CN113582118B - Distributor valve core and distributor - Google Patents

Abstract

The invention discloses a distributor valve core, which comprises a valve core seat, a rotating piece and a driving piece, wherein the rotating piece is arranged on the valve core seat; the driving piece is provided with a driving part, the rotating piece is provided with a matching part, and the matching part comprises a first matching part; the distance between the first surface of the driving piece and the second surface of the rotating piece is H1 when the rotating piece and the driving piece are in the first working position state; when the rotating piece and the driving piece are in the second working position state, the distance between the first surface of the driving piece and the second surface of the rotating piece is H2, and H2 is larger than H1; in a normal assembly state, the rotating piece and the driving piece are positioned at a first working position; after the driving part on the driving part and the first matching part on the rotating part are matched to drive the rotating part to rotate, the rotating part and the driving part are in a second working position. The invention also provides a dispenser by increasing the height between the first and second faces thereof such that the dispenser cannot continue to function properly to allow a user to replace a new dispenser cartridge.

Description

Distributor valve core and distributor

Technical Field

The invention relates to the technical field of draught beer machines, in particular to a distributor valve core and a distributor.

Background

Draught beer is beer filtered by microporous membrane, and common beer is beer sterilized by high temperature. It is different from bottled and canned cooked beer which is sterilized at high temperature and bulk beer which is not sterilized, but is a high-quality wine which is purely natural, has no pigment, no preservative, no sugar and no essence, and has very rich nutrition. Draught beer is increasingly being consumed in world beer. Draught beer known as "beer raw juice" is characterized by that the best clear wine is directly poured into stainless steel barrel from production line, and when it is drunk, the draught beer machine is used for filling carbon dioxide, and the draught beer machine is used for controlling temp. 3-8 deg.C, and when it is drunk, the beer can be directly poured into beer cup from the draught beer machine, so that it can prevent the beer from contacting with air, and can make the beer fresh, purer, and rich in foam, and when it is drunk, it is tasty and refreshing, and its aftertaste is endless. Yeast contained in draught beer has effects of promoting gastric secretion, stimulating appetite, and promoting digestion.

The dispenser cartridge can present a sanitary problem during long term use.

Disclosure of Invention

In order to overcome the deficiencies in the prior art, the present invention provides a dispenser cartridge that prevents the dispenser from continuing to function properly by increasing the height between the first and second faces thereof to allow the user to replace a new dispenser cartridge, and a dispenser.

In order to achieve the above purpose, the invention is realized by adopting the following technical scheme:

A dispenser valve core, which comprises a valve core seat, a rotating piece rotatably arranged on the valve core seat, and a driving piece for driving the rotating piece; the driving part is provided with a driving part for driving the rotating part to rotate, the rotating part is provided with a matching part matched with the driving part, and the matching part comprises a first matching part;

the driving piece is provided with a first surface, and the rotating piece is provided with a second surface;

The distance between the first surface of the driving piece and the second surface of the rotating piece is H1 when the rotating piece and the driving piece are in a first working position state, and the matching part can be matched with the driving part to drive the rotating piece to rotate when the driving piece acts; the distance between the first surface of the driving piece and the second surface of the rotating piece is H2 and H2 is larger than H1 when the rotating piece and the driving piece are in the second working position state;

in a normal assembly state, the rotating piece and the driving piece are positioned at a first working position; after the driving part on the driving part is matched with the first matching part on the rotating part to drive the rotating part to rotate, the rotating part and the driving part are in a second working position.

By adopting the structure, when in use, a user installs the valve core of the distributor on the distributor seat and then connects the operating device with the driving piece in the valve core of the distributor; the user can operate the operating device to press down the valve core of the dispenser to open the wine spear or lift the valve core of the dispenser to close the wine spear; in the above process, the operating device may drive the driving part to act so that the driving part and the matching part are matched to rotate the rotating part, when the driving part and the first matching part are matched to drive the rotating part, the driving part and the rotating part are in the second working position so that the distance between the first face and the second face is increased from H1 to H2, and at the moment, when the user operates the operating device again to press the valve core of the dispenser to open the wine spear, due to the limiting structure of the dispenser seat and the valve core of the dispenser, the operating device cannot be locked in the state so that the dispenser cannot be normally used to replace the valve core of the dispenser by the user, so as to solve the sanitary condition in the use process.

Specifically, when the driving piece drives the rotating piece to rotate, the driving piece is firstly far away from the rotating piece and then is close to the rotating piece, and finally is in a first working state or a second working state.

Further, when the rotating member and the driving member are in the second working position, the matching portion does not match with the driving portion to drive the rotating member to rotate when the driving member acts. With the above structure, the user is forced to replace the dispenser valve core.

Further, the matching part comprises a second matching part, and after the driving part on the driving piece is matched with the second matching part on the rotating piece to drive the rotating piece to rotate, the rotating piece and the driving piece are in a first working position; the second fitting portion is provided in front of the first fitting portion along a rotation direction of the rotating member.

The wine barrels have a size fraction, and if the dispenser valve core is practical only once, waste is caused for small wine barrels; by adopting the structure, the use times of the valve core of the distributor can be increased; a user selects a proper valve core of the distributor according to the size of the wine barrel;

if only the first matching part is arranged, when a user operates the operation device to press down and lift the valve core of the distributor, the driving part is matched with the first matching part to drive the rotating part to rotate, and when the operation device presses down the valve core of the distributor again, the rotating part and the driving part form a second working position at the moment, so that the valve core of the distributor cannot be used continuously;

If the second matching part is arranged, when the user operates the operation device to push down the valve core of the dispenser, the driving part is matched with the second matching part to drive the rotating part to rotate because the second matching part is arranged in front of the first matching part, and when the operation device pushes down the valve core of the dispenser again, at the moment, the rotating piece and the driving piece still form a first working position, so the valve core of the distributor can be used continuously until the operating device is operated to drive the driving part and the first matching part in a matched manner, so that the rotating piece and the driving piece form a second working position, and the valve core of the distributor cannot be used continuously; in the above structure, the number of times of use of the dispenser valve core is determined by the number of the second fitting parts;

In actual production, however, the product is provided with a first matching part and a plurality of second matching parts, and different relative position states of the driving part and the rotating part are realized through assembly, so that the driving part is matched with the first matching part after being matched with the plurality of second matching parts, and the number of times that the valve core of the distributor can be used is realized; and the practical production is convenient.

Further, the driving member is formed as a third face on the opposite side of the first face thereof and the third face is provided with a convex first tooth tip and a concave first tooth slot; the rotating member is formed as a fourth surface on the opposite side of the second surface thereof and the fourth surface is provided with convex second tooth tips and concave second tooth grooves; the rotating piece and the driving piece are in a first working position state, the third face is in contact with the fourth face, the first tooth tip is opposite to the second tooth socket, and the first tooth socket is opposite to the second tooth tip; the rotating member and the driving member are in a second working position state, the third face is in contact with the fourth face, and the first tooth tip is opposite to the second tooth tip. By adopting the structure, the relative positions of the first tooth tip, the first tooth groove, the second tooth tip and the second tooth groove are realized by changing the relative positions of the third surface and the fourth surface, and the distance between the first surface and the second surface is changed.

