CN115363402B

CN115363402B - Juice extracting system and fruit juice extracting method

Info

Publication number: CN115363402B
Application number: CN202211011174.9A
Authority: CN
Inventors: 陈亦辉; 胡立锋; 林治统
Original assignee: Haitong Food Ninghai Co ltd
Current assignee: Haitong Food Ninghai Co ltd
Priority date: 2022-08-23
Filing date: 2022-08-23
Publication date: 2023-12-08
Anticipated expiration: 2042-08-23
Also published as: CN115363402A

Abstract

The invention provides a juice squeezing system, which comprises a base and a juice squeezing barrel integrally arranged with the base, wherein the juice squeezing barrel is positioned on the upper end surface of the base, a juice receiving groove is arranged below the base, and a channel for communicating the juice receiving groove with the juice squeezing barrel is arranged on the base; the base is also fixedly connected with a mounting plate, and a first telescopic driver and a second telescopic driver are fixedly arranged on the mounting plate; the first telescopic driver is provided with a first output rod, the first output rod extends downwards and is fixedly connected with a supporting disc, the outer edge of the supporting disc is always in sliding contact with the inner wall of the juicing cylinder, and a through hole is formed in the disc surface of the supporting disc; the second telescopic driver is provided with a second output rod, the second output rod extends downwards and is fixedly connected with a hopper, the lower end of the hopper is fixedly connected with an annular pressure plate communicated with the hopper, and the annular pressure plate is positioned above the supporting plate and can be close to or far away from the supporting plate in the vertical direction. The invention also provides a method for squeezing fruits by using the system, and the squeezing processing efficiency is improved.

Description

Juice extracting system and fruit juice extracting method

Technical Field

The invention relates to the technical field of fruit juicing, in particular to a juicing system and a fruit juicing method.

Background

The fruit juice squeezing is a deep processing technology for fruits, and can improve the added value of the fruits. In the prior art, the fruit is squeezed by adopting a physical squeezing mode generally, the fruit squeezing machine has the characteristic of high safety, as disclosed in the prior art CN203970054U, the fruit squeezing machine comprises a disc-shaped base provided with supporting legs and guide grooves, a circular squeezing cage provided with a filter screen and arranged on the base, a screw shaft is fixedly arranged at the center of the base, a ratchet pressing device capable of moving up and down along the threads of the screw shaft is arranged on the screw shaft, an even number of wood pressing blocks and two semicircular annular wood pressing plates matched with the squeezing cage and the screw shaft are arranged below the ratchet pressing device, and the fruit squeezing machine only needs a single-hand front-back pulling lever to realize up-and-down movement of a ratchet assembly to squeeze fruit juice to finish operation. In the actual juicing process, residues after juicing are often required to be cleaned manually, and the processing throughput is small, so that the juicer is not suitable for actual production and processing of food processing enterprises.

Disclosure of Invention

Aiming at the defects in the prior art, the invention provides a juice extracting system, which solves the problems that residues after juice extraction are always cleaned manually in the actual juice extracting process of a juice extractor in the prior art, the processing throughput is small, and the juice extracting system is not suitable for actual production and processing of food processing enterprises.

According to an embodiment of the invention, a juice extracting system comprises a base and a juice extracting cylinder integrally arranged with the base, wherein the juice extracting cylinder is positioned on the upper end surface of the base, a juice receiving groove is arranged below the base, and a channel for communicating the juice receiving groove and the juice extracting cylinder is arranged on the base; the base still fixedly connected with mounting panel, fixed mounting has first flexible driver and the flexible driver of second on the mounting panel, wherein:

the first telescopic driver is provided with a first output rod, the first output rod extends downwards and is fixedly connected with a supporting disc, the outer edge of the supporting disc is always in sliding contact with the inner wall of the juicing cylinder, and a through hole is formed in the disc surface of the supporting disc;

the second telescopic driver is provided with a second output rod, the second output rod extends downwards and is fixedly connected with a hopper, the lower end of the hopper is fixedly connected with an annular pressure plate communicated with the hopper, the annular pressure plate is positioned above the supporting plate and can be close to or far away from the supporting plate in the vertical direction, the orthographic projection of the annular pressure plate is positioned in the orthographic projection of the supporting plate, and the outer edge of the annular pressure plate is in sliding contact with or disconnected from the inner wall of the juicing cylinder.

In the above-mentioned embodiment, when squeezing juice, can pack more fruits into between supporting disk and the annular pressure disk through holding hopper, thereby handling capacity is bigger, go on through first flexible driver when squeezing juice, drive efficiency has also been improved, derive through first flexible driver and the export of annular pressure disk realization residue of second flexible driver respectively drive supporting disk and annular pressure disk after squeezing juice, slag discharging efficiency also can be promoted, can be adapted to mill's mass production, the juice extractor in the prior art has finally been solved in actual juice extraction process, the residue after the juice extraction is finished often needs manual clearance, and the handling capacity of processing is little, be unsuitable for food processing enterprise and carry out actual production processing's problem.

