24) and plunger (22) maintain the tube (16) pressed, partially located inside the body (20), preventing the passage of the beverage. When the handle (23) is pulled forward, but without reaching the fixed horizontal position, the tube (16) recovers the normal position thereof, when the plunger (22) rises, enabling the passage of the beverage until the handle (23) recovers the vertical rest position thereof.

[0054] In the same way, the tap assembly (15) comprises a stop extension (55) that starts from a rear area of the handle (23) and that prevents the handle (23) from colliding with the cool box (8), maintaining the vertical position of said handle (23) as limit position, the maximum movement range of the handle being from the vertical position shown in FIG. 8A to the horizontal position shown in FIG. 8C.

[0055] FIG. 9 shows a cross-sectional view of a detail of the dispenser (1), according to the present invention, wherein the manifold (13) comprises the non-through cavity (27) limited by an internal threaded surface wherein the threaded outer surface of the outlet mouth (5) of the cup (4) is screwed.

[0056] The sealing gasket (25) arranged between the cup (4) and the cool box (8) and around the central cavity (10) of the cool box (8) that prevents leaks of the liquid housed in the cooling cavity (9) can be seen. Likewise, the closure gasket (42) between the manifold (13) and the cup (4) can be seen, which prevents leaks in the aforementioned threaded attachment that attaches both parts. The sealing gasket (25) is compressed while the cup (4) is screwed onto the manifold (13).

[0057] FIG. 10 shows a perspective view of the tap connection part (11), the tube (16) and the manifold (13), according to the present invention. In the lower portion of the tap connection part (11) there are four round legs (56) that make it possible for the dispenser (1) to rest on any surface without the base (3), with all the rest of the assembled components thereof, facilitating its handling and making it easier to fill the cup (4) when it is carried out from a beer dispensing column. The four legs (56) are inserted into the connection windows (62) of the base (3) when both parts are attached.

[0058] On both sides, the tap connection part (11) has two tap connection protuberances (57) with an external threaded surface for fixing the two tap assemblies (15) of the dispenser (1). Inside each tap connection protrusion (57) there is a through hole (58) to house the tube (16) that connects the manifold with the tap assemblies (15).

[0059] The manifold (13) has the purpose of distributing the beer to the two tap assemblies (15) and is housed and positioned in the central portion of the tap connection part (11), in the housing (12) and is removable, which makes it easy to clean.

[0060] FIG. 13 shows the cool box (8) in perspective, according to the present invention, wherein in the lower portion thereof it has the central cavity (10) through which the outlet mouth (5) of the cup (4) passes.

[0061] With the help of FIGS. 10, 11 and 12, respectively showing a first perspective view, a second perspective view and a cross-sectional view of the attachment between the base (3) and the tap connection part (11), the elements that enable the attachment between said parts can be observed.

[0062] FIG. 10 shows that the base (3) comprises attachment ribs (63) on the upper face thereof distributed around the perimeter, as well as having guide bushings (64) on said face that extend along the bottom and are represented in FIG. 11 or in FIG. 12.

[0063] The tap connection part (11) additionally incorporates on the lower face thereof first perimeter anchoring rails (65), which can be coupled to the attachment ribs (63) of the base (3); for this the anchoring rails (65) must be facing the attachment ribs (63) and the tap connection part (11) is rotated on the base (3), thus leaving both parts coupled.

[0064] Moreover, the tap connection part (11) also incorporates stop housings (67) located on the lower face thereof, wherein at least one of them is located such that it coincides with the position of the guide bushing (64) once the coupling between the tap connection part (11) and the base (3) has been made.

[0065] Additionally, the dispenser (1) incorporates a first interlocking element (70) intended for fixing the tap connection part (11) with the base (3), which is inserted through the guide bushing (64) of the base and penetrates in the stop housing (67), wherein there is a ledge (80) against which it makes contact, thus preventing the rotation of the tap connection part (11), which remains thus locked and fixed to the base (3), a situation represented in FIG. 12.

[0066] Said first interlocking element (70) is embedded inside the guide bushing (64) and comprises a first piston (74) ending in a first end (72), and a first spring (81), located inside the guide bushing (64) and arranged around the first piston (74). The first end (72) of the first piston (74) makes lateral contact with the aforementioned ledge (80) in that locking position.

[0067] To unlock the tap connection part (11) with respect to the base (3), the lower portion of the first piston (74) of the fixing element (70) can be pulled, moving it vertically and in a controlled manner by the action of the first spring (81) and extracting the end (72) thereof from the stop housing (67).

[0068] On the other hand, FIGS. 13 and 14 respectively show a perspective view of the tap connection part (11) and the cool box (8) and a sectional view of the attachment between said elements.

[0069] FIG. 12 shows that the tap connection part (11) has attachment projections (59) along the top and around the perimeter and that the cool box (8) has second anchoring rails (68) on the lower side thereof that can be coupled to the attachment projections (59) by rotating the cool box (8) until the coupling of the cool box (8) with the tap connection part (8) is achieved.

[0070] Likewise, it has been provided, as can be seen in FIG. 10 or 14, that the tap connection part (11) incorporates hollow turrets (60) that start at the top, which internally incorporate guide housings (66), preferably, at least one of said turrets (60); and that the cool box (8) has stop elements (69) on the lower face thereof.

[0071] To lock the cool box (8) with respect to the tap connection part (11), the dispenser (1) incorporates a second interlocking element (71), housed in the guide housing (66) comprising a second piston (75) finished in a second end (73), such that it is vertically movable until it makes lateral contact with one of the stop elements (69), thus preventing the rotation of the cool box (8) which is thus locked and fixed to the tap connection part (11); and a second spring (82) located inside the guide housing (66) and arranged around the second piston (75), controlling the vertical movement thereof and fixing the position of the second piston (75) in the guide housing (66), situation represented in FIG. 14.

[0072] To unlock the cool box (8) with respect to the tap connection part (11), the second end (73) is moved along the bottom, releasing the contact with one of the stop elements (69), thus enabling the cool box (8) to rotate and decouple with respect to the tap connection part (11).