NL1040880B1 - Dosing cup. - Google Patents

Abstract

Described is a dosing cup (1 00), comprising: - a container cup (110); - a drinking dish (120) which is fluid-tight to the container cup and has a bottom (121) and a central opening (124) in said bottom; - a tube (130) connecting tightly to said central opening and extending downwards from the drinking bowl (120); - a system of a plurality of portioning chambers (141) arranged rotationally symmetrically around a central axis. Each portioning chamber has a rear wall (147) that connects fluid-tight to the bottom; a closed top wall (142) that sealingly connects to the bottom edge of the tube; an entrance opening (143) located near the side wall (112) of the container cup (110); and an exit opening (144) adjacent its rear wall (147), each exit opening connecting to a separate, vertically oriented channel (134) located within the tube and communicating at the exit side with the opening in the bottom of the drinking bowl.

Description

FIELD OF THE INVENTION

The present invention relates generally to a drinking cup.

BACKGROUND OF THE INVENTION

Functionally, a drinking cup can be described as a container open at the top in which a drinkable liquid can be received, which a user can put on his lips to drink from the cup. In this case, as is generally known, the cup in question is held somewhat obliquely, so that the liquid level on one side reaches the upper edge of the cup and can enter its mouth via the lips of the user. The mouth is then filled with a certain volume of the liquid and swallowed. Here, there should be some coordination between the amount of fluid that flows into the mouth and the amount of fluid swallowed per sip, and one should have "mouthfeel", that is, the user should be able to feel that he has fluid in the mouth , how much liquid he has in his mouth, and at what time he must swallow. For some people, however, this coordination is no longer optimal, and / or the mouthfeel is reduced or absent. This may, for example, concern persons who are in need of assistance in any way. In such cases, it may be that the drinking cup is held at an angle, causing more liquid to flow out of the cup than the person can take in his mouth, i.e. the liquid drips along the person's face and clothing. This is already annoying. However, it is also possible that more liquid flows into the mouth than the person can swallow, so that this person chokes and / or liquid enters the windpipe, which may eventually even lead to pneumonia.

At least for this group of users there is a need for a dosing cup. By this is meant a cup that can be filled with a specific liquid supply, but in which only a specific maximum quantity can be dispensed at a time, smaller than the content of the supply. This maximum amount is referred to as "portion", and the size of the portion is referred to as "dosing volume". The dispensing is done by tilting the cup, and after dispensing the portion, the cup must first be held upright again before the next portion can be dispensed. This reduces the risk of spillage and / or choking, and it is achieved in any case that the amount of liquid that can be spilled has a certain maximum size. Furthermore, it is advantageous that drinking from this drinking cup is necessarily accompanied by a series of movements of lifting the cup to keep it tilted and keeping the cup straight again, which is easy for caregivers in the vicinity of the drinker. is perceptible and is therefore a good aid for rehabilitation.

A drinking cup that meets the above description will hereinafter be referred to as a measuring cup.

Dosing cups already exist, which consist of a lower compartment and an upper compartment, the lower compartment taking up the liquid supply and the upper compartment forming the drinking section, that is to say the section that the user puts on his lips. The top compartment has a bottom that becomes a narrow hollow tube that extends to the bottom of the bottom compartment. When such a dosing cup is held obliquely, substantially only that portion of the liquid can leave the cup, which is located inside the hollow tube. The remaining liquid can no longer enter the tube located near the bottom of the lower compartment in the oblique position of the dosing cup. A disadvantage of this known construction, however, is that the "dosing volume", which volume is equal to the volume of liquid within the tube, depends on the liquid height within this tube and thus decreases as the cup becomes emptier. A further drawback of this known dosing cup is that it is not possible to drink the cup completely empty.

There are also dosing cups that are asymmetrical in order to better enable the contents of the lower compartment to be completely emptied, that is to say that the residual volume that cannot be drunk from the cup is as small as possible. A drawback of such a cup, however, is that it can only be used in one direction. This means that the cup cannot be rotated freely through 360 ° around its vertical axis, but that there is one drinking position along the circumference of the upper edge where the user must place his lips: when the user places his lips on the opposite side , 180 ° away from this intended drinking place, then little or no liquid will come out of this cup.

