Abstract:
A drink cap comprising sliding/rotating straw/spout with or without the coolant and/or ice cube houses. There is a conduit inside the sliding/rotating straw/spout to guide the beverage to flow out. The drinker sips the beverage out of the can or bottle through the sliding/rotating straw/spout. The coolant/ice cube houses keep the drink at low temperature for hours. 
     A drink can comprising sliding/rotating straw/spout and can. The drinker sips the beverage out of the can or bottle through the sliding/rotating straw/spout. The can is vacumn sealed with knotched panel. As the sliding spout is pushed or the rotating straw is pulled, the knotched panel is pushed to open an orifice and the drink may flow out. The drinker sips the drink directly through the sliding/rotating straw/spout. As the sliding spout or rotating straw is pushed to close, the beverage is sealed to preserve the aeration and fragrance.

Description:
INTRODUCTION 
     The drinking cans and bottles used today have the common problems. The can used in market cannot preserve the aeration. After opening the can or cap for a few hours, all the aeration and fragrance escape into the air. The drink becomes sweet water. Besides the canned drink is not easy to carry around. The drink might spread out. The cool drink is warmed up in a few hours. Furthermore, the dirty opening panel is submerged in the beverage. If the drinker drinks the beverage directly, the drinker&#39;s lip touches the dirty can and the taste is worse than the taste with the sipping straw. However, it is vexatious to use the straw. The drinker first raises up the tab to open the can. Then the drinker has to find a straw and insert it in the can. The tab is not easy to open. The straw swivels in the can and it is not easy for the drinker&#39;s mouth to catch the straw. In such embarrassing environment, the enjoyment of drinks is strictly limited. However, the outdoors activities are much more demanding for the drinks. It is our inventions to provide the enjoyment of the drink in any adverse condition. 
     My drink cap and drink can may preserve the aeration and fragrance for much longer time. With my drink cap or drink can, the beverage might be carried around. The coolant house and/or ice cube house keep the cool drink at low temperature. 
     SUMMARY OF THE INVENTION 
     A drinking can comprises the secure seal and the convenient seal. The secure seal may be the long term permanent open once vacumn seal such as the scotched panel of a can. The scotched panel offers the permanent seal for the beverage. During the service period, the sliding/rotating spout/straw offers the temperary seal for the beverage. It preserves the aeration and fragrancy of the beverage. By pushing or pulling the sliding/rotating spout/straw to squeeze the scotched panels, the can is opened and the beverage is ready to serve. The sliding/rotating straw/spout serves as the pouring spout and/or sipping straw. The drinking cap can be adapted to the common cans or bottles. It has the same functions as the drinking can does. 
    
    
     BRIEF DESCRIPTION OF THE DRAWINGS 
     FIG. 1 (A) is the cross-section of the cap with the convenient seal of sliding spout in the unopen position; (B) is the cross-section of the cap with the convenient seal of sliding spout in the open position; the cap is for the bottle and it has the secure seal. 
     FIG. 2 is the cross-section of the cap with the convenient seal of sliding spout taken at the A--A line in FIG. 1. 
     FIG. 3 is the cross-section of the bottle having the cap with the convenient seal of sliding spout in the pouring beverage position. 
     FIG. 4 (A) is the cap with the convenient seal of sliding spout in the unopen position for the noncarbonated beverage; (B) is the cap with the convenient seal of sliding spout in the open position for the noncarbonated beverage; the cap has the pouring aperature with the secure seal. 
     FIG. 5 is the cross-section of the cap with the convenient seal of sliding spout in the closed position; the cap is for the can. 
     FIG. 6 is the cross section of the can with the convenient seal of sliding spout in the pouring beverage position. 
     FIG. 7 is the cross section of the can with the convenient seal of sliding straw in the unopen position. 
     FIG. 8 is the cross section of the cap with the convenient seal of sliding straw in the open position. 
     FIG. 9 is the top view of the can with the convenient seal of rotating straw in the closed position. 
     FIG. 10 is the cross section view of the convenient seal of rotating straw taken at B--B line in FIG. 9. 
     FIG. 11 (A) is the can with the convenient seal of rotating straw of carbonated beverage in the unopen position; (B) is the can with the convenient seal of rotating straw of carbonated beverage in the sipping position. 
     FIG. 12 (A) is the can with the convenient seal of rotating straw of noncarbonated beverage in the unopen position; (B) is the can with the convenient seal of rotating straw of noncarbonated beverage in the sipping position. 
     FIG. 13 (A) is the cap of carbonated beverage with the convenient seal of rotating straw in the closed position; (B) is the cap of carbonated beverage with the convenient seal of rotating straw in the sipping position. 