Further, the annular pressure plate outer ring is fixedly provided with a first horizontal annular part which is in sliding contact or disconnection with the inner wall of the juicing barrel, the outer edge of the supporting plate is fixedly provided with a second horizontal annular part which is opposite to the first horizontal annular part, and the second horizontal annular part is in sliding contact with the inner wall of the juicing barrel all the time.

Further, the lower wall surface of the first horizontal annular part is fixedly connected with a limit column, the lower disc surface of the annular pressure disc is fixedly connected with a plurality of jacking columns, and when the limit column is propped against the second horizontal annular part, the jacking columns are separated from the supporting disc, and the vertical distances between all jacking columns and the disc surface of the supporting disc are equal.

Further, a slag receiving ring groove is circumferentially arranged on the outer wall of the juice extracting cylinder, and the slag receiving ring groove is fixedly connected with a slag discharging groove which is communicated with the inside and the outside of the juice extracting cylinder.

Further, the upper end face of the juicing barrel is fixedly connected with a slag guide ring, the upper end of the inner annular wall of the slag guide ring is higher than the upper end of the outer annular wall of the slag guide ring, and when the supporting disc is positioned at the highest position, the outer edge of the supporting disc is in flush transition with the slag guide ring.

Further, the supporting plate is of a structure with a high middle and a low outer edge, the upper end of the inner annular wall of the annular pressure plate is higher than the upper end of the outer annular wall of the annular pressure plate, and the highest position of the supporting plate is located in the material containing hopper when the relative distance between the supporting plate and the annular pressure plate is minimum.

Further, the lower end of the supporting disc is fixedly connected with a sliding cylinder, and the outer wall of the sliding cylinder is in sliding contact with the inner wall of the juicing cylinder.

Further, the second telescopic drivers are a pair of two sides of the first telescopic drivers in a row, and the two second output rods penetrate through the hopper and are fixedly connected with the annular pressure plate.

Further, the mounting panel includes riser and the diaphragm with riser fixed connection with base fixed connection, first flexible driver, the flexible driver of second are all installed on the diaphragm face, still fixedly connected with cover is established the outer ring pipe of first output pole on the diaphragm face down, the interior annular wall of ring pipe is separated from with first output pole wall, still fixed mounting has a plurality of spray tubes of encircleing outside first output pole on the ring pipe, the inlet tube of ring pipe still fixedly connected with and its intercommunication, the one end that the inlet tube deviates from the ring pipe is connected with high-pressure water source.

According to an embodiment of the present invention, there is also provided a method for juicing fruit using the above-mentioned juicing system, comprising the steps of:

the method comprises the steps of firstly, adjusting a supporting disc to the lowest position in a juicing cylinder, wherein an annular pressure disc is positioned at the upper end in the juicing cylinder, a material accommodating hopper is positioned above the juicing cylinder, fruits to be juiced are filled in the material accommodating hopper, and the fruits enter between the supporting disc and the annular pressure disc;

starting a first telescopic driver to enable the support disc to ascend until the distance between the support disc and the annular pressure disc is minimum;

starting a first telescopic driver to enable the support disc to descend so that the distance between the support disc and the annular pressure disc is increased;

starting a second telescopic driver to enable the annular pressure plate to ascend and separate from the juicing cylinder, starting a first telescopic driver to enable the supporting plate to ascend to the highest position, and enabling residues to fall into the residue guiding ring groove;

and fifthly, starting the first telescopic driver to enable the supporting disc to return to the initial position, and starting the second telescopic driver to enable the annular pressure disc to return to the initial position.

Compared with the prior art, the invention has the following beneficial effects:

the primary treatment capacity is far greater than that of a juicer in the prior art, and the juicer can be used for more efficiently carrying out slag tapping, so that the production efficiency of the whole juicing is improved, and finally, the juicing system can be suitable for large-scale production in factories;

the integrated arrangement between the juice extracting cylinder and the base ensures that the juice extracting cylinder has larger mechanical strength and can bear larger pressure, thereby ensuring the normal operation of the first telescopic driver and the second telescopic driver and ensuring the smooth juice extracting;

the juice obtained by multiple juicing is collected by the juice collecting groove, so that subsequent sterilization, canning and other operations can be conveniently and uniformly performed.

Drawings

FIG. 1 is a schematic view of a first state overall structure according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the overall structure of a second state according to an embodiment of the present invention;

FIG. 3 is a schematic view of the overall structure of a third state according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the partial structure of FIG. 2A;

FIG. 5 is an enlarged schematic view of a partial structure at B in FIG. 2;

in the above figures:

the juicer comprises a base 1, a juicer barrel 2, a juice receiving groove 3, a channel 4, a mounting plate 5, a first telescopic driver 6, a second telescopic driver 7, a first output rod 8, a supporting disc 9, a sliding barrel 10, a second output rod 11, a hopper 12, an annular pressure plate 13, a first horizontal annular part 14, a second horizontal annular part 15, a limit column 16, a top column 17, a slag receiving ring groove 18, a slag discharging groove 19, a slag guide ring 20, a vertical plate 21, a transverse plate 22, an annular pipe 23, a spray pipe 24 and a water inlet pipe 25.

