CN116870522A - Beverage processing device and use method thereof - Google Patents

Abstract

The invention relates to the technical field of beverage processing, in particular to a beverage processing device and a use method thereof, wherein the beverage processing device comprises an annular connecting frame and further comprises: the soaking extraction kettle is rotationally arranged on the inner side of the annular connecting frame, and a central discharging pipe is arranged at the center of the bottom of the soaking extraction kettle; the closed top cover is arranged at the top of the soaking extraction kettle, a central feeding pipe is arranged at the center of the closed top cover, and an annular communication groove is formed in the middle of the closed top cover in a surrounding mode. According to the invention, the centrifugal force generated by high-speed rotation of the soaking extraction kettle is used for centrifuging fixed impurities such as tea leaves and the like to the inner wall of the soaking extraction kettle, then the lifting filter cylinder slides downwards along the annular communication groove to separate the inside of the soaking extraction kettle into an inner part and an outer part, and the tea leaves and the residues are blocked on the outer side, so that the separation and filtration of most of liquid can be finished without using the lifting filter cylinder through centrifugal force, the filtration efficiency can be improved, the blocking probability is reduced, and the extraction production efficiency is improved.

Description

Beverage processing device and use method thereof

Technical Field

The invention relates to the technical field of beverage processing, in particular to a beverage processing device and a using method thereof.

Background

When tea beverage is produced, tea leaves are generally required to be extracted, and soaking type extraction is generally adopted, namely, tea raw materials are soaked in liquid for a certain period of time, but tea residues are easy to adhere to the inside of a container after soaking, and cleaning is difficult.

The patent with the application number of CN202210926043.7 discloses a tea beverage extraction device, which comprises a top sliding rail arranged above an outer barrel body, a connecting rod is fixed above an inner barrel, extrusion mechanisms capable of improving the extraction speed of tea leaves are arranged on the front side and the rear side of a push block, cleaning mechanisms capable of deeply cleaning the inner wall of the inner barrel are distributed on the inner wall array of the inner barrel, and a lifting mechanism capable of taking out and placing the inner barrel is arranged above the connecting rod; the driving mechanism comprises a driving rod connected below the servo motor through a coupler, and the lifting mechanism comprises a rotating shaft connected on the left side of the servo motor through the coupler. Through actuating mechanism and clearance mechanism, can come to first row's sediment mouth and second row's sediment mouth discharge to the inboard tealeaves sediment of intranet bucket through two clamp splice, can also drive the brush simultaneously and clear up the intranet bucket inner wall cooperation bath.

However, it needs to use the filter screen structure to filter the liquid after extraction to separate extraction liquid and solid tealeaves sediment, but tealeaves sediment size is indefinite, has a lot of tiny particles, in order to keep the purity degree of extraction liquid after the separation, improves the filter effect, just needs to maintain the filter screen of higher mesh number, and this results in the filtration speed of filter screen slower to still cause the jam easily, and then result in whole filtration production efficiency lower.

Disclosure of Invention

In view of the above, the present invention provides a beverage processing device and a method for using the same, so as to solve the problems that in the current tea beverage extraction equipment, in order to maintain the purity of the extracted liquid after separation, the filtering effect is improved, a higher number of filter screens are required to be maintained, the filtering speed of the filter screens is slow, and the filter screens are easy to cause blockage, so that the overall filtering production efficiency is low.

Based on the above object, the present invention provides a beverage processing device, including an annular connecting frame, further including:

the soaking extraction kettle is rotationally arranged on the inner side of the annular connecting frame, and a central discharging pipe is arranged at the center of the bottom of the soaking extraction kettle;

the closed top cover is arranged at the top of the soaking extraction kettle, a central feeding pipe is arranged at the center of the closed top cover, and an annular communication groove is formed in the middle of the closed top cover;

the lifting filter cartridge is embedded and slidingly arranged at the inner side of the annular communication groove, a plurality of filtering holes are uniformly formed in the middle of the wall of the lifting filter cartridge, and the lifting filter cartridge can be downwards slidingly embedded into the inner side of the soaking extraction kettle along the annular communication groove and divide the inner part of the soaking extraction kettle into an inner part and an outer part;

the lifting filter pressing ring is nested and slidingly arranged on the outer side of the lifting filter pressing cylinder, the outer wall of the lifting filter pressing ring is mutually attached to the inner wall of the soaking extraction kettle, the inner wall of the lifting filter pressing ring is mutually attached to the outer wall of the lifting filter pressing cylinder, and a hydraulic telescopic rod is connected and arranged above the lifting filter pressing ring;

the connecting and discharging groove is arranged at the bottom of the soaking and extracting kettle in a surrounding mode, the outer wall of the connecting and discharging groove is flush with the inner wall of the soaking and extracting kettle, the inner wall of the connecting and discharging groove is flush with the outer wall of the lifting and filtering barrel, and the bottom plate sealing block is arranged in the middle of the connecting and discharging groove in a jogged sliding mode to maintain sealing.

Further, the outer wall of the soaking extraction kettle is provided with a bearing toothed ring in a surrounding mode, the soaking extraction kettle is connected with the annular connecting frame in a rotating mode through the bearing toothed ring, a centrifugal gear is arranged in the middle of the annular connecting frame, the centrifugal gear is meshed with the bearing toothed ring, and a centrifugal motor is arranged at the shaft end of the centrifugal gear.