SUMMARY OF THE INVENTION

It is an object of the present invention to eliminate or at least reduce one or more of the disadvantages mentioned. In particular, it is an object of the invention to design a dosing cup such that the dosing volume and the residual volume as a function of the position of the drinking place, measured in circumferential direction along the upper edge of the cup, is as constant as possible.

BRIEF DESCRIPTION OF THE DRAWINGS

These and other aspects, features and advantages of the present invention will be further elucidated by the following description of one or more exemplary embodiments with reference to the drawings, in which like reference numerals indicate like or similar parts, in which indications "below / above", "higher / lower "," left / right "etc only relate to the orientation shown in the figures, and in which: figure 1A schematically shows a perspective see-through drawing of a dosing cup; Figure 1B shows a vertical cross-section of the dosing cup of Figure 1A; Figure 1C shows a detail on a larger scale; Figure 1D shows a perspective bottom view of the dosing cup; Figures 2A-2C illustrate the use of a known dosing cup; Figure 2D shows a vertical cross-section of a known dosing cup; Figures 3A-3C illustrate the use of the dosing cup of Figure 1B.

DETAILED DESCRIPTION OF THE INVENTION

Figure 1A schematically shows a perspective, transparent drawing of a dosing cup 100 proposed by the present invention. Figure 1B shows a vertical cross-section of this dosing cup, and Figure 1C shows a detail on a larger scale. Figure 1D shows a perspective bottom view of the dosing cup.

The dosing cup 100 comprises single components, which can be made together as separate components, or which can be combined into a single integral part.

The dosing cup 100 comprises a container cup 110 with a bottom 111, an upright wall 112 and an upper edge 113. The container cup 110 preferably has a circular contour, so that it is rotationally symmetrical, but this is not essential for applying the present invention.

The dosing cup 100 further comprises a drinking bowl 120, with a bottom 121, an upstanding side wall 122 and an upper edge 123. The upper edge 123 is the actual drinking edge that the user puts at his mouth. The drinking bowl 120 is placed on top of the container cup 110, the top edge 113 of the container cup 110 connecting in a liquid-tight manner to the bottom 121 of the drinking bowl 120.

The container cup 110 forms a lower compartment closed by the drinking bowl 120, which can be filled with liquid. For filling the container cup with liquid, and for cleaning, the drinking bowl 120 can be detached from the container cup 110. The manner in which the drinking bowl 120 is mounted on the container cup 110 is not essential to the present invention, but this can be advantageously be a screw connection or a snap connection.

The drinking bowl 120 defines an upper compartment which is empty as long as the dosing cup is upright and which will partially fill with liquid when the dosing cup is tilted, as will be described below.

A hollow tube 130 is attached to the underside of the bottom 121 of the drinking bowl 120. The hollow tube can be a separate part attached to the drinking bowl 120, or can be formed as an integral whole with the drinking bowl 120. The tube 130 can form a whole over its entire length, but in the example shown, the tube 130 exists consisting of two portions, an upper portion 131 that is integral with the drinking bowl 120 and a lower tube portion 132 that is releasably coupled to the upper tube portion 131, which coupling is preferably fluid-tight.

The tube 130 connects to an opening 124 in the bottom 121 of the drinking bowl 120. At its lower side, the tube 130 extends to near the bottom 111 of the container cup 110. Preferably, the tube 130 does not touch the bottom 111 of the container cup 110.

The combination of drinking bowl 120, tube 130 and container cup 110 may already be referred to as a dosing cup. Functionally, such a cup has the effect that only a certain maximum volume can be dispensed: the dosing volume. This is illustrated in Figure 2A. The inner space of the tube 130 is indicated by 135, and the inner space of the container cup 110 outside the tube 130 is indicated by 115. When tilting this cup, only the volume of liquid within tube inner space 135 can flow through the opening 124 to the drinking bowl 120 . Figure 2B illustrates that this volume becomes smaller as the container cup 110 becomes emptier. Figure 2C illustrates that it is not possible to drink such a dosing cup completely empty: depending on the distance between the lower edge of the tube 130 and the bottom 111, there will be a residual volume that when tilting the cup is completely in the cup inner space 115 remains and thus cannot reach the output 124.

