WO2014043831A1

WO2014043831A1 - Beverage bottle with stored solute

Info

Publication number: WO2014043831A1
Application number: PCT/CN2012/001310
Authority: WO
Inventors: 宋旭彬
Original assignee: 广东海兴塑胶有限公司
Priority date: 2012-09-19
Filing date: 2012-09-26
Publication date: 2014-03-27
Also published as: CN102837893A; CN102837893B

Abstract

A beverage bottle with a stored solute. A screwing part (21) of a bottle cap main body (2) of the beverage bottle is screwed with a bottle neck of a bottle body. An inner cylinder part (22) of the bottle cap main body (2) is sleeved on a membrane cutting inner cylinder (3) and is snapped on an inner convex clamping rib (221) of the inner cylinder part (22) through a supporting step (36) of the membrane cutting inner cylinder (3). A pressing part (23) of the bottle cap main body (2) is abutted against the closed upper end of the membrane cutting inner cylinder (3). A deformation part (24) of the bottle cap main body (2) is abutted against a water outlet hole (32) of the membrane cutting inner cylinder (3). A water outlet cylinder part (25) of the bottle cap main body (2) forms a communicated water outlet passage structure when the deformable part (24) of the bottle cap main body gets away from the water outlet hole (32) of the membrane cutting inner cylinder. A drinking water suction drum (4) is slidably sleeved on the bottle cap main body (2) to form a switch control structure for the water outlet passage. A space for storing the solute is formed by a membrane (5) and the membrane cutting inner cylinder (3). The membrane cutting inner cylinder (3) is provided with double side membrane cutting edges (33, 34) to form double side membrane cutting structures for the membrane (5). The membrane cutting inner cylinder (3) is provided with a notch (35) to form a membrane adhesion structure for the membrane (5) after membrane being cut. The beverage bottle has the advantages of labor saving for pressing, good membrane cutting effect, quick solute release, complete release and capability of realizing direct drinking.

Description

Beverage bottle with stored solute

The present invention relates to a beverage bottle with a stored solute.

Background technique

At present, the beverage container has been blended with the good beverage. The blending of the specific active ingredient of the beverage and the purified water is completed on the production line. After that, it can be consumed by the consumer after the storage and transportation process. During this time, due to the temperature, etc. The influence of various factors, the material that has been blended and treated will have material reduction, and it will also produce qualitative change and taste change. In order to solve this problem, producers must add various measures such as anti-corrosion, preservation, quality assurance, and stable beverage composition. This not only requires more resources, increases production costs, but more importantly, it cannot achieve long-term preservation, quality assurance and stability in quality assurance. The purpose of the ingredients. Therefore, a beverage container designed by the consumer itself has been designed, for example, Chinese Utility Model No. 02276955.2, which discloses a beverage container equipped with a feeding cap, which is pierced with a plastic rod to pierce the plastic heat shrinkable sealing film to make the feeding cap The blending solution of the instant beverage powder falling into the bottle body, when the large amount of solutes are stored, the connecting edge of the sealing film becomes thick and requires a large force to be destroyed, so that the force of only one finger cannot be used. The pressure rod is effective to release the solute. At the same time, the local puncture makes the instant beverage powder drop very slowly, and the pure water in the feeding bottle is easily splashed into the inside of the sealing film, which causes the unfalling solute to agglomerate in the cap and cannot continue to fall.

Therefore, a beverage bottle cap suitable for storing a large amount of solute has been designed. For example, Chinese Patent No. 200810003651.0 discloses a bottle cap for storing solute, which adopts an inner cylinder body and an outer casing body, and can be used to make the inner cylinder with a small force. The lower end of the part breaks the sealing piece to release the solute, and can be applied to store a large dose of the solute to make the sealing piece difficult to be punctured. However, when the structure releases the Shield, the solute is in a negative pressure state, and the solute release process is slow. And the release is not complete; moreover, after the seal is punctured, after the solute enters the beverage bottle, the entire beverage bottle cap must be unscrewed before drinking.

Summary of the invention

The object of the present invention is to provide a belt for storing large doses of solute, pressing labor saving, good film cutting effect, quick release of solute, complete release, and direct drinking. Store solute beverage bottles.

