CN219982685U - Brewing mechanism and tea sharing machine - Google Patents

Abstract

The utility model relates to a brewing mechanism and a tea sharing machine. The brewing mechanism comprises a fixed seat, a rotating seat, a pressure sensing assembly and an information feedback module, wherein a first rotating structure is arranged on the fixed seat, the rotating seat is rotatably arranged at the top of the fixed seat, a second rotating structure is arranged on the rotating seat to drive the rotating seat to rotate relative to the fixed seat in cooperation with the first rotating structure, a mounting opening spaced apart from a rotation center line of the rotating seat is formed in the top of the rotating seat, and the pressure sensing assembly is arranged at the mounting opening, so that the rotating seat can drive the pressure sensing assembly to rotate to the bottom of an external beverage bottle so as to acquire the pressure brought by the beverage bottle, and the information feedback module is electrically connected with the pressure sensing assembly so as to feed back the information used for representing the quantity of the beverage bottles to the outside according to the information provided by the pressure sensing assembly, so that staff responsible for supplementing the beverage bottles can know whether the quantity of the beverage bottles in a bottle storage space is sufficient or not, and whether the beverage bottles need to be supplemented or not is determined.

Description

Brewing mechanism and tea sharing machine

Technical Field

The utility model relates to the field of shared tea beverages, in particular to a brewing mechanism and a shared tea beverage machine.

Background

The shared tea drink device is a device capable of rapidly making drinks, and attracts a large number of customers due to low price.

The top of sharing tea beverage device is provided with deposits a bottle mechanism, the bottom of depositing bottle mechanism is equipped with tea brewing mechanism, deposit bottle mechanism and include a plurality of bottle spaces of depositing, a plurality of bottle spaces of depositing encircle same centre of a circle setting, in order to improve the bottle quantity of depositing, single bottle space of depositing can stack and place a plurality of beverage bottles, tea brewing mechanism is last to be equipped with one and falls the bottle position, tea brewing mechanism can rotate, make the bottle position that falls correspond with the position of depositing bottle space, be located the beverage bottle that deposits bottle space bottommost this moment and will fall a bottle position department that falls, make tea brewing mechanism can carry out the water injection to this beverage bottle and dash.

Because the number of the beverage bottles in the bottle storage space is insufficient, the beverage bottles need to be timely replenished, and a worker does not know the number of the beverage bottles in the bottle storage space, the worker can only estimate whether the beverage bottles in the bottle storage space are sufficient or not, and then whether the beverage bottles are replenished for the shared tea device or not is determined, and the beverage bottles cannot be replenished according to actual conditions.

Disclosure of Invention

The embodiment of the utility model aims to solve the technical problems that a brewing mechanism and a shared tea machine are provided, so that the problems that in the prior art, a worker can only estimate whether beverage bottles in a bottle storage space are sufficient or not, further determine whether the beverage bottles are supplemented for a shared tea device or not, and the beverage bottles cannot be supplemented according to actual conditions are solved.

In a first aspect, an embodiment of the present utility model provides a brewing mechanism comprising: the fixing seat is provided with a first rotating structure; the rotating seat is rotatably arranged on the fixed seat, a second rotating structure is arranged on the rotating seat and is used for being matched with the first rotating structure so as to drive the rotating seat to rotate relative to the fixed seat, a mounting opening is formed in the top of the rotating seat, and the mounting opening is spaced from the rotation center line of the rotating seat; the pressure sensing assembly is arranged at the mounting opening, and the rotating seat can drive the pressure sensing assembly to rotate to the bottom of an external beverage bottle, so that the pressure sensing assembly is connected with the external beverage bottle to obtain the pressure brought by the beverage bottle; and the information feedback module is electrically connected with the pressure sensing assembly, so as to feed back information for representing the number of beverage bottles to the outside according to the information provided by the pressure sensing assembly.

