CN113401497B - Storage bin type bottle cap - Google Patents

Abstract

The invention discloses a storage bin type bottle cap which comprises an outer cap, an inner cap, a bin cap and a first locking mechanism, wherein the outer cap is provided with an extension sleeve, the inner cap is arranged below the outer cap, the inner cap is provided with a bin and a connecting through hole, the bin is arranged at the bottom of the inner cap, the connecting through hole penetrates through the inner cap, the bin cap is arranged at the bottom of the bin, the bin cap is provided with a connecting rod, the connecting rod extends into the outer cap through the connecting through hole, the first locking mechanism is arranged between the connecting rod and the extension sleeve, and the first locking mechanism is used for connecting the connecting rod and the extension sleeve to prevent the bin cap from being separated from the outer cap; wherein the connecting rod in the extension sleeve is pushed to move downwards to open the bin cover. When the bin cover needs to be opened, the connecting rod and the extension sleeve are locked by the arranged first locking mechanism in the process of pushing the connecting rod to move downwards, so that the bin cover cannot fall into a bottle without being separated from the outer cover, and the safety coefficient is higher.

Description

Storage bin type bottle cap

Technical Field

The invention relates to the technical field of bottle caps, in particular to a storage type bottle cap.

Background

With the development of food packaging technology, a bottle cap for blending beverages is provided, materials are stored in a storage bin of the bottle cap in advance, and released materials are fused with liquid in a bottle when the bottle cap is used, so that the purpose of blending the beverages is achieved, the quality guarantee period of the beverages can be prolonged, and the addition of preservatives is reduced.

However, the bottle caps have potential safety hazards, and when the storage bin is opened, the storage bin cap is easy to fall into the bottle, so that the safety factor is low.

Disclosure of Invention

The invention aims to provide a storage bin type bottle cap, and aims to solve the problem that in the prior art, a storage bin cap is easy to drop into a bottle, so that potential safety hazards exist.

The embodiment of the invention provides a storage type bottle cap which comprises an outer cap, an inner cap, a storage bin cap and a first locking mechanism, wherein the outer cap is provided with an extension sleeve; the inner cover is arranged below the outer cover, the inner cover is provided with a stock bin and a connecting through hole, the stock bin is arranged at the bottom of the inner cover, and the connecting through hole penetrates through the inner cover; the bin cover is arranged at the bottom of the bin, a connecting rod is arranged on the bin cover, and the connecting rod extends into the outer cover through the connecting through hole; the first locking mechanism is arranged between the connecting rod and the extension sleeve and used for connecting the connecting rod and the extension sleeve and preventing the bin cover from being separated from the outer cover; wherein the connecting rod in the extension sleeve is pushed to move downwards to open the silo cover.

According to the embodiment of the invention, when the bin cover needs to be opened, the connecting rod and the extension sleeve are locked by the first locking mechanism in the process of pushing the connecting rod to move downwards, so that the bin cover cannot fall into a bottle without being separated from the outer cover, and the safety coefficient is higher.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural view of a storage-type bottle cap according to an embodiment of the present invention;

fig. 2 is another schematic structural view of the storage-type bottle cap according to the embodiment of the present invention;

FIG. 3 isbase:Sub>A schematic cross-sectional view taken along line A-A of FIG. 2;

FIG. 4 is another view of FIG. 3;

FIG. 5 is another schematic view of FIG. 3 from another perspective showing the unlocking of the second locking mechanism by rotating the outer cover;

fig. 6 is another schematic structural view of the storage-type bottle cap according to the embodiment of the present invention;

FIG. 7 is a cross-sectional view taken along line B-B of FIG. 6;

FIG. 8 is another schematic view of FIG. 7;

FIG. 9 is a schematic structural diagram of an outer cover according to an embodiment of the present invention;

FIG. 10 is a schematic view of another structure of the cover according to the embodiment of the present invention;

FIG. 11 is a schematic view of another structure of the cover according to the embodiment of the present invention;

FIG. 12 is a schematic view of a structure of a lid of the storage bin according to an embodiment of the present invention;

FIG. 13 is a schematic view of an inner lid according to an embodiment of the present invention;

FIG. 14 is another schematic view of an inner lid constructed in accordance with an exemplary embodiment of the present invention;

FIG. 15 is a schematic structural view of an outer lid and a bin lid according to an embodiment of the present invention;

fig. 16 is another structural schematic diagram of the outer cover and the bin cover according to the embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

It will be understood that the terms "comprises" and/or "comprising," when used in this specification and the appended claims, specify the presence of stated features, integers, steps, operations, elements, and/or components, but do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, and/or groups thereof.

It is also to be understood that the terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used in the specification of the present invention and the appended claims, the singular forms "a," "an," and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise.

It should be further understood that the term "and/or" as used in this specification and the appended claims refers to any and all possible combinations of one or more of the associated listed items and includes such combinations.

Referring to fig. 1-16, a storage container cap comprises:

an outer cover 100 provided with an extension sleeve 110;

an inner cover 200 disposed below the outer cover 100, the inner cover 200 having a bin 210 and a connection through hole 230, the bin 210 being disposed at the bottom of the inner cover 200, the connection through hole 230 penetrating through the inner cover 200;

a bin cover 300 disposed at the bottom of the bin 210, wherein a connecting rod 310 is disposed on the bin cover 300, and the connecting rod 310 extends into the outer cover 100 through the connecting through hole 230;

a first locking mechanism disposed between the connection rod 310 and the extension sleeve 110 for connecting the connection rod 310 and the extension sleeve 110 to prevent the silo cover 300 from being separated from the outer cover 100;

wherein the silo cover 300 is opened by driving the connecting rod 310 in the extension sleeve 110 to move downwards.

In this embodiment, by providing the first locking mechanism, when the connecting rod 310 is driven to move down to open the bin 210, the bin cover 300 will not be separated from the outer cover 100, and the bin cover 300 is prevented from falling into the bottle, which results in a higher safety factor.

Wherein an internal thread is provided in the inner cap 200 for mounting on a bottle.

In one embodiment, the connecting rod 310 is a tubular body having a cavity, the extension sleeve 110 is a rod body, the connecting rod 310 is sleeved on the extension sleeve 110, and the connecting rod 310 and the extension sleeve 110 are connected by a first locking mechanism.

The embodiment is a variation of the embodiment for extending the connecting rod 310 into the extension sleeve 110, and the specific implementation principle can be derived by those skilled in the art without any inventive thought.