The present invention achieves the above object: comprising a bottle body and a bottle cap, the bottle cap comprising a bottle cap body, a slit film inner cylinder and a drinking water pumping cylinder; the bottle cap body having a screwing portion, an inner cylinder portion, a pressing portion, and a deformation a connecting portion of the screwing portion and the inner tube portion, wherein the connecting end of the screwing portion and the inner tube portion are connected to the water outlet tube portion by a bendable deformation portion; the screwing portion of the bottle cap body is screwed to the bottle neck; the cap body The pressing portion cylinder is fixedly connected to the water discharge cylinder portion of the cap body through the rib; the inner tube portion of the cap body is provided with the inner tube of the slit film and is fastened to the inner convex portion of the inner tube portion by the supporting step of the inner tube of the slit film The pressing portion of the cap body is pressed against the closed upper end of the inner tube of the slit film; the deformed portion of the cap body is pressed against the water outlet hole of the inner tube of the slit film; and the deformation of the water discharge tube portion of the cap body at the cap body When the part is separated from the water outlet hole of the inner tube of the slit film, a water outlet passage structure is formed; the drinking water pump sleeve is sleeved on the outer side of the water outlet tube portion of the bottle cap body, and the cover of the drinking water pump tube constitutes a switch control structure for the water outlet passage; The lower end of the inner tube a limiting stud supporting a supporting step of the inner tube of the slitting film is disposed, and a diaphragm is disposed at a lower end of the inner tube portion of the cap body, and a space for storing the solute is formed by the diaphragm and the inner tube of the slit film; the inner tube of the slitting film is provided with double side cutting The membrane blade forms a double-sided slit film structure for the membrane; the slit inner cylinder is provided with a notch to form a membrane-attached membrane adhesion structure to the membrane.

According to the present invention, an annular groove is disposed outside the water discharge cylinder portion of the cap body, and the inner ring rib of the drinking water pump slides up and down in the annular groove to constitute an upper and lower limit structure of the drinking water pump.

According to the invention, the cap body can be sleeved with an outer cover.

The salient features and beneficial effects of the present invention:

1), after the pressing portion of the cap body is pressed against the inner tube of the slit film, the deformed portion of the cap body is separated from the water outlet hole of the inner tube of the slit film, and the water outlet hole of the inner tube of the slit film is a water outlet hole when drinking water, and the water outlet hole is When the solute falls, it is also the air inlet hole. When the diaphragm is cut, the space for storing the solute does not form a negative pressure, which is very favorable for the storage solute to fall quickly. The release of the stored solute is considered to be the pressure factor, so the solute is released quickly and released. Thorough

2), the inner tube of the slit film is provided with double side slitting blades to form a double-side slitting membrane structure for the diaphragm, so that the solute does not fall vertically when falling, but slides sideways from both sides, not only falling fast, but also avoiding The pure water in the bottle is easily splashed back inside the sealing film, so that the unfalling solute stores the solute in the cap. The space is agglomerated and cannot continue to fall; the membrane structure has obvious advantages over the previous needle-type membrane structure;

3), the inner tube of the slit film is provided with a gap to form a membrane adhesion structure after the film is cut, and the film is prevented from falling into the bottle body, thereby affecting drinking water;

4), the inner tube portion of the cap body is provided with the inner tube of the slit film and is fastened on the inner convex rib of the inner tube portion through the supporting step of the inner tube of the slit film, so as to avoid the bottle with the storage solute before being used, for example, during transportation. The inner cylinder of the slit film is broken due to the vibration;

5) The lower end of the inner tube portion of the bottle cap body is provided with a limiting card rib supporting the supporting step of the inner tube of the slit film, so as to prevent the inner tube of the slit film from falling into the bottle body, thereby affecting drinking water.

The invention is applied to store large doses of solute; has the advantages of low labor force, good film cutting effect, fast solute release, complete release, and direct drinking.

The following embodiments further illustrate the present invention in conjunction with the drawings.

