CN209796250U - bottle cap with elastic pipe orifice - Google Patents

Abstract

The utility model provides a bottle cap with an elastic orifice, which is arranged on a container and comprises an elastic tube main body and a slender and elastic orifice; the tube body has a fluid collection area and a fluid discharge hole; the pipe orifice is arranged on the pipe main body and correspondingly communicated with the fluid discharge hole, and the pipe orifice is provided with a port for the beverage in the fluid collecting area of the pipe main body to flow out, so that when a user drinks, the beverage scattered at all positions of the bottle cap can be easily gathered through the beverage collecting area of the pipe main body and flows to the pipe orifice for the user to drink, and the beverage is prevented from remaining on the bottle cap. In addition, the pipe main body and the pipe orifice are simple in structural design and have elastic force, so that the pipe main body and the pipe orifice can be easily disassembled to be disassembled and assembled, and the pipe main body and the pipe orifice can be conveniently cleaned or appropriately stored.

Description

Bottle cap with elastic pipe orifice

Technical Field

The present invention relates to a bottle cap, and more particularly to a bottle cap with an elastic tube opening, which helps to collect and discharge beverage scattered around the bottle cap and prevent the beverage from remaining in the bottle cap.

Background

In order to facilitate drinking of the beverage in the container, a bottle cap which is easy to open and close is arranged at an opening at the upper end of the container, and the beverage in the container flows out directly on the bottle cap without opening the whole bottle cap.

Related containers and related closures have been manufactured and sold in the prior art for decades. For many years, these containers and closures have been designed to meet the specific needs of the user during various activities, for example, containers specifically designed for various activities such as running, cycling, hiking, rock climbing, driving a car, participating in sporting events, etc., for the user to replenish water or nutrients with one hand holding the container, which allows the user to drink the beverage from the container in a safe manner during the activity without injury, and further reduces the occurrence of accidental spillage or accidental tipping of the beverage container from the container, and which allows the beverage to remain poured as the air pressure in the interior of the container is controlled in a balanced manner.

While prior art closures have developed a number of functions to meet the various needs described above, some disadvantages have become apparent after prolonged use of these same prior art products.

For example, these prior art bottle cap designs do not address the need for many users to rapidly consume the beverage from a beverage container as they often engage in various activities. However, many athletes often need to use the bottle cap to conveniently take a large amount of beverage at a time while the user is performing the strenuous exercise activities. Generally, prior art closures are typically designed to not deliver large quantities of beverage quickly from a beverage container because of concerns about large quantities of beverage causing conditions such as accidental spillage of the beverage, and therefore, the beverage typically delivered from most closures is of a relatively small volume, and such closures often compromise the ability of the closure on the beverage container to dispense the beverage, and while the user is attempting to expel the entire beverage from the container, small quantities of beverage typically remain in the container forming a residue that often promotes microbial growth and further affects the operation of the beverage closure.

therefore, it would be beneficial in the future to be able to collect and drain beverage dispersed throughout the closure without the closure remaining in the closure.

From the above, there is still a need for further improvements of existing bottle caps.

SUMMERY OF THE UTILITY MODEL

The main object of the present invention is to provide a bottle cap with elastic opening, which has a beverage collecting area in the main body of the bottle cap, so that the user can easily collect the beverage scattered in the bottle cap through the beverage collecting area and drink the beverage through the beverage collecting area, thereby avoiding the beverage remaining on the bottle cap and effectively improving the existing bottle cap.

To achieve the above objects, the present invention provides a bottle cap with an elastic tube opening, which is disposed on a container and comprises a tube body with elasticity and a slender and elastic tube opening; the tube body has a fluid collection area and a fluid discharge hole; the pipe orifice is arranged on the pipe main body and correspondingly communicated to the fluid discharge hole, and the pipe orifice is provided with an end opening for the beverage in the fluid collection area of the pipe main body to flow out.

In an embodiment of the present invention, the tube main body is detachably mounted on a cap body of the bottle cap; wherein the cap body is detachably mounted on the container; wherein the cap body is capable of forming a sealed condition for the container.