Further, the pressure sensing assembly includes: the ball mounting seat is fixedly arranged at the mounting opening, and a first opening is formed in one side, facing away from the fixed seat, of the ball mounting seat; the ball is rotatably arranged on the ball mounting seat and partially protrudes out of the first opening and the mounting opening; and the pressure sensor is connected with one side of the ball close to the fixed seat so as to acquire the pressure brought by the ball, and the feedback module is electrically connected with the pressure sensor.

Further, one side of the pressure sensing component, which is away from the fixing seat, is hemispherical, and one side of the pressure sensor, which is away from the fixing seat, is partially protruded out of the mounting opening.

Further, the first rotating structure is a gear ring arranged along the circumference of the fixed seat, and the gear ring is positioned at one side of the fixed seat facing the brewing mechanism; the second rotating structure comprises a first rotating motor and a first gear, the first rotating motor is fixedly arranged on the rotating seat, the first gear is connected with the first rotating motor and meshed with the gear ring, and the first rotating motor is used for driving the first gear to rotate.

In a second aspect, an embodiment of the present utility model further provides a shared tea beverage machine, including a brewing mechanism, which is the brewing mechanism shown in the first aspect above; the bottle storage mechanism is arranged at the top of the brewing mechanism and is provided with a plurality of bottle storage spaces, and the bottle storage spaces and the pressure sensing assemblies of the brewing mechanism are all positioned on a circle taking the rotation center line as the center of a circle when seen from the axial direction of the rotation center line of the rotating seat of the brewing mechanism.

Further, the bottle storing mechanism includes: the first base is arranged on one side of the rotary seat of the brewing mechanism, which is far away from the fixed seat of the brewing mechanism, and is provided with a plurality of second openings which are uniformly distributed on a circle taking the rotary center line of the rotary seat as a circle center as seen from the axial direction of the rotary center line of the rotary seat; the bottle storage cylinders are respectively arranged at the second openings, the bottle storage cylinders define a bottle storage space, and the bottoms of the bottle storage cylinders are provided with third openings communicated with the bottle storage space.

Further, a narrowing part is arranged at the position, close to the rotating seat, of the second opening, the narrowing part narrows towards the center of the second opening, and one side, close to the rotating seat, of the bottle storage barrel is abutted to the narrowing part.

Further, the narrowed portion is disposed around a center of the second opening.

Further, the bottle storage barrel is provided with a bottle adding opening at the other end, and the bottle storage mechanism further comprises a top cover detachably arranged on one side, far away from the rotating seat, of the bottle storage barrel.

Further, the bottle storage cylinder is a transparent bottle storage cylinder.

Compared with the prior art, the brewing mechanism and the shared tea machine provided by the embodiment of the utility model have the beneficial effects that: the brewing mechanism comprises a fixed seat, a rotating seat, a pressure sensing assembly and an information feedback module, wherein a first rotating structure is arranged on the fixed seat, the rotating seat is rotatably arranged at the top of the fixed seat, a second rotating structure is arranged on the rotating seat and is matched with the first rotating structure to drive the rotating seat to rotate relative to the fixed seat, a mounting opening is formed in the top of the rotating seat, specifically, the mounting opening is spaced from the rotating center line of the rotating seat, the pressure sensing assembly is arranged at the mounting opening, so that the rotating seat can drive the pressure sensing assembly to do arc movement, the pressure sensing assembly is moved to the bottom of any bottle storage space, the pressure sensing assembly is connected with an external beverage bottle to acquire the pressure brought by the beverage bottle, the information feedback module is electrically connected with the pressure sensing assembly, and information for representing the quantity of the beverage bottle is fed back to the outside according to the information provided by the pressure sensing assembly.