Further, the center of the top of the lifting filter cartridge is provided with a center guide sleeve, the lifting filter cartridge is in sliding connection with the center feeding pipe through the center guide sleeve, the outer side of the center guide sleeve is provided with a lifting screw sleeve, the upper part of the closed top cover is provided with a lifting screw rod, the lifting filter cartridge is connected with the lifting screw rod through the lifting screw sleeve, and the shaft end of the lifting screw rod is provided with a lifting motor.

Further, the center department below connection of closed top cap is provided with the agitator motor, agitator motor's axle head connection is provided with the center (mixing) shaft, the axial central line of center (mixing) shaft with soak extraction kettle's vertical central line and be located same straight line, the outside of center (mixing) shaft is encircleed and is provided with a plurality of horizontal (mixing) shafts, horizontal (mixing) shaft with be provided with folding pivot between the center (mixing) shaft, horizontal (mixing) shaft passes through folding pivot with center (mixing) shaft rotates to be connected, folding pivot's axial central line with the axial central line mutually perpendicular of center (mixing) shaft.

Further, the outside nested rotation of horizontal (mixing) shaft is provided with rotatory sleeve, rotatory telescopic outside is encircleed and is provided with stirring vane, rotatory telescopic outer end is provided with rotatory bevel gear, the outer end rotation of horizontal (mixing) shaft is connected and is provided with friction drive wheel, friction drive wheel's axle head is provided with the drive bevel gear, the drive bevel gear with intermesh between the rotatory bevel gear, friction drive wheel's axial centerline with the axial centerline of center (mixing) shaft is parallel to each other, the center (mixing) shaft drives when horizontal (mixing) shaft rotates, friction drive wheel with soak the mutual frictional contact of extraction cauldron inner wall in order to drive rotatory sleeve rotation through rotatory bevel gear and drive bevel gear.

Further, the top of soaking extraction cauldron is provided with cauldron body opening, cauldron body opening with size mutually support between the closed top cap, cauldron body opening's edge is encircled and is provided with and seals soon connects the ring, the bottom edge of closed top cap is encircled and is provided with and seals soon connects the groove, closed top cap pass through seal soon connect the groove with seal soon connect the ring with the soaking extraction cauldron rotates and seals and dismantle the connection, the outside of closed top cap is provided with the lifting slide, the outside interval of soaking extraction cauldron is provided with fixed bolster, the centre of fixed bolster is provided with vertical guide way, closed top cap pass through lifting slide with vertical guide way sliding connection, the centre of vertical guide way is provided with vertical rack, the centre of lifting slide is provided with the lifting gear, the axle head of lifting gear is provided with vertical motor, the lifting gear with intermeshing between the vertical rack.

Further, the center department connection of bottom plate sealing piece is provided with the linkage magnetic ring, the bottom plate sealing piece pass through the linkage magnetic ring with the nested sliding connection of center discharging pipe, the top of center discharging pipe encircles and is provided with sealed electro-magnet, sealed electro-magnet's outside is provided with open spring, the below of soaking extraction cauldron is provided with seals the feed cylinder, the outside connection of sealing the feed cylinder is provided with the slope discharging pipe, the inside of sealing the feed cylinder is encircleed and is provided with annular flushing pipe, annular flushing pipe encircle set up in the outside of bottom plate sealing piece, the outer wall of annular flushing pipe is the circumference and encircles and be provided with a plurality of washing spouts.

Further, the top of sealed unloading section of thick bamboo is provided with connecting opening, connecting opening's edge is encircled and is provided with the sealed groove that connects soon, it connects the ring soon to soak extraction kettle's bottom surface edge is encircled and is provided with the seal, sealed unloading section of thick bamboo passes through seal connect the groove soon with seal connect the ring soon with soak extraction kettle and rotate and seal and dismantle the connection, the outside of sealed unloading section of thick bamboo is provided with the direction slider, sealed unloading section of thick bamboo passes through the direction slider with vertical guiding groove sliding connection, the below connection of direction slider is provided with the lift telescopic link.

Further, be provided with the connection carousel between the annular link with the fixed bolster, the annular link passes through the connection carousel with the fixed bolster rotates to be connected, the outside of connection carousel is encircleed and is provided with the carousel ring gear, the outside meshing of carousel ring gear is provided with the tilting gear, the axle head of tilting gear is provided with tilting motor.

A method of using a beverage processing device, comprising the steps of:

the method comprises the steps of feeding raw materials into a soaking extraction kettle through a central feeding pipe for soaking extraction, centrifuging liquid in the soaking extraction kettle in a ring-shaped connecting frame in a high-speed rotating mode after the soaking extraction is completed, centrifuging fixed impurities such as tea residues and the like with large specific gravity to the inner wall of the soaking extraction kettle through the centrifugal force generated by rotation, wherein the inner central part of the soaking extraction kettle is an impurity-free extraction liquid, the fixed impurities such as the tea residues and the like are located at the inner wall of the soaking extraction kettle, then, when the soaking extraction kettle rotates and is centrifuged, a lifting filter cylinder slides downwards along an annular communicating groove until the bottom end and the inner bottom surface of the soaking extraction kettle are in sealing contact with each other, the inner part of the soaking extraction kettle is divided into an inner part and an outer part, tea residues are blocked on the outer side to be pre-separated through the centrifugal force, then the soaking extraction kettle stops rotating, a hydraulic telescopic rod pushes a lifting filter pressing ring to slide downwards to be embedded between the lifting filter cylinder and the soaking extraction kettle, the tea residues on the outer side of the lifting filter cylinder are downwards pressed to be filtered, the secondary separation filtration is performed, the tea residues are finally extruded at the bottom part on the outer side of the lifting filter cylinder, the lifting filter cylinder is completely, the separated from the liquid is completely, the separated liquid is discharged from the bottom plate of the lifting filter pressing ring is completely through the lifting filter pressing ring, and the sealing filter pressing ring is pushed to be discharged downwards, and the bottom is further communicated with the tea residues is discharged by the sealing filter pressing ring to be discharged, and discharged.