Detailed Description

The technical scheme of the invention is further described below with reference to the accompanying drawings and examples.

In the description of the present invention, it should be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "clockwise", "counterclockwise", "axial", "radial", "circumferential", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present invention.

As shown in fig. 1, 2 and 3, the present embodiment provides a juice extracting system, which includes a base 1 and a juice extracting cylinder 2 integrally provided with the base 1, wherein the juice extracting cylinder 2 is located on an upper end surface of the base 1, a juice receiving groove 3 is provided below the base 1, and a channel 4 for communicating the juice receiving groove 3 and the juice extracting cylinder 2 is provided on the base 1; the base 1 is also fixedly connected with a mounting plate 5, and a first telescopic driver 6 and a second telescopic driver 7 are fixedly installed on the mounting plate 5, wherein:

the first telescopic driver 6 is provided with a first output rod 8, the first output rod 8 extends downwards and is fixedly connected with a supporting disc 9, the outer edge of the supporting disc 9 is always in sliding contact with the inner wall of the juicing cylinder 2, and a through hole (not shown) is formed in the disc surface of the supporting disc 9;

further, the lower end of the supporting disc 9 is fixedly connected with a sliding cylinder 10, the outer wall of the sliding cylinder 10 is in sliding contact with the inner wall of the juicing cylinder 2, and the sliding cylinder 10 can enable the sliding contact surface between the supporting disc 9 and the juicing cylinder 2 to be larger, so that the supporting disc 9 can run more stably;

the second telescopic driver 7 is provided with a second output rod 11, the second output rod 11 extends downwards and is fixedly connected with a hopper 12, the lower end of the hopper 12 is fixedly connected with an annular pressure plate 13 communicated with the hopper 12, the annular pressure plate 13 is positioned above the supporting plate 9, the annular pressure plate 13 can be close to or far away from the supporting plate 9 in the vertical direction, the orthographic projection of the annular pressure plate 13 is positioned in the orthographic projection of the supporting plate 9, and the outer edge of the annular pressure plate 13 is in sliding contact with or disconnected from the inner wall of the juicing cylinder 2; specifically, the first telescopic driver 6 and the second telescopic driver 7 may be hydraulic cylinders or cylinders to provide stable telescopic driving power.

In the above embodiment, when juice is extracted, more fruits can be filled between the supporting disc 9 and the annular pressure disc 13 through the hopper 12, so that the processing amount is larger, the juice is extracted through the first telescopic driver 6, the driving efficiency is improved, the supporting disc 9 and the annular pressure disc 13 are respectively driven by the first telescopic driver 6 and the second telescopic driver 7 after the juice extraction is finished, the residue extraction efficiency is improved, the juice extractor can be suitable for factory mass production, and finally the problems that in the actual juice extraction process of the juice extractor in the prior art, the residue after the juice extraction is usually cleaned manually, the processing amount is small, and the juice extractor is not suitable for actual production and processing of food processing enterprises are solved;

specifically, as shown in fig. 1, namely, the state is the first step of juicing, namely, the supporting disc 9 is adjusted to the lowest position in the juicing barrel 2, at the moment, the position of the sliding barrel 10 is the lowest, namely, the initial position of the supporting disc 9 (namely, when the state is shown in fig. 1), the annular pressure disc 13 is positioned at the upper end in the juicing barrel 2, the containing hopper 12 is positioned above the juicing barrel 2, the volume of the space surrounded by the annular pressure disc 13, the supporting disc 9 and the juicing barrel 2 is the largest, namely, the initial position of the annular pressure disc 13, the fruit to be juiced is filled into the containing hopper 12, the fruit enters between the supporting disc 9 and the annular pressure disc 13, and particularly, the filled fruit is not easy to be overfilled, only needs to cover the joint of the containing hopper 12 and the annular pressure disc 13, and can also be continuously added, so that the height of the lower end 1/3 of the containing hopper 12 is not exceeded, and the fruit can overflow out of the containing hopper 12 when the subsequent supporting disc 9 is arranged;

the state shown in fig. 2 is a juice extracting process, and specifically includes the following steps:

secondly, starting the first telescopic driver 6 to enable the supporting disc 9 to ascend until the distance between the supporting disc 9 and the annular pressing disc 13 is minimum, extruding fruits to produce juice in the process, enabling the juice to travel downwards through the through holes into the lower channel 4, and enabling the juice to flow into the lower juice receiving groove 3 through the channel 4 for temporary storage;

starting the first telescopic driver 6 to enable the supporting disc 9 to descend so as to enable the distance between the supporting disc 9 and the annular pressing disc 13 to be increased, wherein the process is to partially release the extrusion of fruits, and the second and third steps can be repeated for 2-5 times in order to further improve the juice yield, so that the channel 4 is suitable for not continuously flowing out juice;

the state shown in fig. 3 is deslagging, and specifically comprises the following steps:

step four, starting the second telescopic driver 7 to enable the annular pressure plate 13 to ascend and separate from the juicing cylinder 2, enabling residues to fall into a groove structure formed by the