Drawings

The utility model will now be described in further detail with reference to the accompanying drawings and examples, in which:

fig. 1 is a schematic perspective view of a tea brewing mechanism according to an embodiment of the present utility model;

fig. 2 is a schematic perspective view of the tea brewing mechanism shown in fig. 1;

FIG. 3 is an enlarged schematic view of a portion of the position A of FIG. 2;

fig. 4 is a schematic perspective view of a fixing base and a second rotating structure according to an embodiment of the present utility model;

fig. 5 is a schematic perspective view of a shared tea machine according to an embodiment of the present utility model;

fig. 6 is a cross-sectional view of a shared tea machine provided by an embodiment of the present utility model;

fig. 7 is a schematic perspective view of a bottle storing mechanism, a tea brewing mechanism and a bottle taking bin according to the embodiment of the utility model;

FIG. 8 is an exploded view of a bottle holder and a first base provided by an embodiment of the present utility model;

FIG. 9 is an enlarged schematic view of a portion of the B position of FIG. 8;

fig. 10 is a schematic perspective view of a fixing base and a rotating base according to an embodiment of the present utility model;

FIG. 11 is a schematic perspective view of a transfer assembly according to an embodiment of the present utility model;

fig. 12 is a schematic view of another angled perspective of the transfer assembly of fig. 11.

The reference numerals in the drawings are as follows:

1000. a shared tea machine;

100. a brewing mechanism; 110. a fixing seat; 111. a first rotating structure; 112. a cylinder; 113. a third bottle opening falling; 120. a rotating seat; 121. a mounting port; 122. a fourth opening; 123. a second top plate; 124. a third base; 1241. a circular groove; 125. a second connector; 130. a second rotating structure; 131. a first rotating electric machine; 132. a first gear; 140. a pressure sensing assembly; 141. a ball mounting seat; 1411. a first opening; 142. a ball; 150. a transfer assembly; 151. a bottle rotating seat; 1511. a first bottle opening; 1512. a first top plate; 1513. a second base; 15131. convex teeth; 15132. a mounting part; 15133. a second bottle opening; 1514. a first connector; 152. a rotary drive assembly; 1521. a second rotating electric machine; 1522. a second gear; 160. a brewing assembly;

200. a bottle storage mechanism; 210. a bottle storage space; 220. a first base; 221. a second opening; 222. a narrowing portion; 230. a bottle storage cylinder; 231. a bottle adding opening; 240. a top cover;

300. and taking the bottle bin.

Detailed Description

It should be noted that, without conflict, the embodiments of the present utility model and features of the embodiments may be combined with each other. Preferred embodiments of the present utility model will now be described in detail with reference to the accompanying drawings.

The present embodiment provides a brewing mechanism 100, as shown in fig. 1-7, wherein the brewing mechanism 100 includes a fixed base 110, a rotating base 120, a pressure sensing assembly 140 and an information feedback module. The fixed seat 110 is provided with a first rotating structure 111, the rotating seat 120 is rotatably mounted on the fixed seat 110, a rotation center line of the rotating seat 120 extends along a first direction (X direction in fig. 2), the rotating seat 120 is provided with a second rotating structure 130, and the second rotating structure 130 is used for being matched with the first rotating structure 111 so as to drive the rotating seat 120 to rotate relative to the fixed seat 110. The top of the rotating seat 120 is provided with a mounting opening 121, the mounting opening 121 is spaced apart from the rotation center line of the rotating seat 120, the pressure sensing assembly 140 is arranged at the mounting opening 121, and the rotating seat 120 can drive the pressure sensing assembly 140 to rotate to the bottom of an external beverage bottle, so that the pressure sensing assembly 140 is connected with the external beverage bottle to obtain the pressure brought by the beverage bottle. The information feedback module is electrically connected with the pressure sensing component 140, so as to feed back information for representing the number of beverage bottles to the outside according to the information provided by the pressure sensing component 140.

By implementing the embodiment, since the mounting opening 121 is spaced from the rotation center line of the rotating seat 120, and the pressure sensing component 140 is mounted at the mounting opening 121, when the rotating seat 120 rotates relative to the bottle storing mechanism 200, the pressure sensing component 140 can move in an arc manner, so that the pressure sensing component 140 moves to the bottom of any bottle storing space 210 of the bottle storing mechanism 200, and at this time, the beverage bottle in the bottle storing space 210 is pressed against the pressure sensing component 140, so that the pressure sensing component 140 can obtain the pressure information brought by the beverage bottle and feed back the pressure information to the information feedback module. The information feedback module feeds back the information for representing the number of the beverage bottles to the outside according to the information provided by the pressure sensing component 140, so that a worker in charge of supplementing the beverage bottles can know whether the number of the beverage bottles in the bottle storage space 210 is sufficient or not, and then determine whether the beverage bottles need to be supplemented or not.