In the prior art there is also a dosing cup 200 outlined in Figure 2D, comprising a container cup 210 and a drinking bowl 220 with bottom 221 and a central downwardly extending tube 230. This tube is closed at its lower end. Included between the drinking bowl 220 and the container cup 210 is an intermediate member 240, which comprises a second tube 241, the upper end of which connects to a collar 242. The collar 242 forms a fluid-tight connection between the upper edge of the container cup 210, the tube 241, and the outer edge and bottom 221 of the drinking bowl 220. The second tube 241 is concentric with the first tube 230 and also has a closed end. A dosing space 201 is thus defined between the first tube 230 and the second tube 241, which dosing space is accessible through an opening 243 in the side wall of the second tube 241. Diametrically opposite this opening 243, the bottom 221 of the drinking bowl 220 is provided with a drinking spout 225 with an outflow opening 226 of the dosing space 201. An advantage of such an embodiment is that the dosing volume is less dependent on the height of the liquid level, but a drawback is that this cup can only be used by drinking via the one drinking spout 225 and thus cannot be used as a real drinking cup with a 360 ° drinking edge.

Reference is again made to figures 1A and 1B, and to figure 1D, which shows a perspective bottom view of the dosing cup 100, the bottom 111 of the container cup 110 being shown transparent.

In order to solve the aforementioned problems in a rotationally symmetrical manner, the dosing cup 100 has a system of a plurality of portioning chambers 141 arranged around a central axis of the metering cup 100. The portioning chambers 141 have substantially the same content. Each portioning chamber can have its own bottom part, separate from the bottom 111 of the container cup 110, but in the shown and discussed embodiment, the bottom of each portioning chamber 141 is formed by a portion of the bottom 111 of the container cup 110.

Each portioning chamber 141 is closed at its rear. In the embodiment shown and discussed, each portioning chamber 141 has a rear wall 147 located near the central axis which connects substantially liquid-tightly to the bottom of the portioning chamber, in this case thus to the bottom 111 of the container cup 110. The rear walls 147 of all portioning chambers together may be connected to each other, and may form a circular or polygonal cylinder, for example.

Each portioning chamber 141 has vertically oriented side walls 145 which extend from a position near the central axis, in this case therefore from the rear wall 147, to a location closer to the side wall 112 of the container cup 110. The side walls 145 can be radially oriented. The side walls 145 of a portioning chamber 141 can be mutually parallel. The side walls 145 of adjacent portioning chambers 141 may have a common, for example radially directed, side wall portion 146 adjacent the respective rear walls 147.

The side walls 145 in principle form a liquid-tight connection with the bottom of the portioning chamber, in this case the bottom 111 of the container cup 110.

Each portioning chamber 141 has a closed top wall 142 which sealingly connects to the bottom edge of the tube 130, and which is directed outwards from the tube 130. The upper wall 142 may be attached to the tube 130, and may be formed with the tube 130 as an integral whole. The top wall 142 does not connect in a liquid-tight manner to the side wall 112 of the container cup 110; in the example shown, there is a passage gap between the top wall 142 and the side wall 112 of the container cup 110. In the example shown, all the top walls 142 are connected to each other to form an integral disk having an outer diameter smaller than the inner diameter of the container cup 110 at that place.

Each portioning chamber 141 has an entrance opening 143 located near the side wall 112 of the container cup 110.

Each portioning chamber 141 is provided near its rear side with an exit opening 144 which connects to a separate, vertically directed channel 134 located within the tube 130. In the illustrated example, the exit opening 144 is formed by a gap between the upper wall 142 and the rear wall 147. The individual channels 134 all communicate with the opening 124 in the bottom 121 of the drinking bowl 120. In the example shown, the channels 134 extend to about halfway up the height of the tube 130 and merge into a common channel 135.

The individual channels could be formed by individual tubes or the like. In the illustrated embodiment, the individual channels are defined by a mandrel 150 disposed centrally within the tube 130 and provided on its outer surface with radially and longitudinally directed ribs 154 which connect to the inner wall of the tube 130. Alternatively, the ribs could also be formed are on the inner wall of the tube 130 and connect to the outer wall of the mandrel. The upper end of the mandrel 150 thus defines an exit opening for each channel 134. The exit opening 144 of a portioning chamber 141 forms an entrance opening of the respective channel 134. The channels 134 are insulated from each other between their entrance and exit openings.