     FIG. 14 is the cross section of the cap with the convenient seal of rotating straw having the icy cube and collant houses. 
     FIG. 15 is the cross section taken at the C--C line in FIG. 14 for the cap having the ice cube and coolant houses. 
     FIG. 16 is the coolant pan/jack for the can. 
     FIG. 17 is the coolant pan/jack for the bottle. 
    
    
     DESCRIPTION OF THE PREFERRED EMBODIMENTS 
     My drink cap and drink can facilitate the opening, sealing and service of the beverage. They preserve the beverage in the best service conditions. The convenient seal of sliding/rotating spout/straw keeps the fragrancy and aeration of beverage. The coolant and/or ice cube houses keep the beverage at low temperature. They enable the beverage to be served in the outdoors athletics. There are several different caps and cans. FIG. 1, FIG. 2 and FIG. 3 show the cap 4 with sliding spout 1. It is designed for the bottle filled with the carbonated beverage. There are two kinds of sealing, the long-term secure sealing and the short term convenient sealing. The long term secure sealing relies on the seal of the scotched panel 4a, etc. The scotched panel 4a is the open-once seal. As long as the scotched panel 4a is opened, it no more has the sealing function. Then the seal relies on the short term convenient sealing of the sliding spout 1. FIG. 4 is the cap 4 for the bottle filled with the non-carbonated beverage. The aeration orifice 4q is included in the cap 4. FIG. 5 and FIG. 6 show the cap 3 with the convenient seal of sliding spout 1 for the can 11 filled with the carbonated beverage 10. FIG. 7 is the can 11 having the convenient seal of sliding straw 5 in the unopen position. FIG. 8 is the cap 31 having the convenient seal of sliding straw 5 in the open position. FIG. 9, FIG. 10 and FIG. 11 show the convenient seal of rotating straw for the can filled with carbonated beverage 10. FIG. 12 shows the convenient seal of rotating straw for the can filled with noncarbonated beverage 12. FIG. 13 shows the cap 51 equipped with the convenient seal of rotating straw for the carbonated beverage. FIG. 14 and FIG. 15 show the cap of the convenient seal of rotating straw equipped with the ice cube and/or coolant houses. FIG. 16 is the coolant pan/jack for the can to serve the cool beverage at low temperature. FIG. 17 is the coolant pan/jack for the bottle to serve the cool beverage at low temperature. 
     FIG. 1 shows the operation of the cap 4 being equipped with the convenient seal of sliding spout 1. The scotched panel 4a fits in the dent 1c. As shown in FIG. 2, the flanges 1b of the sliding spout 1 is held by the cap collar 4b. The cap collar 4b and the cap 4 form a slot for the sliding spout 1 to slide. In FIG. 1A, pushing the head 1a with the thumb, the convenient seal of sliding spout 1 slides on the cap 4. As the convenient seal of spout 1 slides, the dent 1c squeezes the secure seal of scotched panel 4a and the aperature 4p is opened as shown in FIG. 1B. Just with a single action of pushing the head 1a, the aperature 4a of cap 4 is opened and the beverage is ready to serve. A little portion of the rim of the secure seal of panel 4a is not scotched. So the detached secure seal of panel 4a still attaches to the cap 4. To keep the aeration of the carbonated beverage 10, before pushing the head 1a, the bottle 9 is tilt first as shown in FIG. 3. After the carbonated beverage 10 covers the aperature 4p, the drinker pushes the head 1a with thumb. Under the gas pressure in the bottle 9, the beverage 10 flows out of the port 2. After the cup being filled up, the drinker uses the thumb to pull back the head 1a to shut off the beverage and then raises up the bottle 9. With these operations, we keep the aeration and fragrance in the bottle 9. 
     For the noncarbonated beverage, the cap 4 has the vent orifice 4q sealed with the secure seal of scotched panel 4c as shown in FIG. 4. As the convenient seal of sliding spout 1 slides, both the secure seals of scotched panels 4a and 4c are gnawed by the convenient seal of sliding spout 1 and forced to open as shown in FIG. 4B. The air comes through the orifice 4q as the beverage 10 is poured out of the aperature 4p. As the convenient seal of sliding spout 1 is pulled back, the convenient seal of sliding spout 1 seals both aperatures 4p and 4q. 
     The sealing mechanism of the convenient seal of sliding spout 1 may be applied to the can cap 3 as shown in FIG. 5 and FIG. 6. The can cap 3 clamps on the top of can 11. 