Further, the first tooth tip and/or the second tooth tip are provided with a rest surface for enabling the two to stably maintain the relative abutment state. By adopting the structure, the arrangement of the stopping surface enables the first tooth point and the second tooth point to be opposite and abutted together, so that stable maintenance can be realized, and stable operation of products is ensured; specifically, the rest surface is a plane.

Further, the mating portion includes a second mating portion; a first guiding surface for guiding the second tooth tip to be opposite to the first tooth groove is arranged between the first tooth tip and the first tooth groove, and/or a second guiding surface for guiding the first tooth tip to be opposite to the second tooth groove is arranged between the second tooth tip and the second tooth groove; the driving piece is arranged on the valve core seat in a sliding way;

After the driving part is slid to enable the driving part and the first matching part to be matched to drive the rotating part to rotate, a first tooth point on the rotating part is opposite to a second tooth point on the driving part; after the driving piece is slid so that the driving part and the second matching part are matched to drive the rotating piece to rotate, the first tooth point on the rotating piece is opposite to the second guiding surface on the driving piece and/or the second tooth point on the driving piece is opposite to the first guiding surface on the rotating piece.

With the structure, the driving piece is slid to one side so that the driving part and the matching part are matched to drive the rotating piece to rotate, and then the driving piece is reversely slid so that the third surface is contacted with the fourth surface;

If the first matching part is matched with the driving part, after the rotating part rotates, the first tooth point is opposite to the second tooth point, and when the driving part moves reversely, the first tooth point is abutted against the second tooth point; when the driving piece moves reversely, the phase positions of the driving piece and the rotating piece are not changed, so that the driving piece cannot continue to drive the rotating piece to rotate when sliding again, and the driving piece and the rotating piece are kept in a second working state.

If the driving part is matched with the second matching part, after the rotating part rotates, the first tooth point is opposite to the second guiding surface and/or the second tooth point is opposite to the first guiding surface, when the driving part moves reversely, the driving part continuously drives the rotating workpiece to rotate due to the arrangement of the first guiding surface and/or the second guiding surface, so that the first tooth point is opposite to the second tooth groove, the second tooth point is opposite to the first tooth groove, and the next matching part is moved to a position capable of being matched with the matching part.

Further, a spacing area matched with the driving part is arranged between two adjacent matching parts; and after the driving part slides to enable the driving part to be matched with the matching part to drive the rotating part to rotate, the driving part is separated from the matching part and falls into the interval zone.

By adopting the structure, the arrangement of the spacing area can enable the product to run more stably and reliably; when the driving part and the first matching part are matched for driving, the driving part does not drive the rotating part to rotate when the driving part moves reversely, so that the driving part is always positioned in the interval area when the driving part slides, and the relative position of the driving part and the rotating part is kept unchanged more stably; when the driving part and the second matching part are matched for driving, the driving part continuously drives the rotating part to rotate when the driving part moves reversely, so that the driving part is matched with the spacing area to be matched with the next matching part.

Further, the spacer is formed as a groove for sliding of the driving part. By adopting the structure, the driving part can be prevented from sliding, and the rotating part is driven to slide when the driving part slides, so that the product can run more stably and reliably.

Further, the driving piece is arranged on the valve core seat in a sliding manner, a first driving inclined plane is arranged on the driving part of the driving piece, and a second driving inclined plane matched with the first driving inclined plane is arranged on the matching part of the rotating piece; the driving piece is slid so that the first driving inclined surface is contacted with the second driving inclined surface and relatively slides to drive the rotating piece to rotate.

By adopting the structure, the first driving inclined plane and the second driving inclined plane are arranged, so that the rotation of the rotating part is driven when the driving part slides to one side; the inclination angles of the second driving inclined planes on the first matching part and the second matching part are the same, but the lengths are different, so that the rotation angles of the rotating parts are different, and specifically, the lengths of the second driving inclined planes on the first matching part are shorter than those of the second driving inclined planes on the second matching part.

Further, the valve core seat is convexly provided with a mounting shaft, and the rotating piece and the driving piece are sleeved on the mounting shaft. By adopting the structure, the rotary installation of the rotary part and the sliding installation of the driving part are realized.

Further, the side wall of the mounting shaft is provided with limiting ribs which are used for limiting the rotation of the driving piece in a protruding mode at the position of the driving piece, and limiting grooves matched with the limiting ribs are formed in the side wall of the trepanning of the driving piece. By adopting the structure, the driving piece can only slide but cannot rotate, so that the stable and reliable operation of the product is ensured; specifically, for easy to assemble, the trepanning lateral wall of rotating the piece be provided with restriction muscle assorted dodges the mounting groove, dodge the mounting groove and be provided with a plurality ofly, in order to realize the driving piece with the rotating the piece can install with different relative positions.

Further, the valve core seat is provided with a shielding cover for shielding the rotating piece and the driving piece in a protruding mode. By adopting the structure, the user can be prevented from operating the rotating piece to restore the product and continuously use the product.

Further, the distributor valve core comprises a lock pin, a first lock hole matched with the lock pin is formed in the rotating piece, and a second lock hole matched with the lock pin is formed in the driving piece; and the rotating piece and the driving piece are positioned at a first working position under the condition that the lock pin is simultaneously inserted into the first lock hole and the second lock hole.

By adopting the structure, when the lock pin is inserted into the first lock hole and the second lock hole at the same time, the lock pin can prevent the rotating piece and the driving piece from rotating relatively, so that the rotating piece and the driving piece can be kept at a first working position; the product is convenient to transport, and the lock pin is required to be detached when the product is used; specifically, be provided with a plurality of second lockholes on the rotating member in order to realize that both the driving member with the rotating member can both lock through the lockpin when the different relative positions are installed.

A dispenser comprises a dispenser seat arranged on a wine spear, a dispenser valve core for opening and closing the wine spear, and an operating device movably arranged on the dispenser seat; the distributor valve core adopts the distributor valve core;

the distributor seat is provided with a movable hole matched with the distributor valve core, and the distributor valve core is arranged in the movable hole in a sliding manner so as to open and close the wine spear; the operating device is connected with the driving piece to drive the driving piece to act so as to rotate the rotating piece; the operation device is provided with a first locking part, the dispenser seat is provided with a second locking part matched with the first locking part, and the operation device drives the dispenser valve core to open the wine spear in a state that the first locking part is locked with the second locking part;

a limiting convex ring for limiting the movement range of the valve core of the distributor is arranged on the inner wall of the movable hole in a protruding way; the diameter of the distributor valve core facing the lower end part is not larger than the inner diameter of the limiting convex ring, and the diameter of the upper end part is larger than the inner diameter of the limiting convex ring.