The feedback mode of the information feedback module is many, for example, through a short message notification, a telephone notification, an application notification, etc., which is not limited herein, so long as the staff responsible for supplementing the beverage bottles can finally know whether the number of the beverage bottles is sufficient, and the staff can adaptively adjust the number of the beverage bottles.

In an embodiment, a side of the pressure sensing component 140 facing away from the fixing base 110 is hemispherical, and a portion of a side of the pressure sensing component facing away from the fixing base 110 protrudes from the mounting opening 121.

Specifically, if the top of the pressure sensor is a flat surface, the flat surface needs to be flush with the top surface of the rotating seat 120, otherwise when the pressure sensor passes through the bottom of the beverage bottle, the beverage bottle is equal to passing through a step, and therefore, the beverage bottle is necessarily stumbled, and the beverage bottle is seriously blocked. To avoid this problem, the side of the pressure sensor facing away from the fixing base 110 is configured as a hemisphere, so that the beverage bottle is guided to move upwards by the hemispherical structure when contacting the pressure sensor, thereby avoiding the beverage bottle from being blocked.

Referring to fig. 2-3, in one embodiment, the pressure sensing assembly 140 includes a ball mount 141, a ball 142, and a pressure sensor. The ball mounting seat 141 is fixedly arranged at the mounting opening 121, a first opening 1411 is arranged on one side of the ball mounting seat 141 facing away from the fixed seat 110, and the ball 142 is rotatably arranged on the ball mounting seat 141 and partially protrudes out of the first opening 1411 and the mounting opening 121. The pressure sensor is connected with one side of the ball 142, which is close to the fixed seat 110, so as to obtain the pressure brought by the ball 142, and the feedback module is electrically connected with the pressure sensor, so that the pressure sensor can feed back information to the information feedback module.

Specifically, since the pressure sensing component 140 moves relative to the beverage bottle and the pressure sensing component 140 is abutted against the beverage bottle, the beverage and the beverage must have relatively large friction, and the rolling ball 142 is utilized to contact the beverage bottle, so that the friction force generated between the beverage bottle and the beverage bottle is rolling friction force, and the rolling friction force is much smaller than the sliding friction force, so that the friction between the beverage bottle and the pressure sensing component 140 can be effectively reduced.

Referring to fig. 4-7, in an embodiment, the first rotating structure 111 is a gear ring circumferentially arranged along the fixed seat 110, the gear ring is located on a side of the fixed seat 110 facing the brewing mechanism 100, the second rotating structure 130 includes a first rotating motor 131 and a first gear 132, the first rotating motor 131 is fixedly arranged on the rotating seat 120, the first gear 132 is connected with the first rotating motor 131 and is meshed with the gear ring, and the first rotating motor 131 is used for driving the first gear 132 to rotate.

Specifically, the first rotary motor 131 can drive the first gear 132 to rotate, and because the first gear 132 is meshed with the gear ring provided on the fixed seat 110, the first gear 132 can drive the rotating seat 120 to rotate relative to the fixed seat 110 when rotating, so as to drive the pressure sensing component 140 to move to the bottom of any bottle storage space 210 of the bottle storage mechanism 200.

The embodiment of the utility model shows a brewing mechanism 100, as shown in fig. 1 and 7, the brewing mechanism 100 includes a fixed seat 110, a rotating seat 120, a pressure sensing assembly 140 and an information feedback module, the fixed seat 110 is provided with a first rotating structure 111, the rotating seat 120 is rotatably mounted on the top of the fixed seat 110, the rotating seat 120 is provided with a second rotating structure 130, the second rotating structure 130 is used for cooperating with the first rotating structure 111 to drive the rotating seat 120 to rotate relative to the fixed seat 110, the top of the rotating seat 120 is provided with a mounting opening 121, specifically, the mounting opening 121 is spaced from the rotation center line of the rotating seat 120, and the pressure sensing assembly 140 is mounted at the mounting opening 121, so that the rotating seat 120 can drive the pressure sensing assembly 140 to move in an arc manner to the bottom of any bottle storage space 210, the pressure sensing assembly 140 is connected with an external beverage bottle, so as to obtain the pressure brought by the beverage bottle, the information feedback module is electrically connected with the pressure sensing assembly 140, so as to feedback information for representing the quantity of the beverage bottle to the external world, thus a worker in charge of supplementing the beverage bottle can know whether the quantity of the beverage bottle is sufficient or not, and whether the beverage bottle needs to be supplemented in the bottle space.

