JP2021524766A - straw - Google Patents

Abstract

SOLUTION: The straw 1 is composed of two channels 2 and 3, and these channels are combined with each other to form one closed cross section, in which the edge region 4 overlaps. And, in a closed manner, they are stacked or engaged with each other so that the channels 2 and 3 are formed symmetrically with respect to the common axis of symmetry 5, in which case a) this. Whether the height h of these channels 2 and 3 with respect to the axis of symmetry 5 is smaller than the width b and / or b) the cross section of the channel 3 located inside is the same as the cross section of the channel 2 located outside. Or, they are formed somewhat larger, so there is stress between these channels 2, 3 where one is located in the other.

Description

The present invention relates to straws that can be combined from two channels and can be used several times.

Several uses require that the straw be washable on the inside as well.

From Patent Document 1 and Patent Document 2, it is known that the straw is pierced by a small brushing device in order to clean the straw. This technique of cleaning straws is laborious and unprofitable in terms of straw prices.

In order to obtain straws useful for automatic dishwashing, straws consisting of two channels have been developed, which can be combined into one canaliculus, one into the other, for drinking, and , Separable from each other for cleaning.

Patent Document 3 therefore describes one straw, in which both channels have separately arranged guides, such as dovetail guides, within the marginal region. These dovetail guides allow one to be pushed into the other, thus resulting in one closed tube.

The cylindrical straws described in Patent Document 4 can be manufactured more easily by industrial technology, in which the edge regions of both channels overlap each other after gathering and It is piled up.

This straw requires that at least one channel has a shell cross section greater than 180 ° in cross section.

U.S. Patent Application Publication No. 2017/02 168 90 A1 U.S. Pat. No. 6,039,490 C Korean Patent Application Publication No. 10 2018 000 133 1 A Specification U.S. Patent Application Publication No. 2019/003 80 58 A1

An object of the present invention is to guarantee a closed cross section for one straw reliably and at low cost when the two channels are coupled.

This problem is solved by the feature of claim 1. The advantageous configuration is the subject of the dependent claims.

A straw consisting of two channels
These channels are combined with each other to form one closed cross section,
Within this cross section, due to the straws in the form in which the edge regions overlap and are hermetically stacked and / or engaged into each other.
According to the present invention
It is intended that the channels are formed symmetrically with respect to a common axis of symmetry.
that time,
a) The height (h) of these channels with respect to this axis of symmetry is less than the width (b) and / or
b) The cross section of the channel located on the inside is formed to be the same as or somewhat larger than the cross section of the channel located on the outside, so between these channels where one is located inside the other. There is stress.

It is possible that these channel cross-sections are then configured to be elliptical, curved, polygonal, circular, and / or trapezoidal. In very special cases, it is possible that one channel is also formed as a strip.

The axis of symmetry is then a perpendicular to the longitudinal direction of the straw.

The coupling of both channels is done by a closet into one of the other or a plug into the other of the other.

In the closet into one other, the ends of one channel are inserted into the end of the other channel, and then the relative movement of these channels is performed by the action of force in the longitudinal direction of the straw. Means that. This technique is used in strong channel materials such as steel, specialty steel, or strong plastic.

Upon insertion into one of the other, these channels are superposed on the open side and one is pressed into the other by a lateral force action relative to the longitudinal direction of the straw. NS. For this purpose, at least one channel must consist of a highly flexible material, such as silicon, which material then expands after insertion into one other and at least , Form a geometric fit with the other channel.
According to the present invention, it is also intended that both channels are made of highly flexible material as well.

Advantageously, the thickness of the channel allows the elastic deformation of the channel, which is at least inside, when pushed into one other or inserted into one other. Allow under force.

Due to the non-circular cross-sectional configuration, parallel guide edges or guide bends are formed in the longitudinal direction of the straw, and these guide edges or guide bends in an advantageous manner allow the swirling of these channels to each other. Make sure to eliminate it.
This results in that the width of the overlapping edge regions is constant over the channel length and the cross section is always closed with this and remains sealed on both sides. Invite.

In the first configuration, at least in the outer channel, the marginal regions are bent inward and into this channel, so that these marginal regions surround the marginal region of the inner channel. Grasp from.

In other configurations, the rim regions of both channels are configured to be bent inward so that the rim regions of the outer channels grip the rim regions of the inner channels from the periphery. And these edge regions of the inner channel are in contact with the outer channel up to the unbent region of the outer channel.

As a special case of both of these configurations, it is intended that the inner channel is configured as a strip with or without bends.
As strips, such strips with flat or slightly curved surfaces are understood.

Bending, as used herein, means that the outer longitudinal portion of the edge region of the channel is distorted by a predetermined dimension. This bending can have a small angular radius of curvature or can be performed in a curved shape.

Instead of bending, the channel can also follow only an elliptical shape in cross section.

It is important that no additional guides are placed in these channels, but rather that these guides are given by themselves, so to speak, from the geometry of these channels. This significantly reduces costs, simplifies handling, prevents wear, and is more than, for example, cited Patent Document 3 in which residual beverage components can still accumulate in the dovetail guide. It is hygienic.