By adopting the structure, the structure of the limiting convex ring and the distributor valve core realizes the movement limitation of the distributor valve core, and when the operating device presses down the distributor valve core, the upper end part of the distributor valve core cannot pass through the inner diameter of the limiting convex ring so as to realize the downward movement range of the distributor valve core; if the distance between the first surface and the second surface is H1, the first locking part can be matched and locked with the second locking part; if the distance between the first surface and the second surface is H2, the first locking portion cannot be locked with the second locking portion.

Further, the distributor valve core is provided with a connecting clamping groove; the operation device is provided with a connecting buckle matched with the connecting clamping groove; the operation assembly drives the valve core of the distributor to slide by means of the cooperation of the connecting buckle and the connecting clamping groove.

Further, the distributor seat is provided with an installation supporting rod, the operation device comprises a driving arm provided with the connecting buckle and an operation handle arranged on the driving arm to drive the driving arm to act, the driving arm is hinged on the installation supporting rod, and the rotation direction of the driving arm is matched with the sliding direction of the distributor valve core; the connecting buckle can move relative to the connecting clamping groove, and the moving direction of the connecting buckle in the connecting clamping groove is inconsistent with the sliding direction of the valve core of the distributor.

Further, in a state that the operating device drives the valve core of the distributor to slide upwards, the first contact surface of the connecting buckle acts on the second contact surface of the connecting clamping groove; the third contact surface of the connecting buckle acts on the fourth contact surface of the connecting clamping groove in a state that the operating device drives the valve core of the distributor to slide downwards; the first contact surface and the third contact surface are arc-shaped.

Further, in a pre-installation state of the connecting buckle and the connecting clamping groove, the connecting buckle is in contact with the outer wall of the connecting clamping groove; the contact part of the outer wall of the connecting clamping groove and the connecting buckle and/or the contact part of the connecting buckle and the outer wall of the connecting clamping groove is provided with a guide inclined plane which is convenient for the connecting buckle to be clamped into the connecting clamping groove.

Further, the connecting clamping groove is an annular groove.

Further, the operation device is provided with two connection buckles and is respectively positioned at two sides of the valve core of the distributor; correspondingly, the connecting clamping groove is matched with the two connecting buckles.

Further, a gear part is arranged on the distributor seat, and a gear groove is arranged on the gear part; the operating handle comprises a fixed handle, a movable handle, a push rod and a push rod resetting piece, the fixed handle is connected with the driving arm, a first through hole penetrating through the front part and the rear part is formed in the fixed handle, the push rod is arranged in the first through hole in a sliding mode, the movable handle is arranged outside the fixed handle, and the movable handle is connected with the push rod and drives the push rod to approach or depart from the gear part through sliding on the fixed handle; the ejector rod resetting piece acts on the ejector rod to enable the ejector rod to have a trend of approaching the gear part; and in a state that the thimble is clamped into the gear groove, the operating device drives the valve core of the distributor to open the wine spear. The carrier rod is formed as the first locking portion, and the gear position groove is formed as the second locking portion.

Further, one end face of the movable handle protrudes and recedes in the circumferential direction to form a first matching surface with a wave shape; the contact surface of the fixed handle, which is contacted with the first matching surface, is raised and recessed in the circumferential direction to form a second matching surface with a wave shape, and the first matching surface is matched with the second matching surface.

Compared with the prior art, the invention has the following beneficial effects: according to the distributor valve core and the distributor, the height between the first surface and the second surface is increased through the cooperation of the driving piece and the rotating piece, so that the distributor cannot be used normally, a user can replace a new distributor valve core, and the sanitary problem is solved.

Drawings

FIG. 1 is a schematic view of the structure of a dispenser cartridge of the present invention;

FIG. 2 is a schematic view of the explosive structure of the valve core of the dispenser of the present invention;

FIG. 3 is a schematic view of the process of the driving part of the valve core of the dispenser of the present invention cooperating with the first cooperating part to drive the rotating member;

FIG. 4 is a schematic view of the process of the driving part and the second matching part of the valve core of the dispenser of the present invention to drive the rotating member in a matching way;

FIG. 5 is a schematic perspective view of a dispenser according to the invention;

FIG. 6 is a schematic view of the engagement structure between the operating device and the valve cartridge in the dispenser of the present invention;

FIG. 7 is an enlarged view at A in FIG. 6;

FIG. 8 is a schematic cross-sectional view of a dispenser of the present invention;

FIG. 9 is an enlarged view at B in FIG. 8;

FIG. 10 is an enlarged view of FIG. 8 at C;

Reference numerals: 1a distributor valve core; 101 a valve core seat; 1011 mounting a shaft; 1011a restraining bars; 1012 shielding cover; 102, rotating a piece; 1021 a second side; 1022 mating portions; 1022a first mating portion; 1022b second mating portions; 1022c second drive ramp; 1023 fourth side; 1023a second tooth point; 1023b second gullet; 1023c second guide surface; 1024 spacers; 1025 a first locking hole; 1026 avoiding the mounting groove; 103 driving member; 1031 a first face; 1032a driving part; 1032a first drive ramp; 1033a third face; 1033a first tooth tip; 1033b first tooth slots; 1033c first guide surfaces; 1034 limit grooves; 1035 a second locking hole; 104 a rest surface; 105 locking pins; 106 connecting the clamping grooves; 1061 a second contact surface; 1062 a fourth contact surface; 2a distributor base; 201 a movable hole; 2011, limiting the convex ring; 202 mounting a supporting rod; 203 gear parts; 2031 gear groove; 3, operating the device; 301 connecting buckle; 3011 a first contact surface; 3012 a third contact surface; 302a drive arm; 303 operating a handle; 3031a fixed handle; 3031a first perforation; 3031a 1a first large aperture segment; 3031a 2a first small bore segment; 3031b second mating surface; 3032a movable handle; 3032a second perforation; 3032a 1a second small bore segment; 3032a 2a second large aperture segment; 3032b first mating surface; 3033 ejector rods; 3033a plug; 3033b large cylindrical section; 3033c small cylindrical section; 3033d snap spring groove; 3034 a push rod resetting piece; 3035 gaskets; 3036 snap springs; 4, guiding an inclined plane; 5 restriction pieces.

Detailed Description

The following describes in further detail the embodiments of the present invention with reference to the drawings and examples. The following examples are illustrative of the invention and are not intended to limit the scope of the invention.