In one embodiment of the present invention, the orifice of the tube body is non-linear in shape and extends laterally outward relative to the tube body to communicate with the tube body; wherein the lid body further comprises a top surface.

In an embodiment of the present invention, the cover body has a peripheral edge, and a peripheral sidewall is formed by extending the peripheral edge upward; wherein the cover body is provided with a bottom surface and is positioned in the inner cavity of the cover body; wherein the tube body is receivable within the interior cavity of the cap body; wherein the orientation of the tube body is fixedly positioned on the cap body.

In an embodiment of the present invention, the peripheral edge of the cover body is circular; wherein the tube body is semi-circular proximate the peripheral edge and fittingly nestable within the peripheral edge; when the cap body is mounted on the container, the tube main body can be communicated with the container.

in an embodiment of the present invention, the pipe openings of the pipe main body are not in the same direction and extend outward; wherein the nozzle is further provided with a fluid sealing flange and is engaged with the fluid discharge hole of the pipe body by means of the fluid sealing flange; wherein when the fluid sealing flange engages the fluid discharge aperture, beverage within the container can concentrate outwardly from the fluid discharge aperture.

In an embodiment of the present invention, the main tube is oriented on the cover body at an angle; wherein the fluid discharge orifice of the main tube is located within the peripheral sidewall of the cap body.

In one embodiment of the present invention, the fluid collecting region of the tube main body is located in the peripheral side wall of the cap body and is directionally disposed above the fluid discharge hole.

In an embodiment of the present invention, the bottle cap further has a cap cover, and the cap cover is rotatably disposed on the top surface of the cap body; wherein the nozzle cover can move arcuately between a closed position or an open position; wherein the spout cover is further capable of selectively moving along an arcuate path toward the closed position to forcibly bend and close at least a portion of the spout, and when the spout cover is moved to the closed position, the beverage in the container is not conducted to the port of the spout; the pipe port cover can also selectively move to the opening position along an arc-shaped path to release the sealing of the pipe port, and when the pipe port cover moves to the opening position, the beverage in the container can be conducted to the port of the pipe port.

In an embodiment of the present invention, the pipe port cover is detachably disposed on the cover body.

To achieve the above objects, the present invention further provides a bottle cap with an elastic tube opening, which is disposed on a container and includes an elastic tube main body and a slender and elastic tube opening; the pipe main body is provided with a fluid collecting area which is provided with a first end and a second end, wherein the pipe main body is provided with an outer edge which extends upwards, the cross section caliber of the first end of the pipe main body is larger than that of the second end, and the second end is provided with a fluid discharge hole; the pipe orifice is arranged on the pipe main body and correspondingly communicated to the fluid discharge hole, and the pipe orifice is provided with an end port for the beverage in the fluid collection area of the pipe main body to flow out; wherein the orifice is non-linear in shape and extends laterally outward relative to the tube body to maintain communication with the tube body.

In an embodiment of the present invention, the tube main body is detachably mounted on a cap body of the bottle cap; wherein the cap body is detachably mounted on the container; wherein the cap body is capable of forming a sealed condition for the container.

in one embodiment of the present invention, the orifice of the tube body is non-linear in shape and extends laterally outward relative to the tube body to communicate with the tube body; wherein the lid body further comprises a top surface.

In an embodiment of the present invention, the cover body has a peripheral edge, and a peripheral sidewall is formed by extending the peripheral edge upward; wherein the cover body is provided with a bottom surface and is positioned in the inner cavity of the cover body; wherein the tube body is receivable within the interior cavity of the cap body; wherein the orientation of the tube body is fixedly positioned on the cap body.

In an embodiment of the present invention, the peripheral edge of the cover body is circular; wherein the tube body is semi-circular proximate the peripheral edge and fittingly nestable within the peripheral edge; when the cap body is mounted on the container, the tube main body can be communicated with the container.