     The projection 3d punches through the secure seals of scotched panel 11a on the top plate of the can 11. In FIG. 6, the drinker uses index finger to push the head 1a and pours the beverage 10 out of the port 2. As the cup is filled up, the drinker pulls back the convenient seal of sliding spout 1 to seal the can 11 first and then raises up the can 11. With the short term seal of the convenient seal of sliding spout 1, the aeration can be kept for a long time. 
     FIG. 7 is the can 11 equipped with the convenient seal of sliding straw 5 in the unopened position. Inside the can 11, there is a straw 24 attached to the rim of the scotched panel 11d. The scotched panel 11d fits in the dent 5c. As the convenient seal of sliding straw 5 is pushed with the index finger, the convenient seal of sliding straw 5 squeezes against the scotched panel 11d to open the aperature. FIG. 8 is the can cap 31 equipped with the convenient seal of sliding straw 5 in the open position. 
     The conduits in the convenient seal of sliding straw 5 and the straw 24 constitute the sipping passage for the beverage. 
     FIG. 9, FIG. 10 and FIG. 11 show the novel design of the can with the convenient seal of rotating straw 21. The drinker just pulls up the straw 21 attached on the top of the can 11 and the beverage 10 is ready to serve. Due to the long stem 21a of the convenient seal of rotating straw 21, the can 11 is very easy to open. The convenient seal of rotating straw 22 doesn&#39;t swivel so that it is easy for the drinker&#39;s mouth to catch the port 22 of the straw 21. Due to the seal of the head 21c of the convenient seal of rotating straw 21, the open area 21d is clean. The aeration in the can 11 is preserved so that the taste is always good. 
     FIG. 9 is the top view of the can in FIG. 11A. The convenient seal of rotating straw 21 fits in the slot 11a on the top cover on the can 11. This slot 11a may be manufactured with the pressing and/or stamping method. The mandrel 21b fits in the cup joint 11b. The convenient seal of rotating straw 21 is pivotally supported at the mandrel 21b. The scotched panel 11d fits in the dent 21d. The inner straw 24 attaches to the top cover of the can 11 along the rim of the scotched panel 11d. The drinker uses the finger to pull the convenient seal of rotating straw 21 at the port 22 and rotates the straw 21. The outer straw 21a, head 21c and the inner straw 24 constitute the passage for the beverage 10. The beverage 10 is ready to serve. The dent 21d gnaws the scotched panel 11d and pushes the panel 11d downward as shown in FIG. 11B. The scotched panel 11d has tiny portion of the rim not being scotched. As the scotched panel 11d is squeezed to open the aperature, the scotched panel 11d still attaches to the top cover 11a. 
     For the noncarbonated beverage 12, the convenient seal of rotating straw 21 needs an aeration orifice to balance the air pressure. In FIG. 12, the components of the aeration orifice are the dent 21e, scotched panel 11e and the dent 21f. As the convenient seal of rotaing straw 21 rotates, the dents 21d and 21e gnaw the scotched panels 11d and 11e. In FIG. 12B, the scotched panel 11d and 11e are pushed downward. The conduit for the beverage and the aeration orifice are opened. The aeration orifice is constituted of the dent 21f and the rim of the slot 11a. 
     The convenient seal of rotating straw 21 also applies to the can cap. There are the rotating straw can caps for the carbonated beverage and noncarbonated beverage. FIG. 13 shows the rotating straw can cap 51 for the carbonated beverage 10. The rotating straw 21 mounts on the can cap 51. By rotating the upper straw section 21a, the rotating head 21c, upper straw 21a and the bottom straw 24 constitute the conduit 22 for sipping. 
     To serve the cool drink 10 at low temperature in the sport enviroment, the cap 61 may include an coolant house 61b or ice cube house 61c. As shown in FIG. 14, the rotating straw can cap 61 includes the coolant house 61b. Inside the coolant house is the coolant 6. The coolant 6 has high heat capacity so that it can keep beverage 10 cool for a long time. FIG. 15 is taken at the line C--C in FIG. 14. FIG. 15 shows the composite structure of the convenient seal of rotating straw 21 having the coolant house 61b and the ice cube house 61c. Beneath the ice cube house 61c, there is one slit 8 to let the icy water flow out and mix with the beverage 10 in the can 11. In the static enviroment, the can and bottle may sits in the coolant pan/jack 30 as shown in FIG. 16 and FIG. 17. The coolant pan/jack 30 is filled with the coolant 31. 
     While present exemplary embodiments of this invention, and methods of practicing the same, have ben illustrated and described, it will be recognized that this invention may be otherwise variously embodied and practiced within the scope of the following claims.