Referring to fig. 1-8 and 12, in an embodiment, the connecting rod 310 extends into the extension sleeve 110 through the connecting through hole 230, the first locking mechanism includes a first limiting member 311 disposed on the connecting rod 310 and a second limiting member 111 disposed on the extension sleeve 110, and the bin 210 is opened by rotating and/or vertically moving the first limiting member 311 relative to the second limiting member 111.

In this embodiment, have three kinds of implementation conditions, all implement under the condition that does not increase the bottle lid height, user experience is better, and conveniently carries, is applicable to standard machines such as current vending machine, need not to carry out adaptability improvement, faster use on market to these standard machines.

In the first implementation case (in the case that the bin cover 300 moves downwards by itself due to the extrusion of the gravity of the material), the bin 210 can be opened by rotating the first limiting member 311 relative to the second limiting member 111; in a specific embodiment, the second limiting member 111 is an inverted L-shaped through hole formed in a sidewall of the extension sleeve 110, in a normal condition, the first limiting member 311 is disposed in the second limiting member 111, the first limiting member 311 and the second limiting member 111 cooperate to limit the downward movement of the bin cover 300, after the outer cover 100 is rotated by a certain angle, the first limiting member 311 moves to a right-angle turning position of the through hole relative to the second limiting member 111, and then the bin cover 300 moves downward under the action of gravity, at this time, the bin cover 300 is opened, and the material in the bin 210 enters the bottle and is mixed with the liquid in the bottle.

In the second implementation case (in the case that the bin cover 300 does not automatically move downward due to the extrusion of the material gravity), the bin 210 can be opened by the vertical movement of the first limiting member 311 relative to the second limiting member 111; in a specific embodiment, the second limiting member 111 is a concave or through hole on the sidewall of the extension sleeve 110, the first limiting member 311 is a protrusion, the first limiting member 311 is located above the second limiting member 111, and the first limiting member 311 and the second limiting member 111 are located on the same vertical plane, when the storage bin 210 needs to be opened, the outer lid 100 is lifted, so that the first limiting member 311 is clamped into the second limiting member 111, the outer lid 100 is pressed down, and the connecting rod 310 is driven by an external force to move down, thereby opening the storage bin 210.

Specifically, the situation that the material bin cover 300 does not automatically move downwards due to the extrusion of the gravity of the material may be that the material is light, a first friction component (for example, a rubber ring, which is tightly connected with the connection through hole 230) for increasing the friction force between the connection rod 310 and the connection through hole 230 is arranged in the connection through hole 230, a second friction component for increasing the friction force between the first limiting component 311 and the extension sleeve 110 is arranged in the extension sleeve 110, and the like.

In a third implementation case, the first limiting member 311 can rotate and move vertically relative to the second limiting member 111 to open the bin 210.

Wherein the third implementation encompasses the first implementation.

The third embodiment is different from the second embodiment only in that the first limiting member 311 and the second limiting member 111 are located in different vertical planes, so that the first limiting member 311 and the second limiting member 111 need to be rotated to be located in the same vertical plane, and the subsequent operation is the same as the second embodiment.

In an embodiment, the second limiting member 111 is disposed below the first limiting member 311, and the connecting rod 310 at the first limiting member 311 is pushed to move downward, so that the first limiting member 311 and the second limiting member 111 are engaged with each other to limit the connecting rod 310 from separating from the outer cover 100, so as to limit the material bin cover 300 from falling off.

In this embodiment, specifically for the second implementation case, the term "move the connecting rod 310 downward by pushing the first limiting member 311" may be understood as directly pushing the connecting rod 310 downward, or may be understood as pressing the cover 100 downward after the cover 100 is lifted to make the first limiting member 311 and the second limiting member 111 engaged and connected, and then the connecting rod 310 moves downward.

Referring to fig. 1 to 8, in an embodiment, an included angle between the second limiting member 111 and the first limiting member 311 on a horizontal plane is a first angle, and the connecting rod 310 where the first limiting member 311 is located is rotated and pushed to move down, so that the first limiting member 311 and the second limiting member 111 are engaged with each other to limit the connecting rod 310 to be separated from the outer cover 100, so as to limit the material bin cover 300 to fall off.

In this embodiment, the third embodiment is specific.

Referring to fig. 12, in an embodiment, the first limiting member 311 includes two elastic members disposed in an opposite direction, a first protrusion is disposed on an outer side of the elastic members, the two elastic members respectively have an outward elastic force and abut against an inner sidewall of the extension sleeve 110, the second limiting member 111 includes a first through hole disposed in an opposite direction on a sidewall of the extension sleeve 110, and the first protrusion is engaged into the first through hole to limit the connecting rod 310 from being separated from the outer cover 100.

In this embodiment, the first protrusion can be completely engaged in the first through hole by the elastic force of the elastic member.

Specifically, the first limiting member may include two or more elastic members, a plurality of elastic members and an equiangular circular array, and correspondingly, the second limiting member is provided with a plurality of first through holes corresponding to the first limiting member, and the first through holes may be correspondingly changed according to actual conditions.

Referring to fig. 15 to 16, in an embodiment, a second locking mechanism is disposed between the connecting rod 310 and the extension sleeve 110, and the second locking mechanism is configured to limit the connecting rod 310 from moving vertically relative to the extension sleeve 110 when the first locking mechanism is not locked to connect the connecting rod and the extension sleeve, so as to prevent the silo cover 300 from moving downward and opening.

In this embodiment, since the above-mentioned not too rely on the register when realizing the circumstances that feed bin cover 300 can not move down automatically because of gravity, the time is long, the rubber ageing scheduling problem appears easily, so through set up the second locking mechanical system between connecting rod 310 and extension sleeve 110, when not using the material in the bottle lid, through the vertical removal of second locking mechanical system restriction connecting rod 310 relative extension sleeve 110, so feed bin cover 300 just can not be opened, avoid leading to feed bin cover 300 to open in advance because the aforesaid rubber ageing scheduling problem appears, influence the use.

In a preferred embodiment, the second locking mechanism includes a third retaining member 312 disposed on the connecting rod 310 and a fourth retaining member 112 disposed on the extension sleeve 110, the third retaining member 312 is disposed in the fourth retaining member 112, and the bin 210 is opened by rotating and moving the third retaining member 312 downward relative to the fourth retaining member 112.