DRAWINGS

1 is a perspective view showing a three-dimensional structure of an embodiment of the present invention when a solute is not released; FIG. 2 is a perspective view showing a three-dimensional structure of the embodiment of FIG.

Figure 3 is a schematic perspective view showing the structure of the bottle cap of the present invention when the solute is not released;

Figure 4 is a front view showing the structure of the bottle cap of the present invention when the solute is not released;

Figure 5 is a perspective view showing the three-dimensional structure of the embodiment of the present invention;

Figure 7 is a schematic perspective view showing the structure of the bottle cap of the present invention when the solute is released;

Fig. 8 is a front view showing the structure of the bottle cap of the present invention when the solute is released.

In the figure, 1, the bottle body; 2, the bottle cap body; 3, the film inner tube; 4, the drinking water pump; 5, the diaphragm; 6, the outer cover; 11, the bottle body bottleneck; 21, the tightening portion; 22, the inner tube portion; 23, the pressing portion; 24, the deformation portion; 25, the water outlet tube portion; 26, the rib rib; 31, the closed upper end of the inner tube of the slit film; 32, the water outlet hole of the inner tube of the slit film; 33, 34 , the inner tube of the slit film is provided with double side slitting blade; 35, notch; 36, the supporting step of the inner tube of the slit film; 41, the cover of the drinking water pump; 42, the inner convex ring of the drinking water pump; 221, the inner tube Inner convex reinforcement; 222, limit reinforcement; 251, annular groove; A, storage solute Space; B, water passage; Cl, the first direction of rotation of the diaphragm; C2, the second direction of rotation of the diaphragm.

detailed description

1 to 8, this embodiment is a beverage bottle with a storage solute, comprising a bottle body 1 and a bottle cap, the bottle cap comprising a bottle cap body 2, a slit film inner cylinder 3 and a drinking water pumping cylinder 4; a fastening portion 21, an inner cylinder portion 22, a pressing portion 23, a deformation portion 24, and a water discharge cylinder portion 25, and a connection end of both the screw portion and the inner cylinder portion is connected to the water discharge cylinder portion by a bendable deformation portion; The screwing portion of the main body is screwed to the bottle neck 11 of the bottle body; the pressing portion of the cap body is fixedly connected to the water discharge tube portion of the cap body through the rib 26; the inner tube portion of the cap body is set inside the cutting film The tube is fastened to the inner convex rib 221 of the inner tube portion through the supporting step 36 of the inner tube of the slit film, so as to avoid the rupture of the inner tube of the slit film due to vibration before use, for example, during transportation. The pressing portion of the main body is pressed against the closed upper end 31 of the inner tube of the slit film; the deformed portion of the main body of the cap is pressed against the water outlet hole 32 of the inner tube of the slit film, and the water outlet hole is a water outlet hole when drinking water, and the water outlet hole is dropped in the solute It is also the air inlet hole. When the diaphragm is cut, the solute is stored. A does not form a negative pressure, which is very advantageous for the storage solute to fall rapidly; the water discharge cylinder portion of the bottle cap body forms a communication water passage structure when the deformation portion of the bottle cap body is separated from the water outlet hole of the inner tube of the slit film; the drinking water pump slides the sleeve in the bottle The cover body 41 of the drinking water pump body constitutes a switch control structure for the water outlet channel B; the lower end of the inner tube portion of the bottle cap body is provided with a limiting stud 222 for supporting the support step of the inner tube of the slit film. The inner tube of the inner tube of the cap is prevented from falling into the bottle body; the lower end of the inner tube portion of the cap body is provided with a diaphragm 5, and the diaphragm and the inner tube of the slit film constitute a space A for storing the shield shield; the inner tube of the slit film is provided with a double side slit film blade 33, 34 constitutes the double side slit film structure of the diaphragm, so that the solute does not fall vertically when it falls, but slides sideways from both sides, not only the falling speed is fast, but also avoids the pure water in the bottle being easily splashed back to the sealing film. Internally, the space where the unfalling solute is stored in the cap to store the shield is agglomerated and cannot continue to fall; the inner cylinder of the slit is provided with a notch 35 to form a film-attached structure after the film is cut, and the film is prevented from falling into the bottle. An annular groove 251 is disposed outside the water outlet tube portion of the bottle cap body, and the inner convex rib 42 of the drinking water pump cylinder slides up and down in the annular groove to form an upper and lower limit structure of the drinking water pumping cylinder; Cover 6.

