CN108937459B - Cup rotation stopper - Google Patents

Abstract

The invention discloses a cup rotation stopper, belongs to the field of cup holders and accessories thereof, and particularly relates to the field of accessories for boiling water with one hand. The cup rotation stopper is assembled in the fixed and restrained shell and consists of a fixed end, a rotation stopping belt and an enabling end; the rotation stopping belt is in a spiral shape, the upper end of the rotation stopping belt is connected with the fixed end, and the lower end of the rotation stopping belt is connected with the enabling end; the fixed end is fixedly connected with the shell, and the cup is arranged in the rotation stopper; the cup is pressed downwards and rotated simultaneously, the enabling end is contacted with the shell, the rotation stopping belt moves, and the rotation stopping belt tightly holds the cup to stop, so that the cup cover is opened. The cup holder is simple in structure, the existing cup holder can be directly additionally installed, the applicable range of the cup is wide, and the problems in the prior art are solved.

Description

Cup rotation stopper

Technical Field

The invention discloses a cup rotation stopper, belongs to the field of cup holders and accessories thereof, and particularly relates to the field of accessories for boiling water with one hand.

Background

The situation that the cup is opened by one hand is frequently encountered in daily life and work, for example, when an office works, one hand is busy, the cup cover is opened by one hand, particularly when a vehicle is driven, the steering wheel must be held by one hand constantly, at the moment, a driver can only open the cup cover by one hand for drinking, if the cup cover is screwed tightly or the cup cover bears pressure difference after the water temperature is cooled, the cup cover can be opened by one hand difficultly or even cannot be opened, and then the driving safety and the driving experience are influenced.

The prior art adopts a flip type cup cover or a straw type design. However, the style of the cup in the scheme is not necessarily suitable for most people, the cup cover of the threaded interface is also the choice of most people, and the prior art has no solution for the cup cover of the threaded interface.

In conclusion, the cup cover with the threaded interface is convenient to open by one hand by designing a scheme, and the blank in the prior art is filled.

Disclosure of Invention

The invention mainly aims to solve the problem that a cup cover with a threaded connector in the prior art is inconvenient to open or cannot be opened by a single hand, and provides a cup rotation stopper.

In order to achieve the above purpose, the scheme is as follows:

designing a cup rotation stopper which is assembled in a fixed and restrained shell and is characterized in that the rotation stopper consists of a fixed end, a rotation stopping belt and an enabling end; the rotation stopping belt is in a spiral shape, the upper end of the rotation stopping belt is connected with the fixed end, and the lower end of the rotation stopping belt is connected with the enabling end; the fixed end is fixedly connected with the shell, and the cup is arranged in the rotation stopper; the cup is pressed downwards and rotated simultaneously, the enabling end is contacted with the shell, the rotation stopping belt moves, and the rotation stopping belt tightly holds the cup for stopping.

Furthermore, the cup rotation stopper is characterized in that the rotation stopper belt is left-handed.

Furthermore, the cup rotation stopper is characterized in that the section of the rotation stopper belt is flat or round, and the inner surface of the rotation stopper belt has a larger friction coefficient.

Furthermore, the cup rotation stopper is characterized in that the bottom of the cup is in contact with the enabling end, the enabling end is driven by the cup to rotate, and then the rotation stopping belt is driven to move.

Furthermore, the cup rotation stopper is characterized in that the upper surface of the enabling end has a larger friction coefficient.

Furthermore, the cup rotation stopper is characterized in that the fixed end is annular, and the enabling end is disc-shaped.

Furthermore, the cup rotation stopper is characterized in that the rotation stopping belt is in contact with the inner wall of the shell when a cup is not placed in the cup.

Furthermore, the cup rotation stopper is characterized in that the number of the rotation stopper belts is not less than 2, and the rotation stopper belts are arranged in an axisymmetric manner.

Furthermore, the cup rotation stopper is characterized in that the fixed end, the rotation stopping belt and the enabling end are injected together.