The invention has the beneficial effects that: as can be seen from the above, according to the beverage processing device provided by the invention, the tea leaves are soaked and extracted by the soaking and extracting kettle to produce the tea beverage, after the soaking and extracting is completed, the soaking and extracting kettle can rotate at a high speed in the annular connecting frame, so that the fixed impurities such as tea leaves residues and the like are centrifuged to the inner wall of the soaking and extracting kettle by centrifugal force generated by rotation, the central part of the inner part of the soaking and extracting kettle is an extraction liquid without impurities, the fixed impurities such as tea leaves and the like are positioned close to the inner wall of the soaking and extracting kettle, then the lifting filter cartridge can slide downwards along the annular connecting groove to separate the inner part from the outer part of the soaking and extracting kettle, the tea leaves residues are blocked at the outer side, then the lifting filter cartridge can slide downwards, and the tea leaves residues at the outer side are pressed downwards to be filtered, so that the separation of the tea leaves residues and the extraction liquid can be performed, the separation of most of the liquid can be completed by centrifugal force, the filtration efficiency can be improved, the blocking probability can be reduced, and the extraction production efficiency can be improved.

Drawings

In order to more clearly illustrate the invention or the technical solutions of the prior art, the drawings which are used in the description of the embodiments or the prior art will be briefly described, it being obvious that the drawings in the description below are only of the invention and that other drawings can be obtained from them without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of a partial internal structure of an embodiment of the present invention;

FIG. 2 is a schematic diagram of a front structure of an embodiment of the present invention;

FIG. 3 is a schematic diagram showing a tilting state of a soaking extraction kettle according to an embodiment of the present invention;

FIG. 4 is a schematic view of the bottom structure of a soaking extraction kettle according to an embodiment of the present invention;

FIG. 5 is a schematic diagram showing the internal structure of a soaking extraction kettle according to an embodiment of the present invention;

FIG. 6 is a schematic view of a closure top according to an embodiment of the present invention;

FIG. 7 is a schematic view of a horizontal stirring shaft according to an embodiment of the present invention;

FIG. 8 is a schematic view of a part of the structure of a connection between a soaking extraction kettle and a closed blanking cylinder according to an embodiment of the present invention;

FIG. 9 is a schematic view of a closed blanking cartridge according to an embodiment of the present invention;

fig. 10 is a schematic structural diagram of an electromagnetic communication valve according to an embodiment of the present invention.

Marked in the figure as:

1. fixing the supporting frame; 101. a vertical guide groove; 102. a vertical rack; 103. the connecting turntable; 104. a turntable toothed ring; 105. a tilting gear; 106. a tilting motor; 2. soaking the extraction kettle; 201. an opening of the kettle body; 202. a closed screwed ring; 203. a bearing toothed ring; 204. a central discharge pipe; 205. the feeding trough is communicated; 206. an annular connecting frame; 207. centrifugal gear; 208. a centrifugal motor; 3. closing the top cover; 301. closing the screwing groove; 302. an annular communication groove; 303. a central feeding pipe; 304. a lifting slide block; 305. a lifting gear; 306. a vertical motor; 4. lifting the filter cartridge; 401. a filtering hole is formed; 402. an annular gasket; 403. a center guide sleeve; 404. lifting the screw sleeve; 405. lifting screw rods; 406. a lifting motor; 5. a central stirring shaft; 501. a stirring motor; 502. a horizontal stirring shaft; 503. folding the rotating shaft; 504. rotating the sleeve; 505. stirring blades; 506. rotating the umbrella teeth; 507. friction drive wheel; 508. driving the umbrella teeth; 6. lifting the filter pressing ring; 601. a hydraulic telescopic rod; 7. closing the blanking cylinder; 701. a connection opening; 702. tilting the discharge pipe; 703. an annular flushing pipe; 704. flushing the nozzle; 705. a guide slide block; 706. lifting the telescopic rod; 8. a bottom plate sealing block; 801. a linkage magnetic ring; 802. sealing the electromagnet; 803. an open spring; 9. an electromagnetic communication valve; 901. a sealing valve plate; 902. raft magnetic ring; 903. a valve core guide rod; 904. a valve core sliding sleeve; 905. a valve core electromagnet; 906. a valve plate spring.

Detailed Description

The present invention will be further described in detail with reference to specific embodiments in order to make the objects, technical solutions and advantages of the present invention more apparent.

It is to be noted that unless otherwise defined, technical or scientific terms used herein should be taken in a general sense as understood by one of ordinary skill in the art to which the present invention belongs. The terms "first," "second," and the like, as used herein, do not denote any order, quantity, or importance, but rather are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that elements or items preceding the word are included in the element or item listed after the word and equivalents thereof, but does not exclude other elements or items. The terms "connected" or "connected," and the like, are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", etc. are used merely to indicate relative positional relationships, which may also be changed when the absolute position of the object to be described is changed.