The use process of the present invention: referring to FIG. 1 to FIG. 8, when the pressing portion 23 of the cap body is pressed, The closed upper end 31 of the inner tube of the slit film is pressed, and the inner tube of the cut film is moved downward. The inner tube of the cut film is supported on the limiting rib 222 at the lower end of the inner tube portion of the cap body; meanwhile, the deformed portion 24 of the cap body is deformed. The deformed portion of the cap body is separated from the water outlet hole 32 of the inner tube of the slit film, and the water outlet hole is also the air inlet hole when the solute falls, because the diaphragm is moved downward to cut the diaphragm, and the space A for storing the solute is When the gas enters, the storage solute falls rapidly; the double-side slitting blades 33 and 34 disposed in the inner cylinder of the slit film form a double-side slitting membrane structure on the diaphragm, so that the diaphragm first along the double side shows the first rotation direction of the diaphragm C1 Rotating, the notch 35 provided in the inner tube of the slit film constitutes a film sticking structure after the film is cut, so that the film rotates in the second step of the rotation direction C2 along the other end of the notch, and the solute falls extremely fast during the whole process. There is no possibility that the pure water in the bottle will easily splash back into the space where the solute is stored, and the solute is completely released, and the space A in which the solute is stored does not remain solute. After shaking, the inner bead rib 42 of the drinking water pump slides up and down in the annular groove to form a switch under the drinking water, which can be directly consumed and closed.

Claims

Rights request

1. A beverage bottle with a storage shield, including a bottle body (1) and a bottle cap, characterized in that: the bottle cap includes a bottle cap body (2), a film-cut inner cylinder (3) and a drinking water pump ( 4); The bottle cap body has a tightening part (21), an inner cylinder part (22), a pressing part (23), a deformation part (24) and a water outlet cylinder part (25). The tightening part and the inner cylinder The connecting ends of the two parts are connected to the water outlet cylinder part through a bendable deformation part; the tightening part of the bottle cap body is screwed and connected to the bottle neck (11) of the bottle body; the pressing part cylinder of the bottle cap body The ribs (26) are fixedly connected to the water outlet cylinder of the bottle cap body; the inner cylinder of the bottle cap body is fitted with the film-cut inner cylinder and buckled on the inner cylinder through the support steps (36) of the film-cut inner cylinder. on the inner convex clamping rib (221); the pressing part of the bottle cap body presses against the closed upper end of the film-cutting inner cylinder (31); the deformed part of the bottle cap body presses against the water outlet hole of the film-cutting inner cylinder ( 32); The water outlet tube part of the bottle cap body forms a connected water outlet channel structure when the deformation part of the bottle cap body breaks away from the water outlet hole of the film-cut inner tube; the drinking water pump is slidably mounted on the outside of the water outlet tube part of the bottle cap body. , the cover (41) of the drinking water pump constitutes the switch control structure of the water outlet channel (B);

The lower end of the inner cylinder of the bottle cap body is provided with a limiting clamp (222) that supports the support step of the film-cut inner cylinder. The lower end of the inner cylinder of the bottle cap body is provided with a diaphragm (5). The diaphragm and The film-cutting inner cylinder constitutes a space (A) for storing solute; the film-cutting inner cylinder is provided with double side film-cutting blades (33, 34) to form a double-side film-cutting structure for the diaphragm; the film-cutting inner cylinder is provided with a gap (35) This constitutes the adhesion structure of the diaphragm after cutting the diaphragm.

2. The beverage bottle with stored solute according to claim 1, characterized in that: an annular groove (251) is provided on the outside of the water outlet barrel of the bottle cap body, and the inner convex rib (42) of the drinking water pumping barrel is ) slides up and down in the annular groove to form the upper and lower limiting structure of the drinking water pump.

3. The beverage bottle with solute storage according to claim 1 or 2, characterized in that: the bottle cap body (2) is equipped with an outer cap (6).