Furthermore, the cup rotation stopper is characterized in that the enabling end is provided with a central supporting body, and the central supporting body is a boss protruding downwards from the center of the enabling end.

The cup holder is simple in structure, the existing cup holder can be directly additionally installed, the applicable range of the cup is wide, and the problems in the prior art are solved.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this application, illustrate embodiments of the invention and, together with the description, serve to explain the invention and not to limit the invention, in which:

FIG. 1 is a side view of a rotation stop;

FIG. 2 is a top view of the rotation stop;

FIG. 3 is a perspective view of the rotation stop;

FIG. 4 is a schematic view of the rotation stop incorporated into the housing;

FIG. 5 is an exploded view of the rotation stop, housing and cup;

FIG. 6 is a schematic view of a cup placed into the anti-rotation device and the housing;

FIG. 7 is a schematic view of a rotation stop with a central support added;

FIG. 8 is a schematic view of the rotation stop device with a central support and a housing;

FIG. 9 is a schematic view of a cup placed into a rotation stop (with the addition of a central support) and a housing;

FIG. 10 is a schematic view of the cup opening action;

FIG. 11 is a schematic view of the cup opening operation;

FIG. 12 is a schematic view of the rotation stop device with circumferential support;

FIG. 13 is a schematic view of the rotation stop device with the addition of circumferential support members and the housing;

FIG. 14 is a schematic view of a single anti-rotation belt arrangement of the anti-rotation device;

in the above, for the sake of clarity, the shells are all split along the axis; fig. 1 to 6 are first embodiment, fig. 7 to 11 are second embodiment, fig. 12 and 13 are third embodiment, and fig. 14 is fourth embodiment.

Labeled as:

1. a rotation stopper; 11. a fixed end; 12. a rotation stop belt; 13. an enabling end; 131. a central support; 132. an elastic support;

2. a housing;

3. a cup; 31. a cup body; 32. a cup cover.

Detailed Description

The following detailed description of the embodiments of the present invention will be given with reference to the accompanying drawings for a purpose of helping those skilled in the art to more fully, accurately and deeply understand the concept and technical solution of the present invention and to facilitate its implementation.

As shown in fig. 1 to 3, the rotation stopper 1 is composed of a fixed end 11, a rotation stopping belt 12 and an enabling end 13, the rotation stopping belt 12 is in a spiral shape and is in a left-handed rotation, the upper end of the rotation stopping belt 12 is connected with the fixed end 11, and the lower end is connected with the enabling end 13; the rotation stopper 1 is arranged in the shell 2, the fixed end 11 is fixedly connected with the shell 2, the cup 3 is arranged in the rotation stopper 1, and the bottom of the cup 3 is contacted with the enabling end 13;

the shell 2 is fixedly restrained by other objects;

as shown in fig. 10, the cup 3 is pressed down along the axial direction, and simultaneously, the cup is rotated counterclockwise (the cup cover 32 is seen from the direction of the cup body 31), the enabling end 13 is driven by the cup 3 to rotate, so as to drive the rotation stopping belt 12 to move, the rotation stopping belt 12 finally embraces the outer peripheral surface of the cup body 31 of the cup 3, the cup body 31 is stopped, and the cup cover 32 is continuously rotated to be opened.

The cup 3 is a strip-shaped object composed of a cup cover 32 and a cup body 31, the cross section of the cup can be circular, triangular or polygonal, the cross section of the cup can also be changed along with the length direction, and the cup cover 32 and the cup body 31 are separated through opposite rotation and are generally used for containing objects, more particularly liquid.