In this embodiment, the second locking mechanism should have both the normal condition (the storage bin is not opened) to limit the vertical movement of the connecting rod 310 relative to the extension sleeve 110, and the condition (the storage bin is opened) that the connecting rod 310 can move vertically relative to the extension sleeve 110 to open the storage bin 210; therefore, by providing the third limiting member 312 and the fourth limiting member 112, the third limiting member 312 is normally clamped in the fourth limiting member 112, so as to limit the connecting rod 310 from moving vertically relative to the extension sleeve 110, and when it is needed, the outer cover 100 is rotated, so that the third limiting member 312 rotates to the downward-extending corner of the fourth limiting member 112 relative to the fourth limiting member 112, so as to push the connecting rod 310 to move downward (here, pushing the connecting rod 310 to move downward may be understood as directly pushing the connecting rod 310 to move downward, and may also be understood as lifting the outer cover 100, so that after the first limiting member 311 is connected with the second limiting member 111 in a clamping and matching manner, the outer cover 100 is pressed downward, and at this time, the connecting rod 310 moves downward).

Specifically, the maximum rotation angle of the third limiting member 312 relative to the fourth limiting member 112 needs to be greater than or equal to the first angle, and the rotation direction is the same as the rotation direction from the first limiting member 311 to the second limiting member 111 (the rotation direction is similar to the whole text by using an arc line with a smaller angle formed by the two as a description reference).

Referring to fig. 2 to 8, in an embodiment, the third limiting member 312 is disposed below the first limiting member 311, the fourth limiting member 112 is disposed below the second limiting member 111, a vertical distance between the fourth limiting member 112 and the second limiting member 111 is smaller than a vertical distance between the first limiting member 311 and the third limiting member 312, and a maximum rotation angle of the third limiting member 312 relative to the fourth limiting member 112 is the first angle.

In this embodiment, by setting "the vertical distance between the fourth limiting member 112 and the second limiting member 111 is less than the vertical distance between the first limiting member 311 and the third limiting member 312", the first limiting member 311 is required to be clamped into the second limiting member 111, the cover 100 needs to be lifted up, and then the cover 100 is pressed down to open the bin 210, so as to increase the downward movement thread of the connecting rod 310, wherein the difference between the vertical distance between the fourth limiting member 112 and the second limiting member 111 and the vertical distance between the first limiting member 311 and the third limiting member 312 is the downward movement length of the connecting rod 310.

By setting "the maximum rotation angle of the third limiting member 312 relative to the fourth limiting member 112 is the first angle", when the third limiting member 312 rotates relative to the fourth limiting member 112 by the first angle, the first limiting member 311 and the second limiting member 111 are just located in the same vertical plane, so that when the connecting rod 310 is pushed to move down, the first limiting member 311 can just be clamped into the second limiting member 111, which is convenient for operation.

Specifically, in another embodiment, the difference from the previous embodiment is only that the third limiting member 312 is disposed above the first limiting member 311, the fourth limiting member 112 is disposed above the second limiting member 111, and the first limiting member 311 is located above the second limiting member 111, at this time, when the third limiting member 312 rotates by a first angle relative to the fourth limiting member 112, the first limiting member 311 is locked into the second limiting member 111 after the outer cover 100 is lifted up, and the bin 210 is opened by pressing the outer cover 100 down, so that the corresponding function can be realized, and thus the combination relationship among the first limiting member 311, the second limiting member 111, the third limiting member 312, and the fourth limiting member 112 is not fixed, and can be set and changed according to the actual situation.

In an embodiment, the third limiting member 312 includes two second protrusions oppositely disposed, and the fourth limiting member 112 includes a second through hole oppositely disposed on the extension sleeve 110 corresponding to the second protrusions.

Referring to fig. 2 to 10, in an embodiment of the third limiting member 312 rotating and moving downward relative to the fourth limiting member 112, the extension sleeve 110 is an ellipse, and the two second through holes respectively extend from two ends of the short axis of the cross section of the extension sleeve 110 along the clockwise direction or the counterclockwise direction by the first angle.

In this embodiment, by setting the extension sleeve 110 to be oval, the second through hole is disposed on the extension sleeve 110 and extends along the extension sleeve 110, and when the second through hole extends from one end of the short axis to one end of the long axis, a straight line distance between the two second through holes passing through the center of the oval becomes larger continuously, so when the second protrusion is disposed, the second protrusion is disposed to be capable of being just clamped into the second through hole at one end of the short axis of the oval, and after the second protrusion rotates by a first angle, the second protrusion is separated from the second through hole so that the extension sleeve 110 can vertically move relative to the connection rod 310, thereby conveniently lifting the outer cover 100, so as to fixedly connect the connection rod 310 and the extension sleeve 110 through the first locking mechanism.

In another embodiment of the third limiting member 312 rotating and moving downward relative to the fourth limiting member 112, the extension sleeve 110 is circular, two of the second through holes respectively extend in the clockwise direction or the counterclockwise direction by the first angle, and one end of the second through hole in the extension direction extends downward to form an inverted L shape.

In this embodiment, the extension sleeve 110 is set to be circular, and the two second through holes respectively extend along the clockwise direction or the counterclockwise direction by the first angle, one end of the second through hole extends downward to form an inverted L shape, after the second protrusion extends toward the extension direction of the second through hole by the first angle, the second protrusion will be located at the downward extending corner in the second through hole, at this time, the first limiting member 311 and the extension starting end of the second through hole are located in the same vertical plane (here, the relative position of the first limiting member 311 and the first through hole may be other conditions, as long as the first limiting member 311 can be clamped into the first through hole after the outer cover 100 is lifted up), at this time, the outer cover 100 is lifted up, the second protrusion moves down along the downward extending second through hole, the connecting rod 310 and the extension sleeve 110 are fixedly connected by the first locking mechanism, at this time, the outer cover 100 is pressed down, and the bin 210 can be opened.

In one embodiment, the first angle is 30 ° to 110 °.

Preferably, the first angle is 90 °.

Referring to fig. 2-8 and 12, in one embodiment, an annular groove 314 is formed on an outer side wall of the connecting rod 310, and a sealing ring engaged with an inner side wall of the connecting through hole 230 is disposed in the annular groove 314.

In this embodiment, since the connecting rod 310 and the connecting through hole 230 are provided with a gap therebetween, the sealing ring is disposed to isolate the bin 210 from the outside and increase the sliding friction between the connecting rod 310 and the connecting through hole 230, so that the operator is required to apply a certain force to the connecting rod 310 to push the connecting rod 310, thereby avoiding misoperation.

In one embodiment, the connecting through hole 230 is polygonal, and the connecting rod 310 is disposed corresponding to the shape and size of the connecting through hole 230.