In an embodiment of the present invention, the main tube is oriented on the cover body at an angle; wherein the fluid discharge orifice of the main tube is located within the peripheral sidewall of the cap body.

In an embodiment of the present invention, the bottle cap further has a cap cover, and the cap cover is rotatably disposed on the top surface of the cap body; wherein the nozzle cover can move arcuately between a closed position or an open position; wherein the spout cover is further capable of selectively moving along an arcuate path toward the closed position to forcibly bend and close at least a portion of the spout, and when the spout cover is moved to the closed position, the beverage in the container is not conducted to the port of the spout; the pipe port cover can also selectively move to the opening position along an arc-shaped path to release the sealing of the pipe port, and when the pipe port cover moves to the opening position, the beverage in the container can be conducted to the port of the pipe port.

To achieve the above objects, the present invention further provides a bottle cap with an elastic tube opening, which is disposed on a container with a thread at an opening, and comprises a neck with an internal thread, a cap body, a tube opening cap, an elastic tube body, and a slender and elastic tube opening; the neck part is arranged on the container; the lower part of the cap body is provided with the neck part, wherein the cap body is detachably arranged on the container by virtue of the neck part, the cap body can enable the container to form a sealing state, the cap body is provided with a peripheral edge, and a peripheral side wall is formed by upward extension of the peripheral edge, the cap body is provided with a bottom surface and is positioned in the inner cavity of the cap body; the pipe orifice cover is rotatably arranged on the top surface of the cover body, wherein the pipe orifice cover can move in an arc shape between a closing position and an opening position, the pipe orifice cover can also selectively move to the closing position along an arc-shaped path, when the pipe orifice cover moves to the closing position, the beverage in the container is in a closed state, wherein the pipe orifice cover can also selectively move to the opening position along the arc-shaped path, and when the pipe orifice cover moves to the opening position, the beverage in the container is released from the closed state; the main body of the tube has a fluid collecting area with a first end and a second end, wherein the main body of the tube has an outside edge extending upwards, wherein the first end of the main body of the tube has a cross-sectional caliber larger than that of the second end, the second end is provided with a fluid discharge hole, wherein the main body of the tube communicates with the container when the cap body communicates with the container by means of the neck, wherein the main body of the tube is oriented fixedly on the cap body; the nozzle is arranged on the tube main body and correspondingly communicated with the fluid discharge hole, and is provided with a port for the beverage in the fluid collection area of the tube main body to flow out, wherein the shape of the nozzle is nonlinear and extends outwards transversely relative to the tube main body to be communicated with the tube main body, and the shape of the nozzle is nonlinear and extends outwards transversely relative to the tube main body to be communicated with the tube main body; the pipe port cover can also selectively move to the closing position along an arc-shaped path to forcibly bend and close at least one part of the pipe port, when the pipe port cover moves to the closing position, the beverage in the container can not be conducted to the port of the pipe port, wherein the pipe port cover can also selectively move to the opening position along the arc-shaped path to relieve the closing of the pipe port, and when the pipe port cover moves to the opening position, the beverage in the container can be conducted to the port of the pipe port.

In one embodiment of the present invention, the first end of the tube body is arcuate and positioned within the peripheral sidewall of the cap body; wherein the tube body can be received within the interior cavity of the cap body.

In an embodiment of the present invention, the main tube is oriented on the cover body at an angle; wherein the fluid discharge orifice of the main tube is located within the peripheral sidewall of the cap body.

In an embodiment of the present invention, a fluid collecting region is further disposed in the peripheral sidewall of the cap body.

Compared with the prior art, adopt above-mentioned technical scheme the utility model has the advantages of: when a user drinks, the beverage scattered at all positions of the bottle cap can be easily gathered by the beverage collecting area of the tube main body and flows to the tube opening for the user to drink, so that the beverage is prevented from remaining on the bottle cap. In addition, the pipe main body and the pipe orifice are simple in structural design and have elastic force, so that the pipe main body and the pipe orifice can be easily disassembled to be disassembled and assembled, and the pipe main body and the pipe orifice can be conveniently cleaned or appropriately stored.