In more detail, the present invention is described in detail,

the first embodiment is as follows:

as shown in fig. 1 to 3, the fixing end 11 is annular, the enabling end 13 is disc-shaped, the fixing end 11 is located above the enabling end 13, and the axis of the fixing end 11 is collinear with the axis of the enabling end 13. The anti-rotation belt 12 is spiral, flexible and belt-shaped, the cross section is flat or round, the inner surface of the anti-rotation belt 12 is in contact with the cup 3, the inner surface of the anti-rotation belt 12 has a large friction coefficient, and further, the anti-rotation belt 12 is made of high friction coefficient, or the inner surface of the anti-rotation belt 12 is fixedly connected with a substance with a large friction coefficient, such as rubber, leather and the like; the upper end of the rotation stopping belt 12 is fixedly connected with the fixed end 11, and further fixedly connected with the inner ring of the fixed end 11; the lower end of the rotation stopping belt 12 is fixedly connected with the periphery of the enabling end 13. The axis of the helix of the anti-rotation band 12 is collinear with the axis of the fixed end 11 and the enabling end 13, respectively. The number of the rotation stopping belts 12 is not less than 2, and the rotation stopping belts are arranged in an axisymmetric mode. The rotation stop 1 is preferably made of plastic, and the fixed end 11, the rotation stop band 12 and the enabling end 13 are assembled or injection-molded together.

The portion of enabling end 13 in contact with the bottom of cup 3 may or may not have a high coefficient of friction (based on the premise that the friction of the inner surface of anti-rotation band 12 is sufficient), and preferably, the portion of enabling end 13 in contact with the bottom of cup 3 has a high coefficient of friction.

As shown in fig. 4 and 5, the housing 2, i.e., the cup holder, itself has been fixedly restrained by another object. The housing 2 may be a prior art cup holder, such as a cup holder for a cup 3 in an automobile interior, in which case the rotation stopper 1 acts as a separate accessory (separately available, retrofitted) so that the prior art cup holder extends to have the function of opening a cup with one hand; the housing 2 may also be a part of the rotation stopper 1, so that the rotation stopper 1 has both the rotation stopping function and the cup holder function (i.e. a cup holder with rotation stopping function), and further, the housing 2 and the fixed end 11 are assembled or injection molded together.

As shown in fig. 4, the fixed end 11 is fixedly connected to the housing 2, further, the fixed end 11 cannot rotate counterclockwise (from top to bottom) on the upper portion of the housing 2, and the housing 2 can bear the downward movement tendency of the fixed end 11, which satisfies the two points, that is, the fixed end 11 and the housing 2 can be assembled by a concave-convex matching geometry; the fixed end 11 and the housing 2 can also be fixedly connected by means of bonding.

As shown in fig. 4, the axis of the fixed end 11 substantially coincides with the axis of the housing 2. The rotation stopper 1 is placed in the shell 2, and when the cup 3 is not placed, namely in a free state (a state shown in fig. 4), a gap is formed between the bottom surface of the enabling end 13 and the inner bottom surface of the shell 2 (at this time, the gap is larger, and the gap is formed when the cup 3 is placed and screwed later); as shown in fig. 6, the diameter of the inner surface space of the rotation stop belt 12 of the rotation stop device 1 is smaller than the outer diameter of the cup 3, when the cup 3 is placed in the rotation stop device 1, the rotation stop belt 11 can hold the cup 3 tightly in advance, the bottom of the cup 3 is in contact with the enabling end 13, the enabling end 13 can move downwards under the action of the gravity of the cup 3, and because the bottom surface of the enabling end 13 has a large gap with the inner bottom surface of the housing 2 in a free state, after the cup 3 is placed in the cup, the bottom surface of the enabling end 13 still has a gap with the inner bottom surface of the housing 2.