The present utility model also provides a shared tea machine 1000, as shown in fig. 1-7, the shared tea machine 1000 comprising a brewing mechanism 100 and a bottle holding mechanism 200. The brewing mechanism 100 is the brewing mechanism 100 shown in the above embodiment, the bottle storing mechanism 200 is mounted on the top of the brewing mechanism 100, the bottle storing mechanism 200 has a plurality of bottle storing spaces 210, and the bottle storing spaces 210 and the pressure sensing component 140 of the brewing mechanism 100 are all located on a circle centered on the rotation center line as seen in the axial direction of the rotation center line of the rotation seat 120 of the brewing mechanism 100.

Specifically, since the bottle storage spaces 210 and the pressure sensing assemblies 140 of the brewing mechanism 100 are all located on a circle centered on the rotation center line of the rotating base 120, the rotating base 120 can drive the pressure sensing assemblies 140 to move to the bottom of any bottle storage space 210, so as to obtain the pressure brought by the beverage bottles, and the information feedback module electrically connected with the pressure sensing assemblies 140 can feed back the information for representing the number of the beverage bottles to the outside, so that a worker in charge of supplementing the beverage bottles can know whether the number of the beverage bottles in the bottle storage spaces 210 is sufficient, and then determine whether the beverage bottles need to be supplemented.

Referring to fig. 8, in a particular embodiment, the bottle holding mechanism 200 includes a first base 220 and a number of bottle holding cartridges 230. The bottle storage cylinder 230 defines a bottle storage space 210, the first base 220 is disposed on one side of the rotating base 120 away from the fixed base 110, the first base 220 is provided with a plurality of second openings 221, and the second openings 221 and the pressure sensing assembly 140 of the brewing mechanism 100 are uniformly distributed on a circle centered on the rotation center line of the rotating base 120 when viewed from the axial direction of the rotation center line of the rotating base 120. The bottle storage barrels 230 are respectively installed at the second openings 221, and a third opening is formed at the bottom of the bottle storage barrel 230.

Specifically, the plurality of bottle holding cylinders 230 are assembled on the shared tea machine 1000 by the first base 220, and the beverage bottles are stacked in the bottle holding cylinders 230 and are abutted with the pressure sensing component 140 through the third opening and the second opening 221.

Referring to fig. 9, in an embodiment, a narrowing portion 222 is disposed at a position of the second opening 221 near the rotating seat 120, the narrowing portion 222 narrows toward a center of the second opening 221, a side of the bottle storage barrel 230 near the rotating seat 120 abuts against the narrowing portion 222, the narrowing portion 222 narrows toward the center of the second opening 221, and a side of the bottle storage barrel 230 near the rotating seat 120 abuts against the narrowing portion 222.

Specifically, the bottom and the side of the bottle holder 230 of the present embodiment can be constrained by the first base 220, so that the bottle holder 230 can be stably mounted on the first base 220.

Referring to fig. 9, in the embodiment, the narrowing portion 222 is disposed around the center of the second opening 221, so that the contact area between the bottle holder 230 and the narrowing portion 222 is larger, and the structural strength of the narrowing portion 222 is stronger, so that the bottle holder is not easily damaged.

Referring to fig. 6 and 8, in an embodiment, the other end of the bottle storage barrel 230 has a bottle filling opening 231, and the bottle storage mechanism 200 further includes a top cover 240, where the top cover 240 is detachably mounted on a side of the bottle storage barrel 230 away from the rotating base 120.