In this embodiment, by setting the connection through hole 230 to be polygonal, it can be avoided that the connection rod 310 is driven to rotate together when the outer cover 100 is rotated, which results in that the purpose of unlocking the second locking mechanism and locking the first locking mechanism cannot be achieved, and the bin 210 cannot be opened; it is required that the coupling bar 310 is stationary with respect to the inner lid 200 and can rotate with respect to the outer lid 100.

Referring to fig. 12 to 14, in another embodiment, the connecting through hole 230 is configured to be circular, the connecting rod 310 is configured to correspond to the shape and size of the connecting through hole 230, a fifth limiting member 313 is disposed on a side wall of the connecting rod 310, and a sixth limiting member 231 matched with the fifth limiting member 313 is disposed on an inner wall of the connecting through hole 230 to limit the connecting rod 310 to rotate.

In the present embodiment, the connecting through hole 230 is configured to be circular, which facilitates processing, and the connecting rod 310 cannot rotate relative to the connecting through hole 230 by providing the fifth limiting member 313 and the sixth limiting member 231, which are respectively matched with each other on the horizontal plane, on the connecting rod 310 and the connecting through hole 230.

Referring to fig. 12 to 14, in an embodiment, the sixth limiting member 231 includes a semi-cylindrical protrusion, and the fifth limiting member 313 includes a semi-cylindrical notch corresponding to the semi-cylindrical protrusion, and the semi-cylindrical protrusion limits the rotation and vertical movement distance of the connecting rod 310 where the semi-cylindrical notch is located.

In this embodiment, the half-cylinder-shaped protrusion is the shape after the semicircle is stretched, and the half-cylinder-shaped protrusion is arranged at the connecting through hole 230 near one end of the outer cover 100, and the size and shape of the half-cylinder-shaped notch correspond to the half-cylinder-shaped protrusion, so that the connecting rod 310 cannot rotate relative to the connecting through hole 230, and cannot move up relative to the connecting through hole 230 vertically, and only can move down relative to the connecting through hole 230 vertically to open the storage bin 210, thereby avoiding misoperation.

The fifth limiting member 313 may be a semi-cylindrical protrusion, and the corresponding sixth limiting member 231 is a semi-cylindrical notch disposed at one end of the connecting through hole 230 close to the bin cover 300.

Referring to fig. 12, in an embodiment, the connecting rod 310 includes a first rod and a second rod disposed below the first rod, the first limiting member 311 is disposed on the first rod, an axis of the first rod is coincident with an axis of the second rod, and a radial length from the first limiting member 311 to a center of the first rod is equal to or less than a radial length of the second rod.

In this embodiment, the radial length from the first position-limiting member 311 to the center of the first rod is equal to or less than the radial length of the second rod, so that the connection rod 310 can pass through the connection through-hole 230 from the lower side of the inner lid 200 during installation.

In an embodiment, an inverse truncated cone shaped sealing plug is disposed on the first rod body peripheral wall, and a funnel shaped sealing hole is disposed in the connecting through hole 230 corresponding to the sealing plug, and the sealing hole communicates the storage bin 210 and the outer side of the inner cover 200.

In this embodiment, in order to prevent the liquid in the bottle from flowing into between the inner cap 200 and the outer cap 100 through the connecting through hole 230 after the bin 210 is opened, which affects the use, it is necessary to separate the passage between the connecting through hole 230 and the outer cap 100 after the bin 210 is opened, an inverted truncated cone-shaped sealing plug is provided on the first rod body, a sealing hole corresponding to the sealing plug is provided at one end of the connecting through hole 230 close to the outer cap 100, and the sealing plug is just installed in the sealing hole after the connecting rod 310 is moved down to open the bin 210.

Referring to fig. 9-11 and 13, in one embodiment, the outer lid 100 and the inner lid 200 are engaged with each other through a key and a groove to limit the rotation angle and direction of the outer lid 100 relative to the inner lid 200.

In this embodiment, since the installation structure between the connection rod 310 and the extension sleeve 110 cannot be intuitively observed, the angle and direction of rotation required cannot be intuitively determined when the outer cap 100 is rotated, and thus, in order to facilitate the user's operation and prevent the cartridge 210 from being opened by unlocking the second locking mechanism by a wrong operation, the rotation angle and direction of the outer cap 100 with respect to the inner cap 200 are limited by the key-and-groove fit between the outer cap 100 and the inner cap 200.

Referring to fig. 2-11 and 13, in an embodiment, a first groove 120 is disposed on an inner sidewall of the outer cover 100, a third protrusion 220 is disposed on an outer sidewall of the inner cover 200 corresponding to the first groove 120, the first groove 120 extends in the first angle corresponding to the extending direction of the second through hole, and extends downward at an extending end point to form an inverted L-shaped groove.

In this embodiment, the key is the third protrusion 220, the groove is the first groove 120, the third protrusion 220 is located at the start end of the extension of the first groove 120, the extending direction of the first groove 120 is the same as the extending direction of the second through hole, when the outer lid 100 rotates in the direction opposite to the extending direction, the third protrusion 220 moves toward the extending direction relative to the first groove 120, at this time, the extension sleeve 110 also rotates along with the outer lid 100, after the first angle is moved, the third protrusion 220 moves to the downward extension corner of the first groove 120, the second protrusion is also located at the downward extension corner in the second through hole (here, the above-mentioned embodiment is explained when the extension sleeve is circular), the outer lid 100 is lifted, the third protrusion 220 moves downward relative to the first groove 120, and the second protrusion also moves downward relative to the second through hole, so that the first locking mechanism fixedly connects the connecting rod 310 and the extension sleeve 110, then the outer lid 100 is pressed down, and the outer lid 100 drives the connecting rod 310 to move down and open the silo lid 300.

In one embodiment, the rotation direction of the outer cap 100 is different when the material bin cover 300 is opened and when the bottle cap is opened; specifically, when the outer cap 100 rotates in the direction opposite to the extending direction, in order to open the bin cover 300, when the outer cap 100 rotates in the extending direction, the third protrusion 220 abuts against the outer cap 100, and the rotation drives the inner cap 200 to rotate, so as to open the bottle cap, which can prevent the bin 210 from being opened due to misoperation.

Of course, the above rotation direction may be a counterclockwise direction or a clockwise direction, and particularly, the extending direction of the first through hole and the first groove 120 is determined by the opening or closing direction of the bottle cap.

It can be understood that if the bottle cap is opened by clockwise rotation, the silo cap 300 is opened by counterclockwise rotation, and on the premise that the third protrusion 220 is located at the extending start end of the first groove 120, the extending direction of the first groove 120 should be clockwise, and similarly, the extending direction of the second through hole should be clockwise; the other is clockwise rotation for opening the bin cover 300, which is not repeated again.