When the cup cover 32 needs to be unscrewed, a force downward along an axis is applied to the cup cover 32 by one hand, and meanwhile, the cup cover 32 is rotated counterclockwise (shown in fig. 10), it is to be described in detail that when the force downward along the axis is applied to the cup cover 32, because a gap still exists between the bottom surface of the enabling end 13 and the inner bottom surface of the housing 2, the enabling end 13 is pressed downward by the cup 3, so that the enabling end 13 drives the rotation stopping belt 12, the rotation stopping belt 12 is elongated, the rotation stopping belt 12 can hold the cup 3 more tightly, and because the inner surface of the rotation stopping belt 12 has a larger friction coefficient, namely, a friction force exists between the rotation stopping belt 12 and the cup 3, which is enough to overcome the moment of rotating the cup cover 32, and finally the cup cover 32 is unscrewed. The cup is pre-tightened by axial movement in the whole unscrewing process, and the rotating angle of the cup 3 is smaller.

Example two:

in the first embodiment, when the cap 32 needs to be unscrewed, a gap is left between the enabling end 13 and the inner bottom surface of the housing 2, the space inside the housing 2 is occupied, and the application of a larger cup 3 is limited or the stability of the cup 3 placed too shallow is poor, so the following modifications are made on the basis of the first embodiment.

The following modifications are made on the basis of the embodiment, as shown in fig. 9: the part of enabling end 13 in contact with the bottom of cup 3 has a greater coefficient of friction, i.e. the upper surface of enabling end 13 has a greater coefficient of friction; when the cup 3 is put into the rotation stopper 1, the bottom of the cup 3 contacts the enabling end 13, and the bottom surface of the enabling end 13 contacts the inner bottom surface of the shell 2. Furthermore, the enabling end 13 is made of a material with a high friction coefficient, or a substance with a large friction coefficient, such as rubber, leather, etc., is fixedly connected to the upper surface of the enabling end 13.

When the cup cover 32 needs to be unscrewed, a force downward along an axis is applied to the cup cover 32 by one hand, and meanwhile, the cup cover 32 is rotated anticlockwise (shown in fig. 10), it is to be detailed that when the force downward along the axis is applied to the cup cover 32, because the part of the enabling end 13 contacting with the bottom of the cup 3 has a large friction coefficient, the enabling end 13 rotates along with the cup 3, the enabling end 13 drives the rotation stop belt 12 to move, the rotation stop belt 12 gradually embraces the cup 3, and because the large friction coefficient is arranged on the inner surface of the rotation stop belt 12, when the friction force between the rotation stop belt 12 and the cup 3 gradually increases until the moment for rotating the cup cover 32 is enough overcome, the unscrewing of the cup cover 32 is finally realized. In the whole unscrewing process, the cup rotates a small angle to reach a pre-tightening state, and the cup 3 does not need to move axially.

Because the bottom surface of the enabling end 13 is contacted with the inner bottom surface of the shell 2, if the contact surface is too large, when the cup 3 is driven to rotate, the radius of the friction force action is too large, and the friction resistance moment between the bottom surface of the enabling end 13 and the inner bottom surface of the shell 2 is too large, so that a large resistance moment is brought to the rotation of the cup 3, which needs to be eliminated as much as possible. As shown in fig. 7 to 11, a central support 131 is disposed at the center of the enabling end 13, the axis of the central support 131 coincides with the enabling end 131, the central support 131 is a boss protruding downward from the center of the enabling end 12, and is contacted with the inner bottom surface of the housing 2 by the central support 131, so as to reduce the acting radius of friction force, that is, reduce the moment of resistance to rotation of the enabling end 13, and the central support 131 may be a cylinder, a circular table, a spherical surface, or a revolving body with any curve. Of course, the center support 131 may be provided at the center of the inner bottom surface of the housing 2.

It should be noted that, in this embodiment, the rotation stopper 1 is placed inside the housing 2, and when the cup 3 is not placed, that is, when the cup is in a free state (fig. 8 state), preferably, the rotation stopper belt 12 may contact with the inner wall of the housing 2, so that a radial space may be left as much as possible, which is convenient for placing cups 3 of various thicknesses, and the cup 3 is taken and placed without resistance, so that the user has a good physical examination; in the second selection, the rotation stopping belt 12 is not in contact with the inner wall of the shell 2, namely the inner diameter of the rotation stopping belt 12 is smaller, the cup 3 is put into the rotation stopping belt 12 to be almost in a pre-tightening state, and the cup cover 32 can be unscrewed for the subsequent cups without rotating for a large angle.