The mandrel 150 is shown in the drawing as being hollow with a closed top end 151, but the mandrel may also be solid.

The lower end of the mandrel 150 connects in a liquid-tight manner to the rear of the portioning chambers 141, thus in this example to the rear walls 147 of the portioning chambers 141. In the example shown, these rear walls 147 form an integral whole with the mandrel 150, or in other words, the rear wall 147 of a portioning chamber 141 is formed by a portion of the lower end of the mandrel 150.

In the example shown, the mandrel 150 with the ribs 154, the disk 142 defining the upper walls of the portioning chambers 141, and the side wall portions 146,147 of the portioning chambers 141 are formed as an integral portioning member 140, the side wall portions 146,147 connecting the disk 142 to the mandrel 150, and wherein the ribs 154 are in line with the radially directed side wall parts 146.

The operation is as follows.

Figure 3A shows the dosing cup 100 with a container cup 110 partially filled with liquid W in an upright position. In this position, all portioning chambers 141 will be filled to the same extent with liquid.

Figure 3B shows the dosing cup 100 in a tilted position, to enable drinking. The user, not shown for the sake of simplicity, is located on the right-hand side of the figure. The portioning chambers 141A which are then draining will completely or partially deflate in the direction of the drinker, but the portioning chamber 141B directed away from the drinker and then collecting, that is to say the leftmost portioning chamber 141 shown in the figure, will behave as a scoop: the portion of liquid WB contained therein cannot flow away to the lower half of the cup (or to the right).

When tilting even further (see Fig. 3C), this filled portioning chamber 141B will be higher than the tube 130, which is now situated substantially horizontally, and via the corresponding exit opening 144, now located on the underside of the portioning chamber 141B, the corresponding channel 134 will contents of this portioning chamber 141B flow to the drinking bowl 120. For the sake of illustration, the liquid W is drawn both in the portioning chamber 141B and in the drinking bowl 120. Liquid WA from the other portioning chambers 141A remains in the container cup 110 below the drinking bowl 120.

Once the portioning chamber 141B is empty, the liquid flow stops. The portion of WB to be dispensed is almost completely determined by the volume of the portioning chamber 141B; the flow channel 134 is quite narrow, and a change in the height of the liquid W in the container cup 110 and thus in the height of the liquid column in the flow channel 134 will have little influence on the portion volume, as long as the liquid level in the upright position is even higher is then the level of the top wall 142 of the portioning chambers.

The bottom 111 of the container cup 110 is preferably, and as shown, recessed, that is, the central portion is lower than the edge portion. The shape of the bottom can be a portion of a spherical surface or conical surface. If a small leak opening is always provided on the underside of the side walls 145 and / or the rear walls 147, and / or, in the case that the potion chambers 141 have separate bottoms, if a small leak opening is always provided in the bottoms of the portioning chambers 141, when the dosing cup 100 is nearly empty and the cup is placed upright, the remaining liquid will collect in the center of the sloping bottom, always with a portion located in a direction away from the user "collecting" portioning chamber 141B. It is therefore possible to drink almost all of the liquid from the container cup 110, virtually nothing is left unused.

When the cup is rotated in its upright position (Figure 3A) about its vertical body axis, there will always be a different portioning chamber, the collecting portioning chamber. The opposite side seen from the drinker will, depending on the angle of rotation, always be aligned with a single portioning chamber, or with a partition between two adjacent portioning chambers, or an intermediate situation. The number of portioning chambers that behaves "collectively", and the extent to which, will depend on the total number of portioning chambers and on the angle of rotation, but the variation of the portion volume as a function of the angle of rotation will be relatively small.

An important advantage of the embodiment shown is that it is very easy to fill and to clean.

For filling, the liquid W could be poured into the drinking bowl 120. However, the drinking bowl 120 can also be disconnected from the container cup 110, and the liquid can be poured directly into the container cup 110.

Also for cleaning it is easy to disconnect the drinking bowl 120 from the container cup 110: the drinking bowl 120 is then lifted together with the tube 130 and the portioning member 140 from the container cup 110. The portioning member 140 can be disconnected from the tube 130, and one can disconnect the lower tube part 132 from the drinking bowl 120. The parts then obtained are easily accessible for cleaning.

