DEVICE FOR CHILLING OR FROSTING GLASSES

Abstract

A device for cooling or freezing glasses with carbon dioxide, having an upwardly open inner space for receiving a glass, wherein the inner space is enclosed all around by an inner wall, wherein a nozzle and a support tray are arranged in the inner space and a glass to be cooled or frozen is movable into the inner space and against the support tray from above, whereby carbon dioxide is released into the glass from the nozzle, and wherein the device has an outer wall, wherein the inner wall has openings leading into the device interior between the inner wall and the outer wall, and/or the inner wall is open towards the device interior beneath the support tray or is sealed with an inner bottom element which has multiple openings leading into the device interior. Optional elements allow fastening the device directly to the valve cap of a gas cylinder.

Description

Claims

1-20. (canceled)

21. A device for cooling or freezing glasses with carbon dioxide, comprising: an upwardly open inner space for receiving a glass, the inner space being enclosed all around by an inner wall;a nozzle and a support tray arranged in the inner space, the glass to be cooled or frozen being movable into the inner space and against the support tray from above, the nozzle being configured to release carbon dioxide into the glass; andan outer wall;wherein one of: the inner wall has openings leading into a device interior between the inner wall and the outer wall; andthe inner wall is open towards the device interior beneath the support tray or is sealed with an inner bottom element having multiple openings leading into the device interior.

22. The device as claimed in claim 21, wherein: the inner wall is open towards the device interior beneath the support tray or is sealed with an inner bottom element, which has multiple openings leading into the device interior;a container, preferably a drawer, is arranged beneath the support tray in the device interior; anddry ice developing at the nozzle descends into the container through openings of the support tray or through openings between the support tray and the nozzle.

23. The device as claimed in claim 21, wherein: the inner wall has openings leading into the device interior between the inner wall and the outer wall; anda sound-absorbing material is present in the cavity between the inner wall and the outer wall.

24. The device as claimed in claim 23, wherein the openings of the inner wall lead from the inner space to the sound-absorbing material.

25. The device as claimed in claim 21, wherein: the support tray is formed out of elastic material, or has a surface or support made of elastic material; andsaid support has openings.

26. The device as claimed in claim 21, wherein the outer wall is sealed by a lower bottom element, which is detachably connected to the outer wall.

27. The device as claimed in claim 21, wherein the outer wall and the inner wall are undetachably connected on the upper end of the device.

28. The device as claimed in claim 21, further comprising one of: a sensor configured to detect a glass being pressed against the support tray; anda switch or button configured to be actuated when pressing a glass against the support tray;wherein the device has a valve for releasing carbon dioxide via the nozzle, which valve is opened based on a signal of the sensor or based on the actuation of the switch or button.

29. The device as claimed in claim 28, wherein the sensor or switch and the valve are separated by a screen.

30. The device as claimed in claim 28, wherein: the inner wall is open towards the device interior beneath the support tray or is sealed with an inner bottom element, which has multiple openings leading into the device interior;a container, preferably a drawer, is arranged beneath the support tray in the device interior;dry ice developing at the nozzle descends into the container through openings of the support tray or through openings between the support tray and the nozzle;the device has an inner housing in which the valve and the sensor or switch are arranged; andthe inner housing comprises a roof and a wall;the roof has a roof protrusion with regard to the wall; andpart of a container wall of the container lies beneath the roof protrusion of the inner housing.

31. The as claimed in claim 30, wherein the container has two areas laterally encompassing the inner housing and the container in a shape of a drawer can be laterally removed from and reinserted into the device through an opening of the outer wall, or the container is accessible through a sealable opening of the outer wall.

32. The as claimed in claim 21, wherein the support tray has a funnel-shaped support area for the glass and dry ice developing at the nozzle can get down into the device interior through openings which are present between the funnel-shaped support area of the support tray and the nozzle.

33. The as claimed in claim 21, wherein at least one sealing element, which at least partly seals off the inner space from above, is present at the upper end region of the inner space or above the inner space.

34. The device as claimed in claim 33, wherein the seal is formed by a plurality of flexible elements which extend from the inner wall towards the center of the inner space.

35. The device as claimed in claim 21, wherein the device has on its lower end at least one fastening element with which the device is detachably mountable on the valve cap of a gas cylinder, wherein the fastening element is present on the housing of the device or on an intermediate element which is detachably connected to the housing of the device.

36. The device as claimed in claim 21, further comprising a draining element, wherein the device for cooling or freezing glasses stands on the draining element, wherein the draining element has on its outer circumference or in its outer periphery an outer web, and a recess is present between the housing of the device and the outer web.

37. The device as claimed in claim 21, wherein the draining element has two inner webs, between which a gap for receiving a section of an outer wall of the device is present.

38. A device for cooling or freezing glasses with carbon dioxide, comprising: at least one fastening element on a lower end of the device, the at least one fastening element configured to detachably mount the device on a valve cap of a gas cylinder;wherein the fastening element is present on a housing of the device or on an intermediate element which is detachably connected to said housing of the device.

39. The device as claimed in claim 38, wherein at least one fastening element is selected from the group of fastening elements comprising: clamping element encompassing an upper periphery of the valve cap; belt; strap; buckle; string; screw; bolt; thread; protrusions or recesses of a bayonet mount; and recess for receiving the upper rim of the valve cap.

40. An apparatus comprising: a device for cooling or freezing glasses with carbon dioxide, a gas cylinder and a valve cap fastened to the gas cylinder;wherein the device for cooling or freezing glasses is detachably fastened to the valve cap.