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8, 9 and 10, a beverage processing device includes an annular connecting frame 206, and further includes:

the soaking extraction kettle 2 is rotatably arranged on the inner side of the annular connecting frame 206, and a central discharging pipe 204 is arranged at the center of the bottom of the soaking extraction kettle 2;

the closed top cover 3 is arranged at the top of the soaking extraction kettle 2, a central feeding pipe 303 is arranged at the center of the closed top cover 3, and an annular communication groove 302 is arranged in the middle of the closed top cover 3;

the lifting filter cartridge 4 is arranged on the inner side of the annular communication groove 302 in a jogged sliding manner, a plurality of filtering holes 401 are uniformly formed in the middle of the wall of the lifting filter cartridge 4, and the lifting filter cartridge 4 can be downwards and slidingly embedded into the inner side of the soaking extraction kettle 2 along the annular communication groove 302 and divide the inner part of the soaking extraction kettle 2 into an inner part and an outer part;

the lifting filter pressing ring 6 is nested and arranged on the outer side of the lifting filter pressing ring 4 in a sliding manner, the outer wall of the lifting filter pressing ring 6 is mutually attached to the inner wall of the soaking extraction kettle 2, the inner wall of the lifting filter pressing ring 6 is mutually attached to the outer wall of the lifting filter pressing ring 4, and a hydraulic telescopic rod 601 is connected above the lifting filter pressing ring 6;

the lower trough 205 of intercommunication, encircle setting up in soaking extraction cauldron 2's bottom, the outer wall of lower trough 205 of intercommunication keeps flush with the inner wall of soaking extraction cauldron 2, and the inner wall of lower trough 205 of intercommunication keeps flush with the outer wall of lifting filter cartridge 4, and the middle still gomphosis slip of lower trough 205 of intercommunication is provided with bottom plate sealing block 8 in order to maintain the closure.

In this embodiment, the device performs soaking extraction on tea leaves through the soaking extraction kettle 2 to produce tea beverage, during extraction, raw materials are put into the soaking extraction kettle 2 through the central feeding pipe 303 to perform soaking extraction, after the soaking extraction is completed, the soaking extraction kettle 2 rotates at a high speed in the annular connecting frame 206 to centrifuge internal liquid, fixed impurities with large specific weight such as tea residues and the like are centrifuged to the inner wall of the soaking extraction kettle 2 through centrifugal force generated by rotation, the central part of the inner part of the soaking extraction kettle 2 is an extraction liquid without impurities, the fixed impurities such as tea residues and the like are positioned at the inner wall close to the soaking extraction kettle 2, then the lifting filter cartridge 4 can slide downwards along the annular connecting groove 302 until the bottom end and the inner bottom surface of the soaking extraction kettle 2 are in mutual sealing contact while the soaking extraction kettle 2 rotates and centrifuging, the inside of the soaking extraction kettle 2 is divided into an inner part and an outer part, tea residues are blocked at the outer side, so that the tea residues can be pre-separated through centrifugal force, separation and filtration of most of liquid can be completed without using a lifting filter cartridge 4, the filtration efficiency can be improved, the blocking probability is reduced, the extraction production efficiency is favorably improved, then the soaking extraction kettle 2 stops rotating, a hydraulic telescopic rod 601 pushes a lifting filter pressing ring 6 to slide downwards so as to be embedded between the lifting filter cartridge 4 and the soaking extraction kettle 2, the tea residues at the outer side of the lifting filter cartridge 4 are downwards pressed for filtration, secondary separation and filtration are carried out, the tea residues are finally extruded at the bottom of the outer side of the lifting filter cartridge 4, the complete separation of the tea residues and the liquid is completed at the moment, an electromagnetic communication valve 9 is arranged in a central discharge pipe 204, the electromagnetic communication valve 9 mainly consists of a sealing valve plate 901, the sealing valve plate 901 is embedded and arranged at the top end of the central discharging pipe 204 to seal the central discharging pipe 204, the sealing valve plate 901 is in sliding connection with a valve core sliding sleeve 904 in the central discharging pipe 204 through a valve core guide rod 903 arranged at the center of the bottom surface, a valve core electromagnet 905 arranged at the top end of the valve core sliding sleeve 904 attracts a raft magnetic ring 902 arranged in the middle of the sealing valve plate 901 through magnetic force, so that the sealing valve plate 901 is embedded and arranged at the top end of the central discharging pipe 204 to keep the central discharging pipe 204 closed, after the valve core electromagnet 905 is powered off, a valve plate spring 906 arranged between the valve core electromagnet 905 and the sealing valve plate 901 can push the sealing valve plate 901 to slide upwards, at the moment, the central discharging pipe 204 is opened, separated extraction liquid can be delivered out through the central discharging pipe 204 to finish soaking extraction production, after the liquid is completely emptied, a bottom plate sealing block 8 can be slid to open a communicating discharging groove 205, at the moment, a hydraulic telescopic rod 601 can further push a lifting press filter ring 6 to slide downwards, and compressed and separated tea residues are discharged from the communicating discharging groove 205, so that the whole discharging flow is finished.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, preferably, the device is rotated at a high speed in the annular connecting frame 206 through the soaking extraction kettle 2 so as to perform centrifugal separation on liquid and tea residues in the soaking extraction kettle 2, the soaking extraction kettle 2 is rotationally connected with the annular connecting frame 206 through the bearing toothed ring 203, the centrifugal motor 208 can drive the soaking extraction kettle 2 to rotate for centrifugal separation through the centrifugal gear 207 and the bearing toothed ring 203, the lifting motor 406 can drive the lifting filter cartridge 4 to slide downwards along the annular connecting groove 302 until the bottom end and the inner bottom surface of the soaking extraction kettle 2 are in mutual sealing contact through the lifting screw 405 and the lifting screw sleeve 404, and the bottom end of the lifting filter cartridge is provided with the annular sealing gasket 402 so as to facilitate keeping the sealing between the bottom end of the lifting filter cartridge 4 and the inner bottom surface of the soaking extraction kettle 2, the soaking extraction kettle 2 is stretched into the inner part and separate the soaking extraction kettle 2 into an inner part and an outer part, the tea residues are not required to be blocked on the outer side, thereby the centrifugal force can perform centrifugal separation, the liquid can be completely separated through the lifting filter cartridge 4, the large part can be used for improving the filtering efficiency, the filtering efficiency can be easily achieved, and the filtering efficiency can be improved.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, preferably, the device is used for soaking and extracting tea leaves through the soaking and extracting kettle 2 to produce tea drinks, and the device is further provided with a stirring mechanism, the stirring motor 501 connected and arranged below the center of the closed top cover 3 can drive a plurality of horizontal stirring shafts 502 to rotate through the central stirring shaft 5 so as to stir liquid in the soaking and extracting kettle 2, the extraction quality and efficiency are improved, and the horizontal stirring shafts 502 are rotationally connected with the central stirring shaft 5 through the folding rotating shaft 503, when the central stirring shaft 5 drives the plurality of horizontal stirring shafts 502 to rotate, the central stirring shaft 5 is rotationally flattened along the folding rotating shaft 503 so as to facilitate improvement of stirring range and efficiency, and when the central stirring shaft 5 stops rotating, the central stirring shaft 5 naturally rotates along the folding rotating shaft 503 under gravity so as to facilitate lifting and lowering the interference to be caused by centrifugation, and when the central stirring shaft 5 drives the horizontal stirring shaft to rotate, the central stirring shaft 5 rotates along the folding rotating shaft 503 so as to flatten, at this time, the friction driving wheel 507 can be in contact with the inner wall of the soaking and the kettle 2 to rotate through the mutual friction contact with the stirring teeth 508 and the driving teeth 506 so as to drive the stirring shaft to rotate the stirring sleeve 504, thereby further improve the stirring effect, and further improve the stirring effect.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, preferably, the device is used for carrying out soaking extraction on tea leaves through the soaking extraction kettle 2 so as to produce tea beverages, the kettle body opening 201 at the top of the soaking extraction kettle 2 is kept closed through the closed top cover 3, the soaking extraction kettle 2 and the closed top cover 3 are in a separated structure, the closed top cover 3 is rotationally and detachably connected with the soaking extraction kettle 2 through the closed rotary connection groove 301 and the closed rotary connection ring 202, so that the connection part is kept when the soaking extraction kettle 2 rotates, the closed top cover 3 is simultaneously connected with the fixed support frame 1 in a sliding manner through the lifting slide block 304 and the vertical guide groove 101, the vertical motor 306 can drive the closed top cover 3 to slide in the petroleum direction through the lifting gear 305 and the vertical rack 102, so that the whole closed top cover 3 is separated and detached from the soaking extraction kettle 2, the soaking extraction kettle 2 is convenient to be opened, and the inside the soaking extraction kettle 2 is cleaned and maintained, and the soaking extraction kettle 2 is more flexible and convenient to use.