In another embodiment, when the material bin cover 300 is opened and the bottle cap is opened, the rotation directions of the outer cap 100 are the same; specifically, when the outer cap 100 rotates in the direction opposite to the extending direction of the first groove, in order to open the bin 210, after the first angle is moved, the outer cap 100 may be lifted up to open the bin 210, or the outer cap may continue to rotate in the direction opposite to the extending direction, at this time, the third protrusion 220 abuts against the outer cap 100, and the outer cap 100 drives the inner cap 200 to rotate, so as to open the bottle cap; the extending direction of the first through hole and the first groove 120 is determined by the opening or closing direction of the bottle cap.

The positions of the first recess 120 and the third protrusion 220 may be reversed, that is, the first recess 120 is formed on the inner cap 200 and the third protrusion 220 is formed on the outer cap 100, and the specific structure may be appropriately adjusted according to the above-described embodiment.

In an embodiment, a fourth protrusion is disposed on one side of the third protrusion 220, and the fourth protrusion is used for pressing down and limiting the third protrusion 220 to rotate relative to the first groove 120 after pressing the two sides of the outer cover 100.

In this embodiment, by disposing the fourth protrusion in the first groove 120 on one side of the third protrusion 220, preferably, the fourth protrusion is disposed at a position close to the third protrusion, which serves to limit the third protrusion from rotating relative to the first groove; by pressing the outer cap 100 from both sides, the fourth protrusion is brought close to the inner cap 200 and the third protrusion 220 is restricted to the extended starting end of the first groove 120, so that the bottle cap can be opened or closed at will without worrying about the erroneous opening of the bin 210; in particular, the fourth protrusion does not restrict the third protrusion from moving in the first recess when the outer cap is not pressed, i.e. the third protrusion can rotate relative to the first recess.

In one embodiment, the outer lid 100 and the inner lid 200 are engaged with each other by a key and a groove, and the key is engaged into the groove by pressing the outer lid 100 to restrict the outer lid 100 from rotating with respect to the inner lid 200.

In this embodiment, in order to prevent the occurrence of an operation of erroneously opening the material bin cover 300 when the bottle cap is mounted on the bottle, a key and groove fitting is provided between the outer cap 100 and the inner cap 200, and the key is engaged into the groove by pressing the outer cap 100 to restrict the rotation of the outer cap 100 with respect to the inner cap 200, so that the outer cap 100 does not rotate with respect to the inner cap 200 to erroneously open the material bin cover 300 when the inner cap 200 is tightened.

In one embodiment, a fifth protrusion is disposed on the inner sidewall of the outer cover 100, and a second groove is disposed on the outer sidewall of the inner cover 200 corresponding to the fifth protrusion.

In the present embodiment, the outer cap 100 is concaved by pressing the outer cap 100 from both sides, and the fifth projection is caught in the second groove, and thus the outer cap 100 and the inner cap 200 are not relatively rotated, wherein the fifth projection and the second groove may be provided on the inner cap 200 and the outer cap 100, respectively, without absolute limitation.

In one embodiment, the outer side of the outer cap 100 is provided with a fixing ear for facilitating the pulling of the outer cap 100, wherein the fixing ear may also be a through hole or a groove provided on the sidewall of the outer cap 100, as long as the convenience of pulling the outer cap 100 is achieved.

Specifically, when being the through-hole on the enclosing cover lateral wall, can also regard as screw inner cup and bottleneck and avoid inner cup and enclosing cover relative pivoted setting when processing man-hour in production, the operation is tight the inner cup from both sides through-hole through the machine, and rotatory in order to screw inner cup and bottleneck afterwards, the enclosing cover does not receive power, so the enclosing cover can not be rotatory inner cup relatively, reaches to avoid inner cup and enclosing cover relative rotation and leads to the feed bin to be covered by the purpose of opening.

Further, in a preferred embodiment, when the extension sleeve 110 is an oval, two of the first through holes respectively extend from two ends of a short axis of the cross section of the extension sleeve 110 in a clockwise or counterclockwise direction by the first angle, the second locking mechanism includes a third limiting member 312 disposed on the connecting rod 310, the third limiting member 312 and the second limiting member 111 are located in the same horizontal plane, an included angle between the third limiting member 312 and the first limiting member 311 on the horizontal plane is the first angle, the third limiting member 312 is disposed at one end of the short axis of the cross section of the extension sleeve 110 (the third limiting member 312 can just be locked into the first through hole at one end of the short axis of the oval) because the first through hole extends along the oval sidewall, a straight line distance passing through the oval center between the two first through holes is continuously increased when the third limiting member 312 rotates by the first angle, so that the third limiting member 312 is not locked into the first through hole after the third limiting member 312 rotates by the first angle, after the third limiting member 312 rotates by the first angle, the third limiting member 312 is located in the same horizontal plane as the first limiting member 311, so that the first limiting member 312 can be locked into the first through hole, when the first limiting member 311 is opened, the first through hole, the outer cover 100 can be locked into the outer cover 100, so that the first limiting member 311 can be locked into the outer cover 100, and the outer cover can be locked into the outer cover 100.

In another preferred embodiment, when the extension sleeve 110 is circular, two of the first through holes respectively extend in a clockwise direction or an anticlockwise direction by the first angle, one end of the first through hole in the extension direction extends downward to form an inverted L shape, the second locking mechanism includes a third limiting member 312 disposed on the connecting rod 310, the third limiting member 312 and the second limiting member 111 are located in the same horizontal plane, an included angle between the third limiting member 312 and the first limiting member 311 in the horizontal plane is the first angle, the third limiting member 312 is disposed at the extension start end of the first through hole, after the third limiting member 312 extends in the extension direction of the first through hole by the first angle, the third limiting member 312 will be located at the downward extension corner in the first through hole, and at this time, the first limiting member 311 and the extension start end of the first through hole are located in the same vertical plane (here, the relative positions of the first limiting member 311 and the first through hole may be other conditions, as long as the outer cover 100 is lifted, the first limiting member 311 can be locked into the first through hole after the outer cover 100 is lifted, and the third limiting member 312 is moved downward, so that the first limiting member 311 can be locked into the outer cover 100, and the outer cover 110 can be locked, and the outer cover 100 can be locked.

In an embodiment, an inner wall of the extension sleeve 110 corresponding to the third position-limiting element 312 is an elliptical inner wall, and an inner wall of the extension sleeve 110 corresponding to the first position-limiting element 311 is a circular inner wall.