As shown in fig. 1 to 4, a dispenser cartridge 1 includes a cartridge seat 101, a rotary member 102 rotatably provided on the cartridge seat 101, and a driving member 103 for driving the rotary member 102;

The driving member 103 is provided with a driving portion 1032 for driving the rotating member 102 to rotate, the rotating member 102 is provided with a matching portion 1022 matched with the driving portion 1032, and the matching portion 1022 includes a first matching portion 1022a;

the driving member 103 is formed with a first surface 1031, and the rotating member 102 is formed with a second surface 1021;

In the state that the rotating member 102 and the driving member 103 are at the first working position, the distance between the first surface 1031 of the driving member 103 and the second surface 1021 of the rotating member 102 is H1, and when the driving member 103 acts, the engaging portion 1022 can engage with the driving portion 1032 to drive the rotating member 102 to rotate;

in the second working position state of the rotating member 102 and the driving member 103, a distance between the first surface 1031 of the driving member 103 and the second surface 1021 of the rotating member 102 is H2, and H2 is greater than H1;

In a normal assembly state, the rotating member 102 and the driving member 103 are in a first working position;

After the driving portion 1032 of the driving member 103 cooperates with the first mating portion 1022a of the rotating member 102 to drive the rotating member 102 to rotate, the rotating member 102 and the driving member 103 are in the second working position.

With the above structure, when in use, a user installs the dispenser valve core 1 on the dispenser seat 2, and then connects the operating device 3 with the driving piece 103 in the dispenser valve core 1; the user can press down the dispenser valve core 1 to open the wine spear or lift the dispenser valve core 1 to close the wine spear by operating the operating device 3;

In the above process, the operating device 3 drives the driving member 103 to act so that the driving portion 1032 cooperates with the cooperation portion 1022 to rotate the rotating member 102, when the driving portion 1032 cooperates with the first cooperation portion 1022a to drive the rotating member 102, the driving member 103 and the rotating member 102 are in the second working position so that the distance between the first surface 1031 and the second surface 1021 is increased from H1 to H2, and when the user operates the operating device 3 again to press the dispenser valve core 1 to open the wine spear, the dispenser cannot be normally used due to the limiting structure of the dispenser seat 2 and the dispenser valve core 1, the operating device 3 cannot be locked in the state, so that the user can replace the dispenser valve core 1, and the sanitation of the dispenser in the use process is improved.

Specifically, when the driving member 103 drives the rotating member 102 to rotate, the driving member 103 is firstly far away from the rotating member 102 and then close to the rotating member 102, and finally is in the first working state or the second working state.

Preferably, in the second working position state of the rotating member 102 and the driving member 103, the engaging portion 1022 does not engage with the driving portion 1032 to drive the rotating member 102 to rotate when the driving member 103 is operated; the above structure is adopted to force the user to replace the dispenser cartridge 1.

Preferably, the engaging portion 1022 includes a second engaging portion 1022b, and after the driving portion 1032 of the driving member 103 engages with the second engaging portion 1022b of the rotating member 102 to drive the rotating member 102 to rotate, the rotating member 102 and the driving member 103 are in the first working position; the second engaging portion 1022b is disposed in front of the first engaging portion 1022a along the rotation direction of the rotation member 102.

The wine barrel has a size fraction, and if the dispenser valve core 1 is practical only once, waste is caused for a small wine barrel; with the structure, the use times of the valve core 1 of the distributor can be increased; a user selects a proper distributor valve core 1 according to the size of the wine barrel;

If only the first engaging portion 1022a is provided, when the user operates the operating device 3 to press down and lift the dispenser valve core 1, the driving portion 1032 cooperates with the first engaging portion 1022a to drive the rotating member 102 to rotate, and when the operating device 3 presses down the dispenser valve core 1 again, the rotating member 102 and the driving member 103 assume the second working position, so that the dispenser valve core 1 cannot be used continuously;

If the second engaging portion 1022b is provided, when the user operates the operating device 3 to push down and lift the dispenser valve core 1, since the second engaging portion 1022b is provided in front of the first engaging portion 1022a, the driving portion 1032 will first cooperate with the second engaging portion 1022b to drive the rotating member 102 to rotate, and when the operating device 3 pushes down the dispenser valve core 1 again, the rotating member 102 and the driving member 103 still form the first working position, so the dispenser valve core 1 can be used continuously until the operating device 3 is operated to drive the driving portion 1032 and the first engaging portion 1022a in cooperation so that the rotating member 102 and the driving member 103 form the second working position, and the dispenser valve core 1 cannot be used continuously; in the above-described structure, the number of uses of the dispenser cartridge 1 is determined by the number of the second engaging portions 1022 b;

However, in actual production, the product is provided with a first matching portion 1022a and a plurality of second matching portions 1022b, and different relative positions of the driving member 103 and the rotating member 102 are realized through assembly, so that the number of times that the driving portion 1032 needs to be matched with the first matching portion 1022a after being matched with the plurality of second matching portions 1022b to realize the use of the dispenser valve core 1 is realized; and the practical production is convenient.

Preferably, the driving member 103 is formed as a third surface 1033 at an opposite side of the first surface 1031 thereof and the third surface 1033 is provided with a convex first tooth point 1033a and a concave first tooth slot 1033b; the rotating member 102 is formed as a fourth surface 1023 on the opposite side of the second surface 1021 thereof and the fourth surface 1023 is provided with a convex second tooth tip 1023a and a concave second tooth slot 1023b;

In the first working position state of the rotating member 102 and the driving member 103, the third face 1033 contacts the fourth face 1023, the first tooth tip 1033a faces the second tooth slot 1023b, and the first tooth slot 1033b faces the second tooth tip 1023 a; as shown in fig. 3 (a) and fig. 4 (a) and (d).

In the second working position state of the rotating member 102 and the driving member 103, the third face 1033 contacts the fourth face 1023 and the first tooth point 1033a is opposite to the second tooth point 1023 a; as shown in fig. 3 (c).

With the above configuration, the relative positions of the first tooth point 1033a, the first tooth groove 1033b, the second tooth point 1023a, and the second tooth groove 1023b are realized by changing the relative positions of the third surface 1033 and the fourth surface 1023, and thus the distance between the first surface 1031 and the second surface 1021 is changed.

Preferably, the first tooth point 1033a and/or the second tooth point 1023a are provided with a rest surface 104 for enabling the two to be stably held in a relative abutment state.

With the above structure, the arrangement of the stopping surface 104 enables the first tooth point 1033a and the second tooth point 1023a to be stably maintained when being opposite and abutted together, so as to ensure the stable operation of the product; specifically, the resting surface 104 is a plane.