As shown in fig. 1, 2, 3, 4, 5, 6, 7, 8 and 9, preferably, the device is used for soaking and extracting tea leaves through the soaking and extracting kettle 2 to produce tea beverage, after the lifting filter cartridge 4 stretches into the soaking and extracting kettle 2 to be separated, the hydraulic telescopic rod 601 pushes the lifting filter pressing ring 6 to slide downwards to press tea leaves on the outer side of the lifting filter cartridge 4 downwards to filter, the tea leaves are finally pressed at the bottom of the outer side of the lifting filter cartridge 4, at the moment, the sealing electromagnet 802 is electrified to attract the linkage magnetic ring 801 through magnetic force to drive the bottom plate sealing block 8 to move upwards so as to enable the bottom plate sealing block 8 to be embedded into the communicating lower trough 205 to be kept closed, when the tea leaves are discharged, the sealing electromagnet 802 is deenergized, the opening spring 803 pushes the bottom plate sealing block 8 to move downwards to be separated from the communicating lower trough 205 so as to open the communicating lower trough 205, at this time, the hydraulic telescopic rod 601 can further push the lifting filter pressing ring 6 to slide downwards, the compressed and separated tea residues are discharged from the communicating blanking groove 205, meanwhile, the lower part of the soaking extraction kettle 2 is kept sealed through the sealed blanking barrel 7, the tea residues are prevented from leaking, the discharged tea residues can be collected through the sealed blanking barrel 7 and uniformly collected and discharged through the inclined discharging pipe 702, meanwhile, when the bottom plate sealing block 8 moves downwards and is separated from the communicating blanking groove 205, the annular flushing pipe 703 can spray water flow through the plurality of flushing nozzles 704, so as to clean the bottom plate sealing block 8, the lifting filter pressing ring 6 and the communicating blanking groove 205, the tea residues are prevented from remaining, the convenience in use of the device is improved, the sealed blanking barrel 7 and the soaking extraction kettle 2 are also in a separated structure, the sealed blanking barrel 7 is in sliding connection with the vertical guide groove 101 through the guide sliding block 705, the lifting telescopic rod 706 can pull and drive the closed discharging barrel 7 to move downwards to be separated from the bottom of the soaking extraction kettle 2, so that the connecting opening 701 formed at the top end of the closed discharging barrel 7 is opened, and cleaning and maintenance are conveniently carried out on the bottom of the soaking extraction kettle 2 and the inside of the closed discharging barrel 7, and the use is more convenient and quicker.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8 and fig. 9, preferably, the device is used for soaking and extracting tea leaves through the soaking and extracting kettle 2 to produce tea beverages, the closed top cover 3 and the closed discharging barrel 7 on the upper side and the lower side of the soaking and extracting kettle 2 can slide up and down to be separated from or connected with the soaking and extracting kettle 2, and after the closed top cover 3 and the closed discharging barrel 7 are separated from the soaking and extracting kettle 2, the tilting motor 106 can drive the soaking and extracting kettle 2 to rotate along the connecting turntable 103 through the tilting gear 105 and the turntable toothed ring 104, so that the angle of the soaking and extracting kettle 2 can be conveniently turned and adjusted, and the device is more flexible and convenient in use.