Through implementing this embodiment, when the beverage bottle needs to be added, only need open top cap 240, expose add bottle opening 231 can, very convenient, only need close top cap 240 after adding the beverage bottle, top cap 240 will cover add bottle opening 231, can play dustproof effect, can protect the beverage bottle not stolen again.

In a specific embodiment, the bottle storage barrel 230 is a transparent bottle storage barrel 230, so that a user can intuitively see the beverage bottles in the bottle storage barrel 230, thereby not only meeting curiosity of the user, but also bringing good visual experience.

Referring to fig. 2 and 10, the tea brewing mechanism 100 further illustratively includes a transfer assembly 150, the rotary base 120 is provided with a fourth opening 122 at a top thereof, and the fourth opening 122 is spaced apart from a rotation center line of the rotary base 120. The transferring assembly 150 is mounted on the rotating base 120 and exposed to the fourth opening 122, and the transferring assembly 150 is used for receiving the beverage bottles falling into the fourth opening 122 and transferring the beverage bottles to the brewing station. The bottle storage spaces 210 and the fourth openings 122 of the rotary seat 120 are located on a circle centered on the rotation center line when viewed from the axial direction of the rotation center line of the rotary seat 120 of the tea brewing mechanism 100.

Specifically, since the top of the rotating base 120 is provided with the fourth opening 122, and the fourth opening 122 is spaced apart from the rotation center line of the rotating base 120, the rotating base 120 drives the transfer assembly 150 to do an arc motion with the rotation center line of the rotating base 120 as an axis, so long as the plurality of bottle storage spaces 210 and the fourth opening 122 are located on a circle with the rotation center line of the rotating base 120 as a center of circle when seen from the axial direction of the rotation center line of the rotating base 120, the rotating base 120 can drive the transfer assembly 150 to move to the bottom of any bottle storage space 210 to obtain a beverage bottle in any bottle storage space 210, and the beverage bottle is sent to the water injection station.

Referring to fig. 11 and 12, the transfer assembly 150 illustratively includes a roller bottle seat 151 and a rotary drive assembly 152. The bottle rotating base 151 is mounted on the rotating base 120 and exposed to the fourth opening 122, and a first bottle dropping opening 1511 is provided at the top of the bottle rotating base 151. The first bottle dropping opening 1511 is spaced apart from a rotation center line of the bottle rotating seat 151, and the rotary driving assembly 152 is connected with the bottle rotating seat 151 to drive the bottle rotating seat 151 to rotate, so that the transferring assembly 150 can be switched between the bottle taking station and the brewing station.

Specifically, the rotary driving assembly 152 can drive the bottle rotating base 151 to rotate, and because the top of the bottle rotating base 151 is provided with the first bottle dropping opening 1511, and the first bottle dropping opening 1511 is spaced from the rotation center line of the bottle rotating base 151, when the bottle rotating base 151 rotates, the first bottle dropping opening 1511 can do arc motion by taking the rotation center line of the bottle rotating base 151 as an axis, so that the bottle rotating base 151 can rotate, and the beverage bottle acquired by the transferring assembly 150 is driven to move by taking the rotation center line of the bottle rotating base 151 as an axis, so that the beverage bottle can move from the bottle taking station to the brewing station, and after the brewing and the beverage bottle providing are completed, the bottle rotating base 151 can also be rotated back to the bottle taking station by self rotation, so that the transferring assembly 150 can acquire a new beverage bottle.

Referring to fig. 11 and 12, the spin stand 151 includes, illustratively: a first top plate 1512, a second base 1513, and a first connector 1514. The first bottle dropping opening 1511 is disposed on the first top plate 1512, and the first top plate 1512 is disposed at the fourth opening 122. The second base 1513 is disposed at the bottom of the first top plate 1512, and the periphery of the second base 1513 is provided with teeth 15131. First connector 1514 is connected at one end to first top plate 1512 and at the other end to second base 1513 such that first top plate 1512 is spaced apart from second base 1513. The rotary driving assembly 152 includes a second rotary motor 1521 and a second gear 1522, the second rotary motor 1521 being mounted on the rotary base 120, the second gear 1522 being coupled to the second rotary motor 1521 and being engaged with the teeth 15131.