Preferably, the mating portion 1022 includes a second mating portion 1022b;

A first guiding surface 1033c for guiding the second tooth tip 1023a to face the first tooth groove 1033b is arranged between the first tooth tip 1033a and the first tooth groove 1033b, and/or a second guiding surface 1023c for guiding the first tooth tip 1033a to face the second tooth groove 1023b is arranged between the second tooth tip 1023a and the second tooth groove 1023 b;

The driving piece 103 is slidably arranged on the valve core seat 101;

After the driving member 103 is slid so that the driving portion 1032 cooperates with the first engaging portion 1022a to drive the rotating member 102 to rotate, the first tooth point 1033a on the rotating member 102 is opposite to the second tooth point 1023a on the driving member 103;

After the driving member 103 is slid so that the driving portion 1032 cooperates with the second engaging portion 1022b to drive the rotating member 102 to rotate, the first tooth point 1033a on the rotating member 102 is opposite to the second guiding surface 1023c on the driving member 103 and/or the second tooth point 1023a on the driving member 103 is opposite to the first guiding surface 1033c on the rotating member 102;

When the driving member 103 is in the first working position with the rotating member 102 and the driving member 103, the engaging portion 1022 can cooperate with the driving portion 1032 to drive the rotating member 102 to rotate, which is specifically shown that there is necessarily one engaging portion 1022 located on the sliding track of the driving portion 1032, so that the driving member 103 can drive the rotating member 102 to rotate when the rotating member 102 and the driving member 103 are in the first working position.

With the above configuration, the driving member 103 is slid to one side so that the driving portion 1032 cooperates with the engaging portion 1022 to drive the rotation member 102 to rotate, and then the driving member 103 is slid in the opposite direction so that the third surface 1033 contacts the fourth surface 1023;

if the first engaging portion 1022a is engaged with the driving portion 1032, after the rotating member 102 rotates, the first tooth point 1033a is opposite to the second tooth point 1023a, and when the driving member 103 moves reversely, the first tooth point 1033a abuts against the second tooth point 1023 a; since the phase positions of the driving member 103 and the rotating member 102 are not changed when the driving member 103 moves reversely, the driving member 103 cannot continue to drive the rotating member 102 to rotate when sliding again, and the driving member 103 and the rotating member 102 are kept in the second working state.

If the second engaging portion 1022b is engaged with the driving portion 1032, after the rotating member 102 rotates, the first tooth point 1033a is opposite to the second guiding surface 1023c and/or the second tooth point 1023a is opposite to the first guiding surface 1033c, when the driving member 103 moves reversely, due to the arrangement of the first guiding surface 1033c and/or the second guiding surface 1023c, the driving member 103 continues to drive the rotating member to rotate, so that the first tooth point 1033a is opposite to the second tooth groove 1023b, and the second tooth point 1023a is opposite to the first tooth groove 1033b, and meanwhile, the next engaging portion 1022 is moved to a position capable of being engaged with the engaging portion 1022.

Preferably, a spacing area 1024 matched with the driving part 1032 is arranged between two adjacent matching parts 1022; after the driving member 103 is slid so that the driving portion 1032 cooperates with the engaging portion 1022 to drive the rotating member 102 to rotate, the driving portion 1032 is disengaged from the engaging portion 1022 and falls into the space 1024.

With the above structure, the arrangement of the spacing regions 1024 can make the product run more stably and reliably;

When the driving part 1032 cooperates with the first mating part 1022a to drive, the driving part 103 does not drive the rotating part 102 to rotate when the driving part 103 moves reversely, so that when the driving part 103 slides, the driving part 1032 is always located in the spacing area 1024, so that the relative position of the driving part 103 and the rotating part 102 is more stable and kept unchanged;

when the driving part 1032 is engaged with the second engaging part 1022b, the driving part 1032 is engaged with the next engaging part 1022 from the engaging with the space 1024 because the driving part 103 continues to drive the rotation member 102 to rotate when the driving part 103 moves in the opposite direction.

Preferably, the spacing region 1024 is formed as a recess for the driving part 1032 to slide.

By adopting the structure, the driving part 103 can be prevented from driving the rotating part 102 to slide when sliding, so that the product can run more stably and reliably.

Preferably, the driving member 103 is slidably disposed on the valve core seat 101, a driving portion 1032 of the driving member 103 is provided with a first driving inclined surface 1032a, and a mating portion 1022 of the rotating member 102 is provided with a second driving inclined surface 1022c that matches the first driving inclined surface 1032 a; the driving member 103 is slid so that the first driving inclined surface 1032a contacts with the second driving inclined surface 1022c and slides relatively to drive the rotation member 102 to rotate.

With the above structure, by the arrangement of the first driving inclined surface 1032a and the second driving inclined surface 1022c, the rotation of the rotating member 102 is driven when the driving member 103 slides to one side; the first engaging portion 1022a and the second driving inclined surface 1022c of the second engaging portion 1022b have the same inclination angle but different lengths, so that the rotation angle of the rotation member 102 is different, and specifically, the second driving inclined surface 1022c of the first engaging portion 1022a has a shorter length than the second driving inclined surface 1022c of the second engaging portion 1022 b.

Preferably, the valve body seat 101 is provided with a mounting shaft 1011 in a protruding manner, and the rotating member 102 and the driving member 103 are sleeved on the mounting shaft 1011.

With the above structure, the rotational mounting of the rotary member 102 and the sliding mounting of the driving member 103 are realized.

Preferably, the side wall of the mounting shaft 1011 is provided with a limiting rib 1011a for limiting the rotation of the driving member 103, and the side wall of the trepanning of the driving member 103 is provided with a limiting groove 1034 matched with the limiting rib 1011 a.

By adopting the structure, the driving piece 103 can only slide but cannot rotate, so that the stability and reliability of product operation are ensured;

Specifically, for easy installation, the trepanning side wall of the rotating member 102 is provided with a plurality of avoiding mounting grooves 1026 matching with the limiting ribs 1011a, and the avoiding mounting grooves 1026 are provided so as to realize that the driving member 103 and the rotating member 102 can be mounted at different relative positions.

Preferably, the valve core seat 101 is provided with a shielding cover 1012 protruding from the rotating member 102 and the driving member 103 for shielding the rotating member and the driving member.

With the above structure, the user can be prevented from operating the rotator 102 to restore the product and continue to use the product.

Preferably, the dispenser valve core 1 includes a lock pin 105, the rotating member 102 is provided with a first lock hole 1025 matched with the lock pin 105, and the driving member 103 is provided with a second lock hole 1035 matched with the lock pin 105; in a state in which the lock pin 105 is inserted into the first lock hole 1025 and the second lock hole 1035 at the same time, the rotating member 102 and the driving member 103 are in the first working position.

With the above structure, when the lock pin 105 is inserted into the first lock hole 1025 and the second lock hole 1035 at the same time, the lock pin 105 can prevent the rotating member 102 and the driving member 103 from rotating relatively, so as to ensure that the rotating member 102 and the driving member 103 can be kept at the first working position; the product is convenient to transport, and the lock pin 105 needs to be disassembled when in use; specifically, the rotating member 102 is provided with a plurality of second locking holes 1035 to realize that the driving member 103 and the rotating member 102 can be locked by the locking pin 105 when being mounted at different relative positions.