When in use, firstly, the pipelines of the device are connected, then raw materials are put into the soaking extraction kettle 2 through the central feeding pipe 303 for soaking extraction, after the soaking extraction is finished, the centrifugal motor 208 drives the soaking extraction kettle 2 to rotate through the centrifugal gear 207 and the bearing toothed ring 203 for centrifugal separation, the soaking extraction kettle 2 rotates at high speed in the annular connecting frame 206 to centrifuge liquid in the soaking extraction kettle, fixed impurities with large specific weight such as tea leaves and the like are centrifuged to the inner wall of the soaking extraction kettle 2 through centrifugal force generated by rotation, at the moment, the central part in the soaking extraction kettle 2 is an extraction liquid without impurities, the fixed impurities such as tea leaves and the like are positioned near the inner wall of the soaking extraction kettle 2, then, when the soaking extraction kettle 2 rotates for centrifugation, the lifting motor 406 drives the lifting filter cartridge 4 to slide downwards along the annular connecting groove 302 through the lifting screw 405 and the lifting screw sleeve 404, the lifting filter cartridge 4 slides downwards along the annular communicating groove 302 until the bottom end and the inner bottom surface of the soaking extraction kettle 2 are in mutual closed contact, so that the inner part of the soaking extraction kettle 2 is divided into an inner part and an outer part, tea residues are blocked on the outer side for pre-separation by centrifugal force, then the soaking extraction kettle 2 stops rotating, the hydraulic telescopic rod 601 pushes the lifting filter pressing ring 6 to slide downwards so as to be embedded between the lifting filter cartridge 4 and the soaking extraction kettle 2, the tea residues on the outer side of the lifting filter cartridge 4 are downwards pressed for filtering for secondary separation and filtering, the tea residues are finally extruded at the bottom part on the outer side of the lifting filter cartridge 4, at the moment, the complete separation of the tea residues and liquid is completed, the electromagnetic communicating valve 9 is opened to convey the separated extraction liquid through the central discharging pipe 204, after the liquid is completely emptied, the sealing electromagnet 802 is powered down, the open spring 803 promotes the bottom plate sealing piece 8 to move downwards and break away from the intercommunication silo 205 down to make the intercommunication silo 205 open, the hydraulic telescoping rod 601 further promotes lift filter-pressing ring 6 and slides down this moment, discharge the tealeaves sediment of compression separation by the silo 205 down, can collect the tealeaves sediment of unloading through sealed feed cylinder 7, and uniformly collect the discharge by slope discharging pipe 702, annular flushing pipe 703 is outside blowout rivers through a plurality of flushing spouts 704 simultaneously, in order to wash bottom plate sealing piece 8, lift filter-pressing ring 6 and intercommunication silo 205 down, avoid tealeaves sediment to remain.

A method of using a beverage processing device, comprising the steps of:

the raw materials are put into the soaking extraction kettle 2 through the central feeding pipe 303 for soaking extraction, after the soaking extraction is finished, the soaking extraction kettle 2 rotates in an annular connecting frame 206 at high speed to centrifuge the liquid in the soaking extraction kettle 2, the fixed impurities with large specific gravity such as tea residues and the like are centrifuged to the inner wall of the soaking extraction kettle 2 through the centrifugal force generated by rotation, at the moment, the central part in the soaking extraction kettle 2 is the extraction liquid without impurities, the fixed impurities such as the tea residues and the like are positioned near the inner wall of the soaking extraction kettle 2, then the lifting filter cartridge 4 slides downwards along the annular connecting groove 302 until the bottom end and the inner bottom surface of the soaking extraction kettle 2 are mutually in closed contact, so that the inside of the soaking extraction kettle 2 is divided into an inner part and an outer part, and separates tealeaves sediment in the outside in advance through centrifugal force, then soak extraction cauldron 2 and stop rotating, and hydraulic telescoping rod 601 promotes lift filter-pressing ring 6 and slides downwards, with embedding lift cartridge filter 4 and soak between the extraction cauldron 2, press down the tealeaves sediment in the lift cartridge filter 4 outside and filter, in order to carry out secondary separation filtration, tealeaves sediment is finally accomplished and is extruded the bottom department in the lift cartridge filter 4 outside, accomplish the complete separation of tealeaves sediment and liquid this moment, carry out the extraction liquid of separation through central discharging pipe 204, take out bottom plate sealing piece 8 in order to open intercommunication blanking groove 205 after the liquid is completely emptied, hydraulic telescoping rod 601 further promotes lift filter-pressing ring 6 and slides downwards, discharge the tealeaves sediment of compression separation by intercommunication blanking groove 205.