In this embodiment, since the first limiting member 311 is an elastic member, the first limiting member 311 is always abutted against the inner sidewall of the extension sleeve 110, and the inner wall of the oval shape has a blocking feeling during rotation, the inner wall of the extension sleeve 110 corresponding to the first limiting member 311 is set as a circular inner wall.

In one embodiment, a safety ring for preventing the exterior cover 100 from being accidentally opened is further included, and the exterior cover 100 is connected to the safety ring by a connection bridge.

In this embodiment, by providing the safety ring, one end of the safety ring is connected to the outer cap 100, and the other end of the safety ring is connected to the bottle mouth, so as to prevent the outer cap 100 from being opened accidentally.

In one embodiment, a plurality of vertical arrays of first thread segments are disposed on the inner sidewall of the outer cap 100, a plurality of vertical arrays of second thread segments are disposed on the inner cap 200, the first thread segments and the second thread segments are in thread fit such that the outer cap 100 cannot move vertically relative to the inner cap 200, and an angle from a right end of the first thread segments to a left end of the second thread segments on a horizontal plane is the first angle, or an angle from a left end of the first thread segments to a right end of the second thread segments on a horizontal plane is the first angle.

In this embodiment, in the unopened state, the first thread segments and the second thread segments are in the threaded state, so that the relative vertical movement between the external cap 100 and the internal cap 200 can be avoided; when feed bin 210 needs to be opened, outer cover 100 is rotated to drive the first thread section to rotate relative to the second thread section, and after the first angle is rotated, the projections of the first thread section and the second thread section in the vertical direction will not have coincident parts, namely, outer cover 100 at the moment can move vertically relative to inner cover 200.

Specifically, by such screw-coupling of the outer cap 100 and the inner cap 200, the relative vertical movement between the outer cap 100 and the inner cap 200 can be restricted in the unopened state, and the silo cap 300 can be prevented from being suddenly opened by a wrong operation.

In one embodiment, each plane in which each thread strip of the first and second thread segments lies is parallel to the horizontal plane.

In the present embodiment, the exterior cover 100 does not move in the vertical direction during the rotation of the exterior cover 100.

In one embodiment, each thread strip on the first thread section and the second thread section is parallel to each other and each plane on which each thread strip is located is not parallel to the horizontal plane.

In the present embodiment, the outer lid 100 is displaced in the vertical direction during the rotation of the outer lid 100.

In one embodiment, a sealing assembly is provided between the outer cap 100 and the inner cap 200 for preventing the material in the cartridge 210 from leaking through the connecting through-hole 230 when the bottle cap is not opened.

In this embodiment, a sealing assembly is provided to prevent the material in the cartridge 210 from leaking out of the connecting through-hole 230 when the bottle cap is not opened.

In one embodiment, the sealing assembly includes an annular protrusion disposed on a side of the top of the outer cap 100 facing the inner cap 200 and a third groove disposed on a top of the inner cap 200 corresponding to the annular protrusion, and the third groove is annular.

In this embodiment, in the unopened state, the annular protrusion is embedded in the third groove, and the two are tightly connected, so that a sealing cover is formed between the top of the outer cover and the annular protrusion, and the leakage of the material in the bin from the connecting through hole 230 to the outside of the bottle is avoided.

In one embodiment, a rotary pulling assembly is disposed between the outer lid 100 and the inner lid 200, and is used to pull up the outer lid 100 when the bin cover 300 is locked by the outer lid 100, and pull the bin cover 300 upwards, so as to reduce the gap between the bin cover 300 and the bin 210, and prevent the material in the bin 210 from leaking out of the storage bin.

In this embodiment, by providing the rotating pulling assembly, when the bin cover 300 is locked by the outer cover 100, the outer cover 100 is upwardly displaced by a small distance (this distance is small, generally achieved by deformation of the bin cover), since the outer cover 100 has locked the connecting rod 310 at this time, the connecting rod 310 can follow up by a small distance, the bin cover 300 connected to the bottom of the connecting rod 310 tends to move upward, and since the bin cover 300 at this time abuts against the bottom of the bin 210, the bin cover 300 slightly deforms, so that the gap between the bin cover 300 and the bottom of the bin 210 is further reduced.

In one embodiment, the rotating pulling assembly includes a first wedge disposed on the top of the inner lid 200 and a second wedge disposed on the inner side of the top of the outer lid 100 corresponding to the first wedge, the first wedge abuts against the bevel of the second wedge, and the extension direction from the top to the bottom of the bevel of the first wedge is opposite to the extension direction of the first groove.

In this embodiment, when the cover 100 is rotated and the connection rod 310 is locked, the second wedge moves relative to the first wedge, and since the abutting surface between the second wedge and the first wedge is an inclined surface, the second wedge slides towards the top of the first wedge, the cover 100 is vertically displaced accordingly, and the connection rod 310 and the cover 100 are locked, so the connection rod 310 is synchronously pulled.

In one embodiment, a spring is disposed on the connecting rod 310 between the first limiting member 311 and the third limiting member 312, a top of the spring abuts against a bottom of the circular inner wall, a bottom of the spring abuts against a top of the third limiting member, and the spring makes the connecting rod 310 have a tendency to move downward.

In this embodiment, through setting up the spring for behind unblock enclosing cover 100 and connecting rod 310, need not artificial carrying on and lift and push down the operation, can pop out feed bin cover 300 downwards after the unblock, open feed bin cover 300, convenient and fast.

In an embodiment, the second locking mechanism includes a plurality of sets of circular-array third thread segments disposed on the inner sidewall of the bottom of the extension sleeve 110 and a plurality of sets of circular-array fourth thread segments disposed on the connection rod 310 corresponding to the third thread segments, and the extension sleeve 110 is driven to rotate by rotating the outer cap 100, so that the third thread segments are screwed with the fourth thread segments, and the purpose of limiting the connection rod 310 from moving vertically relative to the outer cap 100 is achieved.

This embodiment is another second locking mechanism, which uses the characteristic that the two screwed parts do not move directly relative to each other in the vertical direction, to lock the connection rod 310 and the exterior cover 100.

In one embodiment, the third thread segments are arranged in two or three groups, and the fourth thread segments are arranged in two or three groups corresponding to the third thread segments.

In this embodiment, each set of the third thread segments has a vertical array of one or more thread segments, and each set of the fourth thread segments has a vertical array of one or more thread segments corresponding to the third thread segments.