Specifically, the second rotary motor 1521 may drive the second gear 1522 to rotate, and since the second gear 1522 is meshed with the teeth 15131, the second gear 1522 can synchronously drive the bottle rotating base 151 to rotate when rotating, thereby switching the first bottle dropping port 1511 between the bottle taking station and the brewing station.

Referring to fig. 2 and 10, the rotary base 120 includes: a second top plate 123, a third pedestal 124, and a second connector 125. The fourth opening 122 is disposed on the second top plate 123, the third base 124 is disposed at the bottom of the second top plate 123, a circular groove 1241 opposite to the fourth opening 122 is formed in the third base 124, a mounting portion 15132 mounted on the circular groove 1241 is further disposed on the periphery of the second base 1513, the mounting portion 15132 is located on one side of the tooth 15131, close to the fixing seat 110, and the outer contour of the mounting portion 15132 is adapted to the circular groove 1241, so that the bottle rotating base 151 can rotate by using the circular groove 1241. The second connection member 125 has one end connected to the second top plate 123 and the other end connected to the third pedestal 124 such that the second top plate 123 is spaced apart from the third pedestal 124.

Referring to fig. 2, illustratively, tea brewing mechanism 100 also includes a brewing assembly 160. The center of the fixed seat 110 is provided with a cylinder 112, the rotating seat 120 is rotatably arranged on the cylinder 112, two ends of the cylinder 112 are communicated, and the brewing assembly 160 penetrates through the cylinder 112. The brewing assembly 160 comprises a water inlet pipe, a water pump and a water injection pipe, wherein one end of the water inlet pipe is placed on a water bucket placed at the bottom of the fixed seat 110, the other end of the water inlet pipe is connected with the water pump, one end of the water injection pipe is connected with the water pump, and the other end of the water injection pipe is arranged at the top of the bottle rotating seat 151. The other end of the water injection pipe and the first bottle dropping opening 1511 are located on a circle with the rotation center line of the bottle rotating seat 151 as a center when seen in the axial direction of the rotation center line of the bottle rotating seat 151, so that the transferring assembly 150 can rotate the beverage bottle to the bottom of the other end of the water injection pipe by using the bottle rotating seat 151 after receiving the beverage bottle, so as to fill the beverage bottle with the water injection pipe.

Referring to fig. 7 and 10-12, illustratively, the second base 1513 is provided with a second bottle drop port 15133 opposite to the first bottle drop port 1511, the circular groove 1241 is a through groove, and the fixing base 110 is provided with a third bottle drop port 113, where, when viewed from an axial direction (X direction in the drawing) of the rotation center line of the bottle rotating base 151, the second bottle drop port 15133 and the third bottle drop port 113 are located on a circle centered on the rotation center line of the bottle rotating base 151. So that the rotary base 120 and the rotary base 151 can rotate until the second bottle dropping opening 15133 is opposite to the third bottle dropping opening 113. The shared tea machine 1000 further includes a bottle taking bin 300, the bottle taking bin 300 is disposed at the bottom of the third bottle dropping opening 113, the top and the side of the bottle taking bin 300 are open, the bottle taking bin 300 is opposite to the third bottle dropping opening 113, so that when the first rotating seat 120 and the second rotating seat 120 rotate to the second bottle dropping opening 15133 and the third bottle dropping opening 113 are opposite, the beverage bottles fall into the bottle taking bin 300, and a user can obtain the beverage bottles at the bottle taking bin 300.

Referring to fig. 6-7, the canister 230 is illustratively provided with two inner and outer turns. Thus, the number of beverage bottles stored in the shared tea machine 1000 can be further increased, the number of beverage bottles added per unit time can be reduced, and the use cost can be further reduced. In use, the bottle rotating base 151 can be utilized to automatically change the position of the first bottle falling opening 1511, so that the transferring assembly 150 can obtain beverage bottles in the bottle holding cylinder 230 with inner and outer circles.