According to the beverage processing device provided by the invention, tea leaves are soaked and extracted by the soaking and extracting kettle 2 to produce tea beverages, after the soaking and extracting is finished, the soaking and extracting kettle 2 can rotate in the annular connecting frame 206 at a high speed, so that fixed impurities such as tea leaves residues and the like are centrifuged to the inner wall of the soaking and extracting kettle 2 by centrifugal force generated by rotation, the inner central part of the soaking and extracting kettle 2 is an extraction liquid without impurities, the fixed impurities such as the tea leaves residues and the like are positioned close to the inner wall of the soaking and extracting kettle 2, then the lifting filter cylinder 4 can slide downwards along the annular connecting groove 302 to separate the inner part from the outer part of the soaking and extracting kettle 2, the tea leaves residues are blocked at the outer side, then the lifting filter pressing ring 6 can slide downwards, and the tea leaves residues at the outer side are pressed downwards to be filtered, so that the separation of the tea leaves residues and the extraction liquid can be realized, the separation and the filtration of most of liquid can be finished without using the lifting filter cylinder 4 by centrifugal force, the filtration efficiency can be improved, the blockage probability can be reduced, and the extraction production efficiency can be improved.

Those of ordinary skill in the art will appreciate that: the discussion of any of the embodiments above is merely exemplary and is not intended to suggest that the scope of the invention (including the claims) is limited to these examples; the technical features of the above embodiments or in the different embodiments may also be combined within the idea of the invention, the steps may be implemented in any order and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity.

The present invention is intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims. Therefore, any omission, modification, equivalent replacement, improvement, etc. of the present invention should be included in the scope of the present invention.

Claims (10)

1. A beverage processing device comprising an annular connecting frame (206), characterized in that it further comprises:

the soaking extraction kettle (2) is rotationally arranged on the inner side of the annular connecting frame (206), and a central discharging pipe (204) is arranged at the center of the bottom of the soaking extraction kettle (2);

the closed top cover (3) is arranged at the top of the soaking extraction kettle (2), a central feeding pipe (303) is arranged at the center of the closed top cover (3), and an annular communication groove (302) is formed in the middle of the closed top cover (3);

the lifting filter cylinder (4) is embedded and slidingly arranged on the inner side of the annular communication groove (302), a plurality of filtering holes (401) are uniformly formed in the middle of the cylinder wall of the lifting filter cylinder (4), and the lifting filter cylinder (4) can be downwards and slidingly embedded into the inner side of the soaking extraction kettle (2) along the annular communication groove (302) and divide the inner part of the soaking extraction kettle (2) into an inner part and an outer part;

the lifting filter pressing ring (6) is nested and slidingly arranged on the outer side of the lifting filter pressing ring (4), the outer wall of the lifting filter pressing ring (6) is mutually attached to the inner wall of the soaking extraction kettle (2), the inner wall of the lifting filter pressing ring (6) is mutually attached to the outer wall of the lifting filter pressing ring (4), and a hydraulic telescopic rod (601) is connected and arranged above the lifting filter pressing ring (6);

the bottom of soaking extraction cauldron (2) is encircleed set up in under the intercommunication silo (205), the outer wall of under the intercommunication silo (205) with the inner wall of soaking extraction cauldron (2) keeps flush, the inner wall of under the intercommunication silo (205) with the outer wall of lift cartridge filter (4) keeps flush, the centre of under the intercommunication silo (205) still gomphosis slip is provided with bottom plate sealing block (8) in order to maintain to seal.

2. Beverage processing device according to claim 1, characterized in that the outer wall of the soaking and extracting tank (2) is provided with a bearing toothed ring (203) in a surrounding manner, the soaking and extracting tank (2) is rotationally connected with the annular connecting frame (206) through the bearing toothed ring (203), a centrifugal gear (207) is arranged in the middle of the annular connecting frame (206), the centrifugal gear (207) is meshed with the bearing toothed ring (203), and the shaft end of the centrifugal gear (207) is provided with a centrifugal motor (208).

3. Beverage processing device according to claim 1, characterized in that the top center of the lifting filter cartridge (4) is provided with a central guide sleeve (403), the lifting filter cartridge (4) is slidably connected with the central feeding tube (303) through the central guide sleeve (403), the outer side of the central guide sleeve (403) is provided with a lifting screw sleeve (404), the upper side of the closed top cover (3) is provided with a lifting screw (405), the lifting filter cartridge (4) is mutually connected with the lifting screw (405) through the lifting screw sleeve (404), and the shaft end of the lifting screw (405) is provided with a lifting motor (406).

4. The beverage processing device according to claim 1, wherein a stirring motor (501) is connected and arranged below the center of the closed top cover (3), a central stirring shaft (5) is connected and arranged at the shaft end of the stirring motor (501), the axial center line of the central stirring shaft (5) and the vertical center line of the soaking extraction kettle (2) are positioned on the same straight line, a plurality of horizontal stirring shafts (502) are arranged on the outer side of the central stirring shaft (5) in a surrounding mode, a folding rotating shaft (503) is arranged between the horizontal stirring shaft (502) and the central stirring shaft (5), the horizontal stirring shaft (502) is connected with the central stirring shaft (5) in a rotating mode through the folding rotating shaft (503), and the axial center line of the folding rotating shaft (503) is perpendicular to the axial center line of the central stirring shaft (5).

5. The beverage processing device according to claim 4, wherein a rotating sleeve (504) is arranged on the outer side of the horizontal stirring shaft (502) in a nested manner, stirring blades (505) are arranged on the outer side of the rotating sleeve (504) in a surrounding manner, rotating bevel gears (506) are arranged on the outer end of the rotating sleeve (504), friction driving wheels (507) are arranged on the outer end of the horizontal stirring shaft (502) in a rotating connection manner, driving bevel gears (508) are arranged on the shaft ends of the friction driving wheels (507), the driving bevel gears (508) are meshed with the rotating bevel gears (506), the axial center line of the friction driving wheels (507) is parallel to the axial center line of the central stirring shaft (5), and when the central stirring shaft (5) drives the horizontal stirring shaft (502) to rotate, the friction driving wheels (507) are in frictional contact with the inner wall of the soaking extraction kettle (2) to drive the rotating sleeve (504) to rotate through the rotating bevel gears (506) and the driving bevel gears (508).