Drawings

Fig. 1 is a schematic plan view of a combined side view of an embodiment of the present invention.

Fig. 2 is a schematic view of the hatch of fig. 1 being opened.

Fig. 3 is a schematic perspective view of the bottle cap of the present invention.

Fig. 4 is a schematic view of another angle (without a nozzle cap) of fig. 3.

Fig. 5 is a schematic plan view of the bottom view of fig. 3 (without the tube body).

Fig. 6 is a schematic view of the flap of fig. 3 removed.

Fig. 7 is a schematic view of another angle of fig. 6.

Fig. 8 is a schematic bottom plan view of fig. 3.

Fig. 9 is a schematic plan view of a side view of the tube main body and the tube orifice rotated by an angle according to the present invention.

Fig. 10 is a schematic view of an angle of fig. 9.

Fig. 11 is an angled schematic view of the top view of fig. 9.

Fig. 12 is a schematic side view of the actuation relationship between the nozzle and the nozzle cover of the present invention.

Description of reference numerals: 1, bottle cap; 10 a tube body; 11 a fluid collection zone; 111 a first end; 112 a second end; 12 a fluid discharge orifice; 13 outer side edges; 20 pipe orifices; 21 ports; 22 a fluid sealing flange; 23 tail ports; 30 a cap body; 31 a top surface; 32 a peripheral edge; 33 a peripheral side wall; 34 a bottom surface; 35 an inner cavity; 36 a fluid collection zone; 37 through holes; 38 air vent holes; 381 a vent valve; 39 a handle stand; a 40-pipe orifice cover; 41 closed position; 42 open position; 50 a neck portion; 51 internal threads; 60 a handle; 70 a switching device; 2, a container; 80 external threads; 3, preparing the beverage.

Detailed Description

The structure and the technical features of the present invention are described in detail in the following with reference to the drawings, wherein each drawing is only used to illustrate the structure relationship and related functions of the present invention, and therefore the size of each element is not set according to the actual proportion and is not used to limit the present invention.

Referring to fig. 1 to 12, the present invention provides a bottle cap 1 with an elastic nozzle, which is disposed on a container 2 and includes a tube body 10 with elasticity and an elongated and elastic nozzle 20; wherein the pipe body 10 has a fluid collecting region 11 and a fluid discharging hole 12; wherein the nozzle 20 is disposed on the tube body 10 and is correspondingly communicated with the fluid discharge hole 12, the nozzle 20 has a port 21 for flowing out the beverage 3 in the fluid collection area 11 of the tube body 10; as shown in fig. 1 and 2, in which the container 2 has an external thread 80 on the opening, the cap 1 is further mounted on the container 2 by means of a neck 50 having an internal screw 51 (shown in fig. 5 and 8) corresponding to the external thread 80 without limitation to cover the beverage 3 in the container 2, and the beverage 3 is not reduced by not being covered unless the user drinks the beverage or carelessly spills the beverage when the cap 1 is automatically disassembled.

Referring to fig. 2, the tube body 10 is detachably mounted on a cap body 30 of the bottle cap 1 without limitation; as shown in fig. 1, wherein the cap body 30 is detachably mounted on the container 2; as shown in fig. 1, wherein the cap body 30 enables the container 2 to be formed in a sealed state; wherein the orifice 20 on the tube body 10 is non-linear in shape and extends laterally outward relative to the tube body 10 to maintain communication with the tube body 10; as shown in fig. 1, the cap body 30 further includes a top surface 31; as shown in fig. 4, the cap body 30 further includes, but is not limited to, a through hole 37 and an air hole 38 of different sizes, and the through hole 37 and the air hole 38 and their functions will be discussed in more detail in the following paragraphs.