Example three:

in the second embodiment, if the boss is provided at the center of the bottom surface of the enabling end 13, the enabling end 13 is supported by only one central point, and the rotation stop belt 12 is flexible and cannot stabilize the enabling end 13, when the cup 3 is placed, the cup 3 will shake along with the enabling end 13 and become unstable, so the following modifications are made on the basis of the second embodiment.

As shown in fig. 12 and 13, at least 3 elastic supporting bodies 132 are arranged on the periphery of the enabling end 13, the elastic supporting bodies 132 are uniformly distributed around the axis of the enabling end 13, the extending height of the elastic supporting bodies 132 in a free state is not less than the height of the central supporting body 131, when the cup 3 is placed on the upper surface of the enabling end 13, the elastic supporting bodies 132 can stably support the enabling end 13, and the cup 3 cannot shake along with the enabling end 13; when the cup 3 is pressed down, the elastic support 132 is compressed, so that the central support 131 plays a core supporting role.

Specifically, the resilient support 132 is in the form of a cantilever, the root of which is fixedly connected to the enabling end 13, the tip of which is biased away from the bottom of the enabling end 13, and the cantilever is oriented in the opposite direction to the rotation of the enabling end 13 when the cup 3 is unscrewed.

Example four:

in addition to the second or third embodiment, the structure can be simplified, and as shown in fig. 14, only one rotation preventing belt 12 may be provided, thereby obtaining the present embodiment.

In all the above embodiments, the smaller the pitch design of the rotation-stopping belt 12, the greater the radial force of the rotation-stopping belt 12 on the cup 3, and the smaller the axial force of the enabling end 13 on the bottom of the cup 3, the smaller the pitch of the rotation-stopping belt 12 is preferred.

The above is only a preferred embodiment of the present invention, and is not intended to limit the present invention, and various modifications and changes will occur to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (4)

1. A cup rotation stopper is assembled in a fixed and restrained shell (2), and is characterized in that the cup rotation stopper (1) consists of a fixed end (11), a rotation stopping belt (12) and an enabling end (13);

the anti-rotation belt (12) is in a spiral shape, the upper end of the anti-rotation belt (12) is connected with the fixed end (11), and the lower end of the anti-rotation belt (12) is connected with the enabling end (13);

the fixed end (11) is fixedly connected with the shell (2), and the cup (3) is arranged in the rotation stopper (1); the cup (3) is pressed downwards and rotated simultaneously, the enabling end (13) is contacted with the shell (2), the rotation stopping belt (12) moves, and the rotation stopping belt (12) tightly holds the cup (3) for stopping;

the rotation stop belt (12) is left-handed;

the section of the anti-rotation belt (12) is flat or round, and the inner surface of the anti-rotation belt (12) has a larger friction coefficient;

the bottom of the cup (3) is contacted with the enabling end (13), the enabling end (13) is driven by the cup (3) to rotate, and then the rotation stopping belt (12) is driven to move;

the upper surface of the enabling end (13) has a larger friction coefficient;

the number of the rotation stopping belts (12) is not less than 2, and the rotation stopping belts are arranged in an axisymmetric manner;

when the cup (3) is not placed, the rotation stop belt (12) is contacted with the inner wall of the shell (2).

2. A cup rotation stop according to claim 1, wherein the fixing end (11) is annular and the enabling end (13) is disc-shaped.

3. A cup rotation stop according to claim 1, characterized in that the fixed end (11), the rotation stop band (12) and the enabling end (13) are injection moulded together.

4. A cup rotation stop according to claim 1, wherein the enabling end (13) is provided with a central support (131), the central support (131) being a downwardly projecting boss in the centre of the enabling end (13).

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