As shown in fig. 1 to 10, a dispenser comprises a dispenser seat 2 mounted on a spear, a dispenser valve core 1 for opening and closing the spear, and an operating device 3 movably provided on the dispenser seat 2; the distributor valve core 1 adopts the distributor valve core 1;

The dispenser seat 2 is provided with a movable hole 201 matched with the dispenser valve core 1, and the dispenser valve core 1 is arranged in the movable hole 201 in a sliding manner to open and close the wine spear; the operating device 3 is connected with the driving piece 103 to drive the driving piece 103 to act so as to rotate the rotating piece 102; the operation device 3 is provided with a first locking part, the dispenser seat 2 is provided with a second locking part matched with the first locking part, and the operation device 3 drives the dispenser valve core 1 to open the spear under the state that the first locking part is locked with the second locking part;

A limiting convex ring 2011 for limiting the movement range of the valve core 1 of the distributor is protruded on the inner wall of the movable hole 201; the diameter of the distributor valve core 1 facing the lower end is not larger than the inner diameter of the limiting convex ring 2011, and the diameter of the upper end is larger than the inner diameter of the limiting convex ring 2011.

With the above structure, the structure of the limiting convex ring 2011 and the structure of the distributor valve core 1 can limit the movement of the distributor valve core 1, when the operating device 3 presses down the distributor valve core 1, the upper end of the distributor valve core 1 cannot pass through the inner diameter of the limiting convex ring 2011 to realize the downward movement range of the distributor valve core 1; if the distance between the first surface 1031 and the second surface 1021 is H1, the first locking portion can be locked with the second locking portion; if the distance between the first surface 1031 and the second surface 1021 is H2, the first locking portion cannot be locked with the second locking portion.

Preferably, the dispenser valve core 1 is provided with a connecting clamping groove 106; the operation device 3 is provided with a connection buckle 301 matched with the connection clamping groove 106; the operation assembly drives the dispenser valve core 1 to slide by means of the cooperation of the connection buckle 301 and the connection clamping groove 106.

With the above structure, the user opens and closes the spear by operating the operating device 3 to drive the dispenser valve core 1 to slide up and down in the movable hole 201; specifically, when the operation device 3 drives the dispenser valve core 1 to move downwards, namely to move towards the spear side, the dispenser valve core 1 presses down the opening and closing sealing element in the spear to realize the opening of the spear; when the operating device 3 drives the dispenser valve core 1 to move upwards, namely to move to the side far away from the wine spear, the dispenser valve core 1 removes the force on the opening and closing sealing element in the wine spear, and the opening and closing sealing element is driven to reset under the action of the opening and closing resetting element in the wine spear so as to realize the closing of the wine spear.

In the above structure, the operation device 3 and the dispenser valve core 1 are in driving connection with the connection clamping groove 106 through the connection buckle 301, so that the two are convenient to install and separate, and a user can conveniently replace the dispenser valve core 1, so that the sanitation condition of a product in long-term operation is ensured;

Specifically, when the dispenser valve core 1 is installed, a user preinstalls the dispenser valve core 1 in the movable hole 201, and operates the operation device 3 to move towards the side close to the movable hole 201 to enable the connection buckle 301 to be clamped into the connection clamping groove 106, so that the operation device 3 and the dispenser valve core 1 are installed; when the distributor valve core 1 is detached, a user operates the operation device 3 to move towards the side far away from the movable hole 201, at the moment, the distributor valve core 1 moves upwards and is separated from the movable hole 201 under the drive of the operation device 3, and at the moment, the user can detach the distributor valve core 1 from the operation device 3;

A limiting member 5 for limiting the driving member 103 from sliding out of the mounting shaft 1011 is mounted on the mounting shaft 1011; when a user wants to replace the dispenser valve core 1 and operate the operation device 3 to move to the side far away from the movable hole 201, the operation device 3 drives the driving piece 103 to slide along the installation shaft 1011, and when the driving piece 103 contacts with the limiting piece 5, the driving piece 103 simultaneously drives the valve core seat 101 to move together, so that the dispenser valve core 1 is separated from the movable hole 201; the restriction 5 is a hose connector.

Preferably, the dispenser valve core 1 is provided with a liquid outlet which is in fluid communication with the wine pipe, a liquid inlet which is in fluid communication with the wine spear, and a communication channel which is used for communicating the liquid inlet and the liquid outlet.

With the above structure, when the dispenser valve core 1 opens the spear, the spear establishes fluid communication with the liquid outlet to output the wine in the wine barrel.

Preferably, the dispenser seat 2 is provided with a mounting strut 202, the operating device 3 comprises a driving arm 302 provided with the connecting buckle 301, and an operating handle 303 arranged on the driving arm 302 to drive the driving arm 302 to act, the driving arm 302 is hinged on the mounting strut 202, and the rotating direction of the driving arm 302 is matched with the sliding direction of the dispenser valve core 1;

The connecting buckle 301 can move relative to the connecting clamping groove 106, and the moving direction of the connecting buckle 301 in the connecting clamping groove 106 is inconsistent with the sliding direction of the dispenser valve core 1.

With the above structure, the driving arm 302 drives the dispenser valve core 1 through the rotational connection, and since the rotational direction of the driving arm 302 matches with the sliding direction of the dispenser valve core 1, when the driving arm 302 rotates downward, the driving arm 302 drives the dispenser valve core 1 to slide downward; when the driving arm 302 rotates upward, the driving arm 302 drives the dispenser spool 1 to slide upward.

Since the driving arm 302 is in circular rotation, the distributor valve core 1 is in linear sliding motion; so that the connecting buckle 301 can be slidably clamped into the connecting clamping groove 106, and the sliding direction of the connecting buckle 301 is inconsistent with the sliding direction of the valve core 1 of the dispenser, so as to avoid the clamping of the mechanism.

Preferably, in a state that the operating device 3 drives the dispenser valve core 1 to slide upwards, the first contact surface 3011 of the connection buckle 301 acts on the second contact surface 1061 of the connection slot 106; in a state in which the operating device 3 drives the dispenser valve core 1 to slide downward, the third contact surface 3012 of the connection buckle 301 acts on the fourth contact surface 1062 of the connection slot 106; the first contact surface 3011 and the third contact surface 3012 are arc-shaped.

With the above structure, the first contact surface 3011 and the third contact surface 3012 are arc surfaces, so that the driving arm 302 drives the connecting buckle 301 to act to drive the dispenser valve core 1 to slide up and down more stably and reliably, and simultaneously, the locking of the mechanism is avoided.

Preferably, in the pre-installation state of the connection buckle 301 and the connection slot 106, the connection buckle 301 contacts with the outer wall of the connection slot 106; the contact position between the outer wall of the connection clamping groove 106 and the connection clamping buckle 301 and/or the contact position between the connection clamping buckle 301 and the outer wall of the connection clamping groove 106 is provided with a guiding inclined plane 4 which is convenient for the connection clamping buckle 301 to clamp into the connection clamping groove 106.