Referring to fig. 1 to 4, 6 and 7, the cover body 30 has a peripheral edge 32, and a peripheral sidewall 33 is formed by extending the peripheral edge 32 upward; as shown in fig. 5 and 8, wherein the cap body 30 has a bottom surface 34 and is located in the cavity 35 of the cap body 30; wherein the tube main body 10 can be accommodated in the inner cavity 35 of the cap body 30; wherein the orientation of the tube main body 10 is fixedly positioned on the cap body 30; as shown in fig. 1 and 2, the lid body 30 further has a rotatable handle 60 and a handle platform 39 for placing the handle 60, so that the user can conveniently carry the container 2 by means of the handle 60; as shown in fig. 1 and 2, the lid body 30 is also provided with a switch device 70, but not limited thereto, and the switch device 70 and its function will be discussed in more detail in the following paragraphs.

Referring to fig. 1 and 2, the bottle cap 1 further has a spout cover 40, but not limited thereto, the spout cover 40 being rotatably provided on the top surface 31 of the cap body 30; as shown in fig. 2, wherein the nozzle cover can move arcuately between a closed position 41 and an open position 42 (as shown by arrow a in fig. 2 and 12); wherein the spout cover 40 is further capable of selectively moving along an arcuate path toward the closed position 41 as shown by the direction of arrow a in fig. 2 and 12 to forcibly bend and close at least a portion of the spout 20, the beverage 3 in the container 2 being unable to conduct to the port 21 of the spout 20 when the spout cover 40 is moved to the closed position 41; wherein the spout cover 40 is also selectively movable in an arcuate path toward the open position 42, as indicated by the direction of arrow a in fig. 2 and 12, to unseal the spout 20, and the beverage 3 in the container 2 is conducted to the port 21 of the spout 20 when the spout cover 40 is moved to the open position 42, the movement between the closed position 41 and the open position 42 and the function thereof being discussed in more detail in the following paragraphs.

referring to fig. 8 to 12, the fluid collecting region 11 of the tube main body 10 has a first end 111 and a second end 112; wherein the tube body 10 has an outer edge 13 extending upward; wherein the first end 111 of the tube body 10 has a cross-sectional caliber larger than that of the second end 112, and the fluid discharge hole 12 is formed in the second end 112, so that the beverage 3 is not splashed on the user's body by a large amount at a time when the user drinks the beverage 3 in the container 2; wherein the tube body 10 is made of, but not limited to, food-grade materials having high safety and hygiene.

Wherein the peripheral edge 32 of the lid body 30 is circular but not limited as shown in fig. 4; wherein the tube body 10 is semi-circular proximate the peripheral edge 32 and is fittingly snugly disposed within the peripheral edge 32 as shown in FIG. 8; as shown in fig. 2, wherein the tube main body 10 is communicated to the inside of the container 2 when the cap body 30 is mounted on the container 2.

Referring to fig. 9, 10 and 12, the nozzles 20 on the tube body 10 are not oriented and extend outwardly in their entirety; as shown in fig. 9, 10 and 12, wherein the nozzle 20 is further provided with a rear port 23 at the other end of the port 21, the rear port 23 being connected to and communicating with the fluid discharge hole 12; as shown in fig. 9, 10 and 12, the nozzle 20 is further provided with a fluid sealing flange 22, and is engaged with the fluid discharge hole 12 of the pipe body 10 by means of the fluid sealing flange 22; wherein when the fluid sealing flange 22 is engaged with the fluid discharge hole 12, the beverage 3 in the container 2 can be concentrated to flow out from the fluid discharge hole 12; wherein the main tube 10 is oriented at an angle obliquely to the cover body 30 but not limited thereto; as shown in fig. 8, wherein the fluid discharge hole 12 of the main tube 10 is located in the peripheral sidewall 33 of the cap body 30; as shown in fig. 8, wherein the fluid collecting region 11 of the tube main body 10 is located in the peripheral side wall 33 of the cap body 30 and is oriented above the fluid discharge hole 12.

Wherein, when the tube main body 10 is mounted on the cap body 30, the nozzle 20 passes through the through hole 37 of the cap body 30 and is positioned at the through hole 37 as shown in fig. 7, so that the nozzle 20 is maintained at a stable position; as shown in fig. 4, wherein the through hole 37 is located at the top surface 31 of the cap body 30 without limitation.