It should be understood that the foregoing embodiments are merely illustrative of the technical solutions of the present utility model, and not limiting thereof, and that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art; all such modifications and substitutions are intended to be included within the scope of this disclosure as defined in the following claims.

Claims (10)

1. A brewing mechanism, comprising:

the fixing seat is provided with a first rotating structure;

the rotating seat is rotatably arranged on the fixed seat, a second rotating structure is arranged on the rotating seat and is used for being matched with the first rotating structure so as to drive the rotating seat to rotate relative to the fixed seat, a mounting opening is formed in the top of the rotating seat, and the mounting opening is spaced from the rotation center line of the rotating seat;

the pressure sensing assembly is arranged at the mounting opening, and the rotating seat can drive the pressure sensing assembly to rotate to the bottom of an external beverage bottle, so that the pressure sensing assembly is connected with the external beverage bottle to obtain the pressure brought by the beverage bottle;

and the information feedback module is electrically connected with the pressure sensing assembly, so as to feed back information for representing the number of beverage bottles to the outside according to the information provided by the pressure sensing assembly.

2. The brewing mechanism of claim 1, wherein the pressure sensing assembly comprises:

the ball mounting seat is fixedly arranged at the mounting opening, and a first opening is formed in one side, facing away from the fixed seat, of the ball mounting seat;

the ball is rotatably arranged on the ball mounting seat and partially protrudes out of the first opening and the mounting opening;

and the pressure sensor is connected with one side of the ball close to the fixed seat so as to acquire the pressure brought by the ball, and the feedback module is electrically connected with the pressure sensor.

3. The brewing mechanism of claim 1, wherein a side of the pressure sensing assembly facing away from the fixed seat is hemispherical, and a portion of a side of the pressure sensor facing away from the fixed seat protrudes from the mounting opening.

4. A brewing mechanism according to any one of claims 1-3, wherein the first rotating structure is a ring gear arranged circumferentially along the holder, the ring gear being located on a side of the holder facing the brewing mechanism; the second rotating structure comprises a first rotating motor and a first gear, the first rotating motor is fixedly arranged on the rotating seat, the first gear is connected with the first rotating motor and meshed with the gear ring, and the first rotating motor is used for driving the first gear to rotate.

5. A shared tea beverage machine, comprising:

a brewing mechanism as claimed in any one of claims 1 to 4;

the bottle storage mechanism is arranged at the top of the brewing mechanism and is provided with a plurality of bottle storage spaces, and the bottle storage spaces and the pressure sensing assemblies of the brewing mechanism are all positioned on a circle taking the rotation center line as the center of a circle when seen from the axial direction of the rotation center line of the rotating seat of the brewing mechanism.

6. The shared tea beverage machine as claimed in claim 5, wherein said bottle holding mechanism includes:

the first base is arranged on one side of the rotary seat of the brewing mechanism, which is far away from the fixed seat of the brewing mechanism, and is provided with a plurality of second openings which are uniformly distributed on a circle taking the rotary center line of the rotary seat as a circle center as seen from the axial direction of the rotary center line of the rotary seat;

the bottle storage cylinders are respectively arranged at the second openings, the bottle storage cylinders define a bottle storage space, and the bottoms of the bottle storage cylinders are provided with third openings communicated with the bottle storage space.

7. The shared tea beverage machine as claimed in claim 6, wherein the second opening is provided with a narrowing portion near the rotary seat, the narrowing portion narrows toward the center of the second opening, and a side of the bottle storage barrel near the rotary seat abuts against the narrowing portion.

8. The shared tea beverage machine as claimed in claim 7, wherein said constriction is disposed about a center of said second opening.

9. The shared tea beverage machine as claimed in any one of claims 6-8, wherein the other end of the bottle storage barrel is provided with a bottle adding opening, and the bottle storage mechanism further comprises a top cover detachably mounted on the side of the bottle storage barrel away from the rotating seat.

10. The shared tea beverage machine as claimed in any one of claims 6-8, wherein said pod cartridge is a transparent pod cartridge.