In an embodiment, the connecting rod 310 is provided with two opposite clamping grooves, two buckles matched with the two clamping grooves are oppositely arranged on the inner cover 200 at two sides of the connecting through hole 230, the buckles incline towards the side far away from the connecting through hole 230, the clamping grooves are arranged below the first protrusions, and the extension sleeve 110 is oval.

In this embodiment, the locking connection rod 310 and the inner lid 200 are locked by the snap and the catching groove to cooperate with each other, so that the relative movement between the connection rod 310 and the inner lid 200 is restricted, thereby preventing the connection rod 310 from moving downward to open the bin 210 during transportation or when an external force presses or impacts the outer lid 100.

Specifically, when the extension sleeve 110 is mounted, both ends of the major axis of the oval inner wall of the bottom of the extension sleeve 110 are aligned with the two snaps, respectively, and the extension sleeve 110 is inserted into the connection rod 310, and after the extension sleeve reaches a designated position, the outer cap 100 is rotated, at which time the operation of locking the connection rod 310 and the inner cap 200 is performed.

Specifically, because extension sleeve 110 is oval inner wall, extension sleeve 110 can lead to the diameter of the oval inner wall that the buckle corresponds when rotatory to be reducing (the buckle corresponds the major axis end at the oval inner wall of extension sleeve 110 at first), and the buckle is the outside slope, so at extension sleeve 110 pivoted in-process, the buckle can be slowly compressed and block in the draw-in groove (when the stub axle end of the oval inner wall of extension sleeve 110 corresponds the butt with the buckle, the buckle can block completely in the draw-in groove), and then realize that the buckle between inner cup 200 and connecting rod 310 is connected.

While the invention has been described with reference to specific embodiments, the invention is not limited thereto, and various equivalent modifications and substitutions can be easily made by those skilled in the art within the technical scope of the invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (31)

1. A bin-type bottle cap, comprising:

an outer cover (100) provided with an extension sleeve (110);

the inner cover (200) is arranged below the outer cover (100), the inner cover (200) is provided with a storage bin (210) and a connecting through hole (230), the storage bin (210) is arranged at the bottom of the inner cover (200), and the connecting through hole (230) penetrates through the inner cover (200);

the bin cover (300) is arranged at the bottom of the bin (210), a connecting rod (310) is arranged on the bin cover (300), and the connecting rod (310) extends into the outer cover (100) through the connecting through hole (230);

a first locking mechanism disposed between the connection rod (310) and the extension sleeve (110) for connecting the connection rod (310) and the extension sleeve (110) to prevent the silo cover (300) from being separated from the outer cover (100);

wherein the silo cover (300) is opened by driving the connecting rod (310) in the extension sleeve (110) downwards;

the connecting rod (310) extends into the extension sleeve (110) through the connecting through hole (230), the first locking mechanism comprises a first limiting piece (311) arranged on the connecting rod (310) and a second limiting piece (111) arranged on the extension sleeve (110), and the bin cover (300) is opened by rotating and/or vertically moving the first limiting piece (311) relative to the second limiting piece (111);

the second limiting part (111) is arranged below the first limiting part (311), the outer cover (100) is lifted, so that the first limiting part (311) is clamped into the second limiting part (111), the outer cover (100) is pushed to move downwards, the connecting rod (310) where the first limiting part (311) is located is driven to move downwards, the first limiting part (311) and the second limiting part (111) are matched in a clamping mode to limit the connecting rod (310) to be separated from the outer cover (100), and the silo cover (300) is limited to fall off.

2. The cartridge bottle cap according to claim 1, wherein: an included angle between the second limiting part (111) and the first limiting part (311) on a horizontal plane is a first angle, and the first limiting part (311) is rotated and pushed to move downwards to enable the first limiting part (311) and the second limiting part (111) to be in clamping fit to limit the connecting rod (310) to be separated from the outer cover (100) so as to limit the material bin cover (300) to fall off.

3. The cartridge bottle cap according to claim 2, wherein: the first limiting part (311) comprises two elastic parts which are arranged in an opposite mode, a first protrusion is arranged on the outer side of each elastic part, the two elastic parts are respectively provided with elastic force towards the outer side and abut against the inner side wall of the extension sleeve (110), the second limiting part (111) comprises a first through hole which is arranged on the side wall of the extension sleeve (110) in an opposite mode, and the first protrusion penetrates through the first through hole to limit the connecting rod (310) to be separated from the outer cover (100).

4. The cartridge bottle cap according to claim 2, wherein: a second locking mechanism is arranged between the connecting rod (310) and the extension sleeve (110), and is used for limiting the connecting rod (310) to vertically move relative to the extension sleeve (110) when the first locking mechanism is not locked and connected with the connecting rod and the extension sleeve, so that the bin cover (300) is prevented from automatically moving downwards to be opened.

5. The cartridge bottle cap according to claim 4, wherein: the second locking mechanism comprises a third limiting part (312) arranged on the connecting rod (310) and a fourth limiting part (112) arranged on the extension sleeve (110), the third limiting part (312) is arranged in the fourth limiting part (112), and the bin (210) is opened by rotating and moving down the third limiting part (312) relative to the fourth limiting part (112).

6. The cartridge bottle cap according to claim 5, wherein: the third limiting part (312) is disposed below the first limiting part (311), the fourth limiting part (112) is disposed below the second limiting part (111), a vertical distance from the fourth limiting part (112) to the second limiting part (111) is smaller than a vertical distance from the first limiting part (311) to the third limiting part (312), and a maximum rotation angle of the third limiting part (312) relative to the fourth limiting part (112) is the first angle.

7. The cartridge bottle cap according to claim 6, wherein: the third limiting member (312) includes two second protrusions oppositely disposed, and the fourth limiting member (112) includes a second through hole oppositely disposed on the extension sleeve (110) corresponding to the second protrusions.

8. The cartridge bottle cap according to claim 3, wherein: the connecting rod (310) is provided with two opposite clamping grooves, the two sides of the connecting through hole (230) are oppositely arranged on the inner cover (200) and are provided with two buckles matched with the clamping grooves, the buckles incline towards one side far away from the connecting through hole (230), the clamping grooves are formed in the lower portion of the first bulge, and the extension sleeve (110) is oval.

9. The cartridge bottle cap according to claim 4, wherein: the second locking mechanism comprises a plurality of groups of circular array third thread sections arranged on the inner side wall of the bottom of the extension sleeve (110) and a fourth thread section corresponding to the third thread sections and arranged on the connecting rod (310), the extension sleeve (110) is driven to rotate by rotating the outer cover (100), the third thread sections are in threaded connection with the fourth thread section, and the purpose that the connecting rod (310) is limited to move vertically relative to the outer cover (100) is achieved.