The channel edges should be rounded, at least in the outer channels, to create a comfortable drinking sensation when using straws.

Force engagement and / or frictional engagement between channels in which one is pushed into the other or one is plugged into the other due to the tightness of the combined channels. Is present and is purposeful if these engagements can be overcome by human power because of the separation.

The force to be consumed for pulling a channel pushed into the other should be a value between 1 and 50N, preferably between 8 and 20N.

When using a highly flexible material, both channels can be separated from each other, similar to the removal of banana peel.

Yet another configuration is intended to provide a combination of strong channels with channels made of highly flexible material, or a combination of channels made of highly flexible material, as curved straws. do.

Curved shape means that the combined channels are then curved over the entire channel length or only within a predetermined portion, preferably within the last third in front of the drinking opening. means.

These channels made of a strong material, or one channel made of a highly flexible material, are then pre-curved, whereas each has a second channel in the other. Fits to engage at least in shape when plugged into.

Advantageously, since the strip has a very small section coefficient, the matching channel is formed as the strip, which keeps the bond tight over the entire channel length. ..

Alongside the benefits already mentioned above
A straw according to the present invention having a height (h) smaller than the width (b)
It has additional advantages: that is,
-Channel openings are larger than for cylindrical channels, which makes cleaning easier,
-The operating surface of the human hand becomes larger when moving away from each other, which facilitates this process and the use of additional grips as in Patent Document 4. Make it unnecessary,
-The outer surface of the outer channel is larger, so suitable ads can be served more effectively,
-If both channels are made of highly flexible material, the straw can be similarly curved without being unsealed,
Has the advantage of that.

The present invention will be described with reference to the drawings.

It is a figure of a straw having a circular cross section. It is a figure of a straw having an elliptical cross section. FIG. 5 is a diagram of a straw with a bent outer channel. It is a figure of a straw having a bent channel. FIG. 3 is a special case diagram according to FIG. 3 or 4, having a channel as a strip, having a curved outer channel. It is a figure which has a trapezoidal outer channel. It is a figure of the combination of a special steel and a highly flexible material. It is a figure of a curved straw. FIG. 5 is a view of yet another advantageous cross section of the combined channels.

FIG. 1 shows a straw with two channels 2, 3 and these channels are pushed into one straw 1 with a circular cross section, one into the other.
The cross section of the inner channel 3 is the same as or slightly larger than the cross section of the outer channel 2, so between channels 2 and 3 where one is located in the other, There is stress.

In this configuration, it is a problem to achieve the illustrated ideal state, that is, the overlap region is as constant as possible with respect to the length of the straw 1. At that time, markings indicating accurate positioning are useful.

Further, in the separately illustrated solution, this problem does not exist. This is because these solutions ensure accurate mutual positioning of channels 2, 3 based on these geometries.
Within that cross section, the edge regions 4 overlap and are hermetically stacked or engaged into each other, one being pushed into the other and one closed cross section. In this straw 1 composed of two channels 2 and 3 to be formed, these channels 2 and 3 are formed symmetrically with respect to the axis of symmetry 5 common to each of them, and at this time, these channels 2 with respect to the axis of symmetry 5 are formed. The height (h) of 3 is smaller than the width (b).

FIG. 2 shows one configuration having an elliptical shape in four figures, one belonging to it in cross section.
This configuration has also demonstrated to be very good and useful for highly flexible channel materials. In both channels 2 and 3, the channel edge portion 7 is formed to be rounded.

In the configuration according to FIG. 3, in the outer channel 2, the edge region 4 is bent inward and into the channel 2, so that these edge regions 4 are of the inner channel 3. The edge region 4 is gripped from the periphery.

In the configuration illustrated in FIG. 4, the edge regions 4 of both channels 2 and 3 are configured to be bent inward so that the edge region 4 of the outer channel 2 is inner. The edge region 4 of the channel 3 is gripped from the periphery, and these edge regions 4 of the inner channel 3 are in contact with the outer channel until it reaches the unbent region of the outer channel 2. There is.

As can be seen from the figure, during bending, the outer longitudinal portion of the edge region 4 of channels 2 and 3 is distorted by a predetermined dimension. This bending-as shown-has a small angular radius of curvature. If the radius of curvature is larger and has the shape of an arc, the cross section is approximated to an elliptical shape.

In the special case of the straw 1 illustrated in FIGS. 3 and 4, it is intended that the inner channel 3 is configured as a strip with or without a bend.
This is shown in FIG. 5 in the curved outer channel 2 and in FIG. 6 in the trapezoidal outer channel 2.

FIG. 7 shows one straw 1, in which the outer channel 2 is made of special steel and the inner channel 3 is made of a highly flexible material such as silicon. There is. The combination of these channels 2 and 3 is done by inserting one into the other, and the separation is done by pulling the inner channel 3 apart, as shown.

In FIG. 8, the curved straw 1 is illustrated in the two figures. Similarly, here again, the outer channel 2 is made of special steel. This outer channel is pre-curved in the upper third in front of the drinking opening. The inner channel is here a strip of highly flexible material.