In addition, the vent hole 38 of the cap body 30 is further provided with a vent valve 381 without limitation as shown in fig. 7 and 8, so that when a user drinks the beverage 3 in the container 2, the air pressure in the container 2 can be kept balanced to allow the beverage 3 to flow out smoothly.

Referring to fig. 7, the peripheral sidewall 33 of the cap body 30 also includes, but is not limited to, a fluid collection area 36 to help trap the beverage 3 inadvertently dispensed from the spout 20 from spraying onto the user.

Since the operation of the embodiment of the present invention is easily understood by the general person, the operation mode of the present invention is described in a brief description as follows:

The present invention provides a bottle cap 1 with an elastic nozzle, which collects the beverage 3 in the container 2 by the fluid collecting area 11 of the tube main body 10, guides the beverage 3 in the fluid collecting area 11 to the nozzle 20 of the tube main body 10 by the fluid discharging hole 12, and finally, the beverage 3 flows out from the port 21 of the nozzle 20 for the user to drink.

Since the tube main body 10 is detachably assembled with the cap body 30, when the cap body 30 is assembled with the container 2, the beverage 3 in the container 2 can flow into the tube main body 10; wherein, because the nozzle 20 is of a non-rigid structure design, the nozzle 20 can be pressed tightly or elastically restored and unblocked on the through hole 37 of the cap body 30, when the nozzle 20 is unblocked, the beverage 3 can flow into the tube main body 10 and then flow into the nozzle 20 from the tube main body 10.

as described in the above, the spout cover 40 of the present invention is rotatably disposed on the top surface 31 of the cover body 30 and can move along the arc between the closed position 41 and the open position 42, when the spout cover 40 is selectively moved to the closed position 41 along the arc path (as shown by arrow a in fig. 2 and 12), at least a portion of the spout 20 can be forcibly bent and closed, and when the spout cover 40 is moved to the closed position 41 (as shown in fig. 1), the beverage 3 in the container 2 cannot be conducted to the port 21 of the spout 20, so that the beverage 3 cannot overflow from the spout 20; when the spout cover 40 is selectively moved to the open position 42 along an arc-shaped path (as shown by arrow a in fig. 2 and 12), the spout 20 is unsealed, so that the beverage 3 in the container 2 can be conducted to the port 21 of the spout 20 for drinking.

Wherein, as shown in fig. 1 and fig. 2, when the pipe port cover 40 is at the closed position 41, the pipe port cover 40 is further fixed at the closed position 41 by the switch device 70; when the user releases the fixing of the opening and closing device 70 to the nozzle cover 40, the nozzle cover 40 can be rebounded to the open position 42 by the elastic force of the elastic reset of the nozzle 20, so that the user can operate the nozzle with one hand conveniently.

Therefore, the present invention provides a structure for a user to drink, which can easily collect the beverage 3 scattered around the bottle cap 1 through the beverage collecting region 11 of the tube body 10 and flow to the spout 20 for the user to drink, so as to prevent the beverage 3 from remaining on the bottle cap 1.

Furthermore, the utility model discloses a this pipe main part 10 and this mouth of pipe 20 structural design are simple and have elastic force for can easily dismantle between this pipe main part 10 and this mouth of pipe 20 and remove to join in marriage the group, so that clean or carry out suitable accomodating (if receive and release in clean box) with each primary structure, can further restrain or avoid microorganism growth or pollution, increase the life of product.

The foregoing description is intended to be illustrative rather than limiting, and it will be appreciated by those skilled in the art that many modifications, variations or equivalents may be made without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (21)

1. A bottle cap with an elastic nozzle, which is arranged on a container, is characterized by comprising:

A resilient tube body having a fluid collection region and a fluid discharge aperture; and

An elongated and elastic nozzle, which is arranged on the tube main body and is correspondingly communicated with the fluid discharge hole, and the nozzle is provided with a port for the beverage in the fluid collection area of the tube main body to flow out.

2. The bottle cap with an elastic nozzle according to claim 1, wherein: the tube main body is detachably mounted on a cap body of the bottle cap; wherein the cap body is detachably mounted on the container; wherein the cap body is capable of forming a sealed condition for the container.

3. The bottle cap with an elastic nozzle according to claim 2, wherein: the orifice in the tube body being non-linear in shape and extending laterally outward relative to the tube body in communication therewith; wherein the lid body further comprises a top surface.

4. The bottle cap with an elastic nozzle according to claim 3, wherein: the cover body is provided with a peripheral edge, and a peripheral side wall is formed by upward extension of the peripheral edge; wherein the cover body is provided with a bottom surface which is positioned in the inner cavity of the cover body; wherein the tube body is receivable within the interior cavity of the cap body; wherein the orientation of the tube body is fixedly positioned on the cap body.

5. The bottle cap with an elastic nozzle according to claim 4, wherein: the peripheral edge of the cover body is circular; wherein the tube body is semi-circular proximate the peripheral edge and fittingly nestable within the peripheral edge; when the cover body is arranged on the container, the tube main body can be communicated to the inside of the container.

6. The bottle cap with an elastic nozzle according to claim 5, wherein: the pipe orifices on the pipe main body are different in direction and extend outwards; wherein the nozzle is further provided with a fluid sealing flange and is engaged with the fluid discharge hole of the pipe body by means of the fluid sealing flange; wherein when the fluid sealing flange engages the fluid discharge aperture, beverage within the container can concentrate outwardly from the fluid discharge aperture.

7. The bottle cap with an elastic nozzle according to claim 6, wherein: the main tube is angularly oriented on the cover body; wherein the fluid discharge orifice of the main tube is located within the peripheral sidewall of the cap body.

8. The bottle cap with an elastic nozzle according to claim 7, wherein: the fluid collection area of the tube body is located within the peripheral sidewall of the cap body and is oriented above the fluid discharge aperture.

9. The bottle cap with an elastic nozzle according to claim 8, wherein: the bottle cap is also provided with a pipe orifice cover which is rotatably arranged on the top surface of the cap body; wherein the nozzle cover can move arcuately between a closed position or an open position; wherein the spout cover is further capable of selectively moving along an arcuate path toward the closed position to forcibly bend and close at least a portion of the spout, and when the spout cover is moved to the closed position, the beverage in the container is not conducted to the port of the spout; wherein the spout cover is also selectively movable along an arcuate path toward the open position to unblock the spout, and when the spout cover is moved to the open position, beverage in the container can be conducted to the spout port.

10. The bottle cap with an elastic nozzle according to claim 9, wherein: the pipe orifice cover is detachably arranged on the cover body.

11. A bottle cap with an elastic nozzle, which is arranged on a container, is characterized by comprising:

A resilient tube body having a fluid collection region with a first end and a second end; wherein the tube body has an upwardly extending outer edge; wherein the first end of the pipe body has a cross-sectional caliber larger than that of the second end, and the second end is provided with a fluid discharge hole; and

a slender and elastic nozzle, which is arranged on the tube main body and is correspondingly communicated with the fluid discharge hole, and the nozzle is provided with a port for the beverage in the fluid collection area of the tube main body to flow out; wherein the orifice is non-linear in shape and extends laterally outward relative to the tube body to maintain communication with the tube body.

12. The bottle cap with an elastic nozzle according to claim 11, wherein: the tube main body is detachably mounted on a cap body of the bottle cap; wherein the cap body is detachably mounted on the container; wherein the cap body is capable of forming a sealed condition for the container.

13. the bottle cap with an elastic nozzle according to claim 12, wherein: the lid body also includes a top surface.

14. The bottle cap with an elastic nozzle according to claim 13, wherein: the cover body is provided with a peripheral edge, and a peripheral side wall is formed by upward extension of the peripheral edge; wherein the cover body is provided with a bottom surface which is positioned in the inner cavity of the cover body; wherein the tube body is receivable within the interior cavity of the cap body; wherein the orientation of the tube body is fixedly positioned on the cap body.

15. The bottle cap with an elastic nozzle according to claim 14, wherein: the peripheral edge of the cover body is circular; wherein the tube body is semi-circular proximate the peripheral edge and fittingly nestable within the peripheral edge; when the cover body is arranged on the container, the tube main body can be communicated to the inside of the container.

16. The bottle cap with an elastic nozzle according to claim 15, wherein: the main tube is angularly oriented on the cover body; wherein the fluid discharge orifice of the main tube is located within the peripheral sidewall of the cap body.

17. the bottle cap with an elastic nozzle according to claim 16, wherein: the bottle cap is also provided with a pipe orifice cover which is rotatably arranged on the top surface of the cap body; wherein the nozzle cover can move arcuately between a closed position or an open position; wherein the spout cover is further capable of selectively moving along an arcuate path toward the closed position to forcibly bend and close at least a portion of the spout, and when the spout cover is moved to the closed position, the beverage in the container is not conducted to the port of the spout; wherein the spout cover is also selectively movable along an arcuate path toward the open position to unblock the spout, and when the spout cover is moved to the open position, beverage in the container can be conducted to the spout port.

18. the utility model provides a bottle lid with elasticity mouth of pipe, its locate an opening part have on the threaded container which characterized in that contains:

A neck with internal screw mosquito, which is arranged on the container;

a cap body, the neck part is arranged at the lower part of the cap body; wherein the cap body is detachably mounted on the container by means of the neck portion; wherein the cap body is capable of forming a sealed condition for the container; wherein the cover body has a peripheral edge, and a peripheral sidewall is formed by the peripheral edge extending upwards; wherein the cover body is provided with a bottom surface which is positioned in the inner cavity of the cover body;

The pipe orifice cover is rotatably arranged on the top surface of the cover body; wherein the nozzle cover can move arcuately between a closed position or an open position; wherein the spout cover is further selectively movable along an arcuate path toward the closed position, the beverage within the container forming a sealed condition when the spout cover is moved to the closed position; wherein the spout cover is further selectively movable along an arcuate path toward the open position, wherein the beverage in the container is released from the sealed condition when the spout cover is moved to the open position;

A resilient tube body having a fluid collection region with a first end and a second end; wherein the tube body has an upwardly extending outer edge; wherein the first end of the pipe body has a cross-sectional caliber larger than that of the second end, and the second end is provided with a fluid discharge hole; wherein when the cap body is in communication with the container via the neck, the tube body is in communication with the container; wherein the orientation of the tube body is fixedly positioned on the cap body; and

A slender and elastic nozzle, which is arranged on the tube main body and is correspondingly communicated with the fluid discharge hole, and the nozzle is provided with a port for the beverage in the fluid collection area of the tube main body to flow out; wherein the orifice is non-linear in shape and extends laterally outward relative to the tube body to maintain communication with the tube body;

Wherein the spout cover is further capable of selectively moving along an arcuate path toward the closed position to forcibly bend and close at least a portion of the spout, and when the spout cover is moved to the closed position, the beverage in the container is not conducted to the port of the spout; wherein the spout cover is also selectively movable along an arcuate path toward the open position to unblock the spout, and when the spout cover is moved to the open position, beverage in the container can be conducted to the spout port.

19. The bottle cap with an elastic nozzle according to claim 18, wherein: the first end of the tube body is arcuate and positioned within the peripheral sidewall of the cap body; wherein the tube body can be received within the interior cavity of the cap body.

20. The bottle cap with an elastic nozzle according to claim 19, wherein: the main tube is oriented on the cover body at an angle; wherein the fluid discharge orifice of the main tube is located within the peripheral sidewall of the cap body.

21. The bottle cap with an elastic nozzle according to claim 20, wherein: a fluid collecting area is also arranged in the peripheral side wall of the cover body.