10. The cartridge bottle cap according to claim 7, wherein: the extension sleeve (110) is oval, and the two second through holes respectively extend from two ends of the short axis of the cross section of the extension sleeve (110) along the clockwise direction or the anticlockwise direction by the first angle.

11. The cartridge bottle cap according to claim 7, wherein: the extension sleeve (110) is circular, the two second through holes respectively extend in the clockwise direction or the anticlockwise direction by the first angle, and one end of the second through hole in the extension direction extends downwards to form an inverted L shape.

12. The cartridge bottle cap according to claim 2, wherein: the first angle is 90 °.

13. The cartridge bottle cap according to claim 1, wherein: an annular groove (314) is formed in the outer side wall of the connecting rod (310), and a sealing ring matched with the inner side wall of the connecting through hole (230) is arranged in the annular groove (314).

14. The cartridge bottle cap according to claim 1, wherein: the connecting through hole (230) is arranged in a polygon shape, and the connecting rod (310) is arranged corresponding to the shape and size of the connecting through hole (230).

15. The cartridge bottle cap according to claim 1, wherein: the connecting through hole (230) is arranged to be circular, the connecting rod (310) is arranged corresponding to the shape and size of the connecting through hole (230), a fifth limiting piece (313) is arranged on the side wall of the connecting rod (310), and a sixth limiting piece (231) matched with the fifth limiting piece (313) is arranged on the inner wall of the connecting through hole (230) to limit the connecting rod (310) to rotate.

16. The cartridge bottle cap according to claim 15, wherein: the sixth limiting part (231) comprises a semi-cylindrical protrusion, the fifth limiting part (313) comprises a semi-cylindrical notch corresponding to the semi-cylindrical protrusion, and the semi-cylindrical protrusion limits the rotation and vertical movement distance of the connecting rod (310) where the semi-cylindrical notch is located.

17. The cartridge bottle cap according to claim 15, wherein: the connecting rod (310) comprises a first rod body and a second rod body arranged below the first rod body, a first limiting part (311) is arranged on the first rod body, the axis of the first rod body is coincident with the axis of the second rod body, and the radial length from the first limiting part (311) to the center of the first rod body is equal to or smaller than the radial length of the second rod body.

18. A cartridge cap according to claim 9 or 10 or 11, wherein: the outer cap (100) and the inner cap (200) are matched with each other through keys and grooves so as to limit the rotating angle and direction of the outer cap (100) relative to the inner cap (200).

19. The cartridge bottle cap according to claim 18, wherein: set up first recess (120) on enclosing cover (100) inside wall, correspond on inner cover (200) the lateral wall first recess (120) set up third arch (220), first recess (120) correspond the extending direction of second through-hole extends first angle to extend terminal point downwardly extending forms the recess of falling L shape.

20. The cartridge bottle cap of claim 19, wherein: and a fourth bulge is arranged in the first groove (120) on one side of the third bulge (220), and is used for pressing down after two side faces of the outer cover (100) are pressed and limiting the third bulge (220) to rotate relative to the first groove (120).

21. The cartridge bottle cap of claim 18, wherein: the outer cover (100) and the inner cover (200) are matched with each other through keys and grooves, and the keys are clamped into the grooves by pressing the outer cover (100) so as to limit the outer cover (100) to rotate relative to the inner cover (200).

22. The cartridge bottle cap of claim 19, wherein: the inner side wall of the outer cover (100) is provided with a fifth bulge, and the outer side wall of the inner cover (200) is provided with a second groove corresponding to the fifth bulge.

23. The cartridge bottle cap according to claim 10, wherein: the inner wall of the extension sleeve (110) corresponding to the third limiting piece (312) is an oval inner wall, and the inner wall of the extension sleeve (110) corresponding to the first limiting piece (311) is a circular inner wall.

24. The cartridge bottle cap according to claim 18, wherein: a safety ring for preventing the outer cover (100) from being opened accidentally is further included, and the outer cover (100) is connected with the safety ring through a connecting bridge.

25. A cartridge cap according to claim 9, 10 or 11, wherein: the novel outer cap is characterized in that a plurality of vertical arrays of first thread sections are arranged on the inner side wall of the outer cap (100), a plurality of vertical arrays of second thread sections are arranged on the inner cap (200), the first thread sections and the second thread sections are in thread fit, so that the outer cap (100) cannot vertically move relative to the inner cap (200), and the angle from the right end of the first thread sections to the left end of the second thread sections on the horizontal plane is the first angle, or the angle from the left end of the first thread sections to the right end of the second thread sections on the horizontal plane is the first angle.

26. The cartridge bottle cap according to claim 1, wherein: the connecting rod (310) is a pipe body with a cavity, the extension sleeve (110) is a rod body, the connecting rod (310) is sleeved on the extension sleeve (110), and the connecting rod (310) is connected with the extension sleeve (110) through a first locking mechanism.

27. The cartridge bottle cap according to claim 1, wherein: a sealing assembly is arranged between the outer cap (100) and the inner cap (200) and is used for preventing the material in the storage bin (210) from leaking from the connecting through hole (230) when the bottle cap is not opened.

28. The cartridge bottle cap of claim 27, wherein: the sealing assembly comprises an annular bulge arranged on the top of the outer cover (100) facing one side of the inner cover (200) and a third groove corresponding to the annular bulge and arranged on the top of the inner cover (200), and the third groove is annular.

29. A cartridge cap according to claim 9 or 10 or 11, wherein: the outer cover (100) and the inner cover (200) are provided with a rotary lifting assembly for lifting the outer cover (100) when the bin cover (300) is locked by the outer cover (100) and tensioning the bin cover (300) upwards, so that the gap between the bin cover (300) and the bin (210) is reduced, and the leakage of materials in the bin (210) from the storage bin is avoided.

30. The cartridge bottle cap of claim 29, wherein: the rotary lifting assembly comprises a first wedge arranged at the top of the inner cover (200) and a second wedge arranged on the inner side of the top of the outer cover (100) corresponding to the first wedge, the first wedge is abutted against the inclined edge of the second wedge, and the extending direction from the top to the bottom of the inclined edge of the first wedge is opposite to the extending direction of the first groove.

31. The cartridge bottle cap according to claim 23, wherein: a spring is arranged between the first limiting part (311) and the third limiting part (312) on the connecting rod (310), the top of the spring is abutted against the bottom of the circular inner wall, the bottom of the spring is abutted against the top of the third limiting part, and the connecting rod (310) has a downward moving trend due to the spring.

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