It will be clear to a person skilled in the art that the invention is not limited to the exemplary embodiments discussed above, but that various variants and modifications are possible within the scope of the invention as defined in the appended claims. For example, two or more functions can be performed by a single entity. Even if certain features are mentioned in different dependent claims, the present invention also relates to an embodiment that has these features together. Features that are not explicitly described as being essential may also be omitted. Any reference numbers used in a claim should not be construed as limiting the scope of that claim.

Claims (21)

A dispensing cup (100), comprising: a container cup (110) with a bottom (111) and a side wall (112); a drinking dish (120) connecting liquid-tight to an upper edge (113) of the container cup (110) with a bottom (121) and a central opening (124) in said bottom; a tube (130) connecting tightly to said central opening (124) and extending downwardly from the drinking bowl (120); a system of a plurality of portioning chambers (141) arranged around a central axis of the metering cup (100); wherein each portioning chamber (141) has a closed top wall (142) that sealingly connects to the bottom edge of the tube (130); wherein each portioning chamber (141) has an entrance opening (143) located at a distance from the central axis of the dosing cup (100), and preferably near the side wall (112) of the container cup (110); wherein each portioning chamber (141) has an exit opening (144) located near the central axis of the dosing cup (100); each outlet opening (144) connecting to a separate channel (134) located vertically within the tube (130). wherein each channel (134) communicates on the output side with the opening (124) in the bottom (121) of the drinking bowl (120). The dosing cup according to claim 1, wherein the portioning chambers (141) are arranged rotationally symmetrically around the central axis of the dosing cup (100). The dosing cup according to claim 1 or 2, wherein the bottom of a portioning chamber (141) is formed by a portion of the bottom (111) of the container cup (110). The dosing cup according to claim 1 or 2, wherein a portioning chamber (141) has its own bottom, separate from the bottom (111) of the container cup (110). A dosing cup according to any one of claims 1 to 4, wherein each portioning chamber (141) has a rear wall (147) located near the central axis that connects substantially liquid-tightly to a bottom of said portioning chamber (141); The dispensing cup according to any one of claims 1-4, wherein each portioning chamber (141) has vertically directed side walls (145) which extend from a position near the central axis to a location closer to the side wall (112) of the container cup 110 . The dosing cup according to claim 6, wherein the side walls (145) of a portioning chamber (141) are radially oriented. The dosing cup according to claim 6, wherein the side walls (145) of a portioning chamber (141) are mutually parallel. The dosing cup according to claim 6, wherein the side walls (145) of adjacent portioning chambers have a common, for example radially directed, side wall portion (146). A dosing cup according to any one of the preceding claims, wherein each portioning chamber (141) has a small leak opening on its underside. A dosing cup according to any one of the preceding claims, wherein there is always a liquid passage between the upper walls (142) of the portioning chambers (141) and the side wall (112) of the container cup (110). A dosing cup according to any one of the preceding claims, wherein all the upper walls (142) of the portioning chambers (141) are connected to each other to form an integral disc having an outer diameter smaller than the inner diameter of the container cup (110). The dosing cup according to any of the preceding claims, wherein the channels (134) in the tube (130) merge into a common channel (135). A dosing cup according to any one of the preceding claims, further comprising a mandrel (150) disposed centrally within the tube (130) and a system of radially and longitudinally oriented ribs (154) which connect to the outer wall of the mandrel (150) and to the inner wall of the tube (130). The dosing cup of claim 14, wherein the ribs (154) are formed integrally with the mandrel (150). The dosing cup according to claim 14 or 15, wherein the lower end of the mandrel (150) connects in a liquid-tight manner to the rear walls (147) of the portioning chambers (141). The dosing cup according to claim 14 or 15, wherein rear portions (147) of the portioning chambers (141) form an integral whole with the mandrel (150). A dosing cup according to any one of the preceding claims, wherein all portioning chambers (141) are formed as an integral portioning member (140). The dosing cup according to any of the preceding claims 14-18, wherein the mandrel (150) and the portioning chambers (141) are formed as an integral portioning member (140). A dispensing cup according to any one of the preceding claims, wherein the bottom (111) of the container cup (110) is lower in its center than on its peripheral edge. « A dosing cup according to any one of the preceding claims, wherein the portioning chambers (141) have substantially the same content.