6. The beverage processing device according to claim 1, wherein a kettle body opening (201) is formed in the top of the soaking extraction kettle (2), the kettle body opening (201) and the closed top cover (3) are mutually matched in size, a closed rotary joint ring (202) is arranged around the edge of the kettle body opening (201), a closed rotary joint groove (301) is formed around the bottom edge of the closed top cover (3), the closed top cover (3) is connected with the soaking extraction kettle (2) in a rotary and detachable mode through the closed rotary joint groove (301) and the closed rotary joint ring (202), a lifting slide block (304) is arranged on the outer side of the closed top cover (3), a fixed support frame (1) is arranged at the outer side interval of the soaking extraction kettle (2), a vertical guide groove (101) is arranged in the middle of the fixed support frame (1), the closed top cover (3) is connected with the vertical guide groove (101) in a sliding mode through the lifting slide block (304), a vertical guide groove (101) is arranged in the middle, a gear (305) is arranged between a vertical guide groove (101), and a gear (305) is meshed with a vertical lifting rack (305), and a vertical lifting rack (305) is arranged between the vertical lifting rack (305).

7. The beverage processing device according to claim 6, wherein a linkage magnetic ring (801) is connected and arranged at the center of the bottom plate sealing block (8), the bottom plate sealing block (8) is in nested sliding connection with the central discharging pipe (204) through the linkage magnetic ring (801), a sealing electromagnet (802) is arranged around the top end of the central discharging pipe (204), an opening spring (803) is arranged on the outer side of the sealing electromagnet (802), a closed discharging barrel (7) is arranged below the soaking extraction kettle (2), an inclined discharging pipe (702) is arranged on the outer side of the closed discharging barrel (7) in a connecting mode, an annular flushing pipe (703) is arranged around the inner side of the closed discharging barrel (7), the annular flushing pipe (703) is arranged around the outer side of the bottom plate sealing block (8), and a plurality of flushing nozzles (704) are circumferentially arranged around the outer wall of the annular flushing pipe (703).

8. The beverage processing device according to claim 7, wherein a connecting opening (701) is arranged at the top end of the closed blanking barrel (7), a closed screwing groove (301) is arranged around the edge of the connecting opening (701), a closed screwing ring (202) is arranged around the edge of the bottom surface of the soaking extraction kettle (2), the closed blanking barrel (7) is in rotary and detachable connection with the soaking extraction kettle (2) through the closed screwing groove (301) and the closed screwing ring (202), a guide sliding block (705) is arranged on the outer side of the closed blanking barrel (7), the closed blanking barrel (7) is in sliding connection with the vertical guide groove (101) through the guide sliding block (705), and a lifting telescopic rod (706) is arranged below the guide sliding block (705).

9. Beverage processing device according to claim 6, characterized in that a connection turntable (103) is arranged between the annular connection rack (206) and the fixed support frame (1), the annular connection rack (206) is rotationally connected with the fixed support frame (1) through the connection turntable (103), a turntable toothed ring (104) is arranged around the outer side of the connection turntable (103), a tilting gear (105) is arranged on the outer side of the turntable toothed ring (104) in a meshed manner, and a tilting motor (106) is arranged at the shaft end of the tilting gear (105).

10. Use of a beverage processing device according to any one of claims 1-9, characterized in that it comprises the steps of:

the raw materials are put into the soaking extraction kettle (2) through the central feeding pipe (303) for soaking extraction, after the soaking extraction is finished, the soaking extraction kettle (2) is rotated in an annular connecting frame (206) at a high speed to centrifuge the liquid in the soaking extraction kettle, the fixed impurities with large specific gravity such as tea residues are centrifuged to the inner wall of the soaking extraction kettle (2) through the centrifugal force generated by rotation, at the moment, the central part in the soaking extraction kettle (2) is the extraction liquid without impurities, the fixed impurities such as the tea residues are positioned at the inner wall close to the soaking extraction kettle (2), then the lifting filter cartridge (4) slides downwards along the annular connecting groove (302) until the bottom end and the inner bottom surface of the soaking extraction kettle (2) are in mutual sealing contact while the soaking extraction kettle (2) rotates and is centrifuged, the inner part of the soaking extraction kettle (2) is divided into an inner part and an outer part, tea residues are blocked at the outer side to be pre-separated through centrifugal force, then the soaking extraction kettle (2) stops rotating, a hydraulic telescopic rod (601) pushes a lifting filter pressing ring (6) to slide downwards to be embedded between a lifting filter pressing cylinder (4) and the soaking extraction kettle (2), the tea residues at the outer side of the lifting filter pressing cylinder (4) are downwards pressed to be filtered so as to be secondarily separated and filtered, the tea residues are finally extruded at the bottom of the outer side of the lifting filter pressing cylinder (4), at the moment, the complete separation of the tea residues and liquid is completed, the separated extraction liquid is conveyed out through a central discharging pipe (204), when the liquid is completely emptied, the bottom plate sealing block (8) is taken out to open the communicating blanking groove (205), the hydraulic telescopic rod (601) further pushes the lifting filter pressing ring (6) to slide downwards, and the compressed and separated tea residues are discharged from the communicating blanking groove (205).