The combination of these channels 2 and 3 is done by inserting one into the other, and the separation is done by pulling the inner channel 3.
The use of strips as the inner channel 3 follows the outer channel 2 upon insertion into one and the other, and is hermetically abutted in the bent region 6 of this outer channel. The strip has the advantage of having a very small moment of inertia.

FIG. 9 shows yet another advantageous cross section of the combined channels, each bent into a quadrangle, hexagon, and triangle.

Due to the selected geometry of height (h) and width (b), the bend or bend serves as a guide for the outer channel 2 when the channels 2 and 3 are jumbled together. ..

This guarantees a constant overlap area over the length of straw 1. The geometry selected and the material used allow for a curved straw 1, or the straw 1 can be curved for drinking.

Finally, it is further instructed to refer to an advantageous configuration, in which one channel is formed in a spoon shape at the end. Along with this, this straw is also given a spoon function. Advantageously, the spoon-like formation takes place in one channel made of a strong material.

1 Straw 2 Outer channel 3 Inner channel 4 Channel edge area 5 Symmetric axis 6 Channel bent area 7 Channel edge

Claims (16)

A straw (1) consisting of two channels (2, 3)
These channels are combined with each other to form one closed cross section,
Within this cross section, in the straws of the form in which the edge regions (4) overlap and are hermetically stacked or engaged into each other.
The channels (2, 3) are formed symmetrically with respect to the common axis of symmetry (5), in which case.
a) The height (h) of these channels (2, 3) with respect to this axis of symmetry (5) is less than the width (b) and / or
b) The cross section of the channel (3) located inside is formed to be the same as or somewhat larger than the cross section of the channel (2) located outside, so one is located in the other. Stress exists between these channels (2, 3),
A straw (1) characterized by this. The straw (1) according to claim 1, wherein the coupling of both said channels (2, 3) is performed by a closet into one of the other or a plug into the other of the other. .. Upon pushing into one of the other, the inner end of the channel (3) is charged into the outer end of the channel (2) and
The straw (1) according to claim 2, wherein the relative movement of these channels (2, 3) is then performed by a force action in the longitudinal direction of the straw. Upon insertion into one of the other, the channels (2, 3) are superposed on the open side and placed on top of each other.
The straw (1) according to claim 2, wherein one is pressed into the other by a lateral force action with respect to the longitudinal direction of the straw. The thickness of the channel (2, 3) is the elasticity of the channel (3) located at least inside when pushed into the other of the one or inserted into the other of the one. The straw (1) according to any one of claims 2 to 4, wherein the deformation is allowed under the force action of a human hand. At the time of the overlapping edge region (4), at least in the outer channel (2), the edge region (4) is bent inward and into the channel (2). ,
Therefore, according to any one of claims 1 to 5, these edge regions (4) grip the edge region (4) of the inner channel (3) from the periphery. Straw (1). The edge region (4) of both the channels (2, 3) is configured to be bent inward.
Therefore, the edge region (4) of the outer channel (2) grips the edge region (4) of the inner channel (3) from the periphery, and the inner channel (3). Any one of claims 1 to 6, wherein the edge region (4) is in contact with the outer channel up to the unbent region of the outer channel (2). One of the straws (1). The straw (1) according to claim 6 or 7, wherein the inner channel (3) is configured as a strip having or without a bend. Any one of claims 6 to 8, wherein the bending of the edge region (4) of the channels (2, 3) is performed with a small angular radius of curvature or in a curved shape. One of the straws (1). The straw (1) according to any one of claims 1 to 9, wherein the combined channels (2, 3) follow an elliptical shape, a polygonal shape, or a circular shape in a cross section. .. The straw (1) is formed in a curved shape.
The combination of a strong channel (2 or 3) and a channel made of a highly flexible material (3 or 2) or a combination of a channel made of a highly flexible material (2, 3) is curved. It is provided as a straw and
The channel (2 or 3) made of a strong material or one channel (2 or 3) made of a highly flexible material is pre-curved, whereas each of the other channel (2 or 3) The straw (1) according to any one of claims 1 to 10, wherein 3 or 2) is fitted so as to engage at least in shape when inserted into one of the other. .. The straw (1) according to claim 11, wherein the matching inner channel (3) is formed as the strip because the strip has a very small moment of inertia. The straw (1) according to any one of claims 1 to 12, wherein the channel edge portion (7) is formed by being rounded at least in the outer channel (2). There are force engagements and / or frictional engagements between the coupled channels (2, 3), which are characterized by being able to be overcome by human force due to separation. The straw (1) according to any one of claims 1 to 13. The force to be consumed for pulling the channels (2, 3) one pushed into the other is a value between 1 and 50N, preferably between 8 and 20N. The straw (1) according to claim 14, wherein the straw (1) is characterized by being. Separation of these channels (2, 3), in which at least one of the channels is made of a highly flexible material, is by separating one of the channels from the other channel (2, 3). The straw (1) according to any one of claims 1 to 15, characterized in that it can be performed.

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