With the above structure, the connection buckle 301 is conveniently clamped into the connection clamping groove 106, namely, the installation between the operation device 3 and the distributor valve core 1 is conveniently performed;

The user operates the operation device 3 to move to the side close to the movable hole 201 until the connection buckle 301 and the connection clamping groove 106 are pre-installed, that is, the connection buckle 301 contacts with the outer wall of the connection clamping groove 106, and the user continues to operate the operation device 3 to enable the operation device 3 to continue to move, at this time, the connection buckle 301 is clamped into the connection clamping groove 106 under the action of the guide inclined plane 4.

Preferably, the connection slot 106 is an annular groove.

By adopting the structure, when a user preinstalls the distributor valve core 1, the distributor valve core 1 can be placed at will, and the connecting buckle 301 can be clamped into the connecting clamping groove 106 of the annular groove structure, so that the installation of the user is convenient;

And when the distributor valve core 1 is dismounted, the connecting clamping groove 106 is an annular groove, so that after the operating device 3 drives the distributor valve core 1 to be separated from the movable hole 201, the connecting clamping buckle 301 can directly slide out of the connecting clamping groove 106, thereby facilitating the dismounting of a user.

Preferably, the operating device 3 is provided with two connecting buckles 301 and is respectively positioned at two sides of the dispenser valve core 1; correspondingly, the connection clamping groove 106 is matched with the two connection buckles 301, for example, the connection clamping groove 106 is provided with two or the connection clamping groove 106 is an annular groove.

By adopting the structure, the operating device 3 can drive the distributor valve core 1 to slide more stably;

Specifically, two driving arms 302 are provided and are respectively located at two sides of the movable hole 201, and two connecting buckles 301 are respectively provided on the two driving arms 302; the operating device 3 comprises a synchronizing rod for connecting the two driving arms 302 so that the two driving arms can synchronously act; the operation handle 303 is provided on the synchronizing bar.

Preferably, the dispenser seat 2 is provided with a gear part 203, and the gear part 203 is provided with a gear groove 2031;

The operation handle 303 includes a fixed handle 3031, a movable handle 3032, a push rod 3033, and a push rod reset piece 3034, the fixed handle 3031 is connected with the driving arm 302, a first through hole 3031a penetrating front and back is provided in the fixed handle 3031, the push rod 3033 is slidably disposed in the first through hole 3031a, the movable handle 3032 is sleeved outside the fixed handle 3031, and the movable handle 3032 is connected with the push rod 3033 and drives the push rod 3033 to approach or depart from the gear part 203 through sliding on the fixed handle 3031; the jack reset piece 3034 acts on the jack 3033 so that the jack 3033 has a tendency to approach the gear part 203;

In a state that the ejector pin is clamped into the gear groove 2031, the operating device 3 drives the dispenser valve core 1 to open the spear.

The carrier bar 3033 is formed as the first locking portion, and the gear step groove 2031 is formed as the second locking portion.

With the above structure, when the valve core 1 of the dispenser presses the opening and closing seal member in the spear to open the spear, the opening and closing seal member needs to overcome the acting force of the opening and closing reset member, so that the opening and closing seal member applies a force to the valve core 1 of the dispenser to move upwards, so that the push rod 3033 and the gear slot 2031 are arranged, when the push rod 3033 is clamped into the gear slot 2031 under the action of the push rod reset member 3034, if the user removes the force applied to the operating device 3, the cooperation of the push rod 3033 and the gear slot 2031 can still maintain the state of the operating device 3, namely, the state that the valve core 1 of the dispenser presses the opening and closing seal member;

When the user wants to close the spear or replace the dispenser valve core 1, the user only needs to slide the movable handle 3032, so that the movable handle 3032 drives the push rod 3033 to move away from the gear part 203, that is, the push rod 3033 is separated from the gear groove 2031 to unlock the two, and the user can operate the operating device 3.

Specifically, the first through hole 3031a includes a first large aperture segment 3031a1 on a side close to the driving arm 302 and a first small aperture segment 3031a2 on a side far from the driving arm 302; the ejector rod 3033 is sequentially and coaxially integrally connected with a plug 3033a, a large cylindrical section 3033b which is matched and sleeved with the first large aperture section 3031a1, and a small cylindrical section 3033c which is matched and sleeved with the first small aperture section 3031a2, the tail end of the small cylindrical section 3033c of the ejector rod 3033 passes through the first through hole 3031a and is sleeved with a gasket 3035 at the exceeding part, and the small cylindrical section 3033c is provided with a clamp spring groove 3033d and a clamp spring 3036 clamped in the clamp spring groove 3033d at one side of the gasket 3035 close to the tail end of the small cylindrical section 3033 c; the outer diameter of the shim 3035 is greater than the outer diameter of the stationary handle 3031; a second through hole 3032a penetrating through the front and rear is provided in the movable handle 3032, and the second through hole 3032a includes a second small-aperture section 3032a1 matched with the outer diameter of the fixed handle 3031 and a second large-aperture section 3032a2 matched with the outer diameter of the gasket 3035; the shim 3035 abuts against the stepped surface formed by the second large aperture segment 3032a2 and the second small aperture segment 3032a 1.

The gear portion 203 is provided with an arc surface on a side facing the operation handle 303, and the gear groove 2031 is provided on the arc surface.

Preferably, an end surface of the movable handle 3032 protrudes and is recessed in the circumferential direction to form a first mating surface 3032b having a wave shape; the contact surface of the fixed handle 3031 contacting the first mating surface 3032b is protruded and recessed in the circumferential direction to form a second mating surface 3031b having a wave shape, and the first mating surface 3032b is matched with the second mating surface 3031 b.

With the above structure, turning the movable handle 3032 causes the convex portion on the first mating surface 3032b to move relatively from the concave portion on the second mating surface 3031b to slide relatively to the convex portion on the second mating surface 3031b to realize the movable handle 3032; when the user removes the force applied to the movable handle 3032, the movable handle 3032 slides reversely under the push rod resetting member 3034, and at this time, the movable handle 3032 rotates so that the convex portion on the first mating surface 3032b moves relatively from the convex portion on the second mating surface 3031b to be opposite to the concave portion on the second mating surface 3031 b; the structure ensures that a user slides the sliding handle to save more labor.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that several modifications and variations can be made without departing from the technical principle of the present invention, and these modifications and variations should also be regarded as the scope of the invention.

Claims (6)

1. A dispenser cartridge, characterized by: comprises a valve core seat (101), a rotating piece (102) rotatably arranged on the valve core seat (101), and a driving piece (103) for driving the rotating piece (102);

The driving part (103) is provided with a driving part (1032) for driving the rotating part (102) to rotate, the rotating part (102) is provided with a matching part (1022) matched with the driving part (1032), and the matching part (1022) comprises a first matching part (1022 a);

the driving member (103) is formed with a first surface (1031), and the rotating member (102) is formed with a second surface (1021);

The distance between the first surface (1031) of the driving piece (103) and the second surface (1021) of the rotating piece (102) is H1 when the rotating piece (102) and the driving piece (103) are in a first working position state, and the matching part (1022) can be matched with the driving part (1032) to drive the rotating piece (102) to rotate when the driving piece (103) acts;

The distance between the first surface (1031) of the driving piece (103) and the second surface (1021) of the rotating piece (102) is H2 and H2 is larger than H1 when the rotating piece (102) and the driving piece (103) are in a second working position state;

In a normal assembly state, the rotating member (102) and the driving member (103) are in a first working position;

after the driving part (1032) on the driving piece (103) is matched with the first matching part (1022 a) on the rotating piece (102) to drive the rotating piece (102) to rotate, the rotating piece (102) and the driving piece (103) are positioned at a second working position;

The matching part (1022) comprises a second matching part (1022 b), and after the driving part (1032) on the driving piece (103) is matched with the second matching part (1022 b) on the rotating piece (102) to drive the rotating piece (102) to rotate, the rotating piece (102) and the driving piece (103) are in a first working position; the second engaging portion (1022 b) is provided in front of the first engaging portion (1022 a) along a rotation direction of the rotation member (102);

The driving member (103) is formed as a third face (1033) on the opposite side of the first face (1031) thereof, and the third face (1033) is provided with a convex first tooth tip (1033 a) and a concave first tooth slot (1033 b); the rotary member (102) is formed as a fourth face (1023) on the opposite side of the second face (1021) thereof and the fourth face (1023) is provided with a convex second tooth tip (1023 a) and a concave second tooth slot (1023 b);

The rotating member (102) and the driving member (103) are in a first working position state, the third face (1033) is in contact with the fourth face (1023), the first tooth tip (1033 a) is opposite to the second tooth groove (1023 b), and the first tooth groove (1033 b) is opposite to the second tooth tip (1023 a);

In a second operating position of the rotating element (102) and the driving element (103), the third face (1033) is in contact with the fourth face (1023) and the first tooth tip (1033 a) is opposite to the second tooth tip (1023 a);

the mating part (1022) includes a second mating part (1022 b);

A first guiding surface (1033 c) for guiding the second tooth tip (1023 a) to be opposite to the first tooth groove (1033 b) is arranged between the first tooth tip (1033 a) and the first tooth groove (1033 b), and/or a second guiding surface (1023 c) for guiding the first tooth tip (1033 a) to be opposite to the second tooth groove (1023 b) is arranged between the second tooth tip (1023 a) and the second tooth groove (1023 b);

The driving piece (103) is arranged on the valve core seat (101) in a sliding manner;

sliding the driving member (103) so that the driving portion (1032) cooperates with the first cooperation portion (1022 a) to drive the rotating member (102) to rotate, and then, a first tooth tip (1033 a) on the rotating member (102) is opposite to a second tooth tip (1023 a) on the driving member (103);

Sliding the driving member (103) so that the driving portion (1032) cooperates with the second cooperating portion (1022 b) to drive the rotating member (102) to rotate, wherein a first tooth tip (1033 a) on the rotating member (102) is opposite to a second guiding surface (1023 c) on the driving member (103) and/or a second tooth tip (1023 a) on the driving member (103) is opposite to a first guiding surface (1033 c) on the rotating member (102);

The driving piece (103) is arranged on the valve core seat (101) in a sliding manner, a first driving inclined surface (1032 a) is arranged on a driving part (1032) of the driving piece (103), and a second driving inclined surface (1022 c) matched with the first driving inclined surface (1032 a) is arranged on a matching part (1022) of the rotating piece (102); the driving member (103) is slid so that the first driving inclined surface (1032 a) contacts with the second driving inclined surface (1022 c) and a relative sliding occurs to drive the rotation member (102) to rotate.

2. The dispenser cartridge of claim 1, wherein: the first tooth tip (1033 a) and/or the second tooth tip (1023 a) are provided with a rest surface (104) for enabling the two to be stably held in a relative abutment state.

3. The dispenser cartridge of claim 1, wherein: a spacing zone (1024) matched with the driving part (1032) is arranged between two adjacent matching parts (1022); sliding the driving member (103) to enable the driving portion (1032) to be matched with the matching portion (1022) to drive the rotating member (102) to rotate, and then enabling the driving portion (1032) to be separated from the matching portion (1022) and fall into the interval zone (1024);

the spacing region (1024) is formed as a groove for the driving part (1032) to slide.

4. The dispenser cartridge of claim 1, wherein: the valve core seat (101) is convexly provided with a mounting shaft (1011), and the rotating piece (102) and the driving piece (103) are sleeved on the mounting shaft (1011);

A limiting rib (1011 a) for limiting the rotation of the driving piece (103) is convexly arranged on the side wall of the mounting shaft (1011) at the position where the driving piece (103) is mounted, and a limiting groove (1034) matched with the limiting rib (1011 a) is arranged on the side wall of the trepanning of the driving piece (103);

The valve core seat (101) is convexly provided with a shielding cover (1012) for shielding the rotating piece (102) and the driving piece (103).

5. The dispenser cartridge of claim 1, wherein: the rotary part (102) is provided with a first lock hole (1025) matched with the lock pin (105), and the driving part (103) is provided with a second lock hole (1035) matched with the lock pin (105); the lock pin (105) is simultaneously inserted into the first lock hole (1025) and the second lock hole (1035), and the rotating piece (102) and the driving piece (103) are located at a first working position.

6. A dispenser, characterized by: comprises a distributor seat (2) arranged on the wine spear, a distributor valve core (1) used for opening and closing the wine spear and an operating device (3) movably arranged on the distributor seat (2); the dispenser cartridge (1) employing the dispenser cartridge of any one of claims 1 to 5;

The dispenser seat (2) is provided with a movable hole (201) matched with the dispenser valve core (1), and the dispenser valve core (1) is arranged in the movable hole (201) in a sliding manner so as to open and close the wine spear; the operating device (3) is connected with the driving piece (103) to drive the driving piece (103) to act so as to rotate the rotating piece (102); the operation device (3) is provided with a first locking part, the dispenser seat (2) is provided with a second locking part matched with the first locking part, and the operation device (3) drives the dispenser valve core (1) to open the wine spear in a state that the first locking part is locked with the second locking part;

A limiting convex ring (2011) for limiting the movement range of the distributor valve core (1) is protruded on the inner wall of the movable hole (201); the diameter of the distributor valve core (1) facing the lower end part is not larger than the inner diameter of the limiting convex ring (2011), and the diameter of the upper end part is larger than the inner diameter of the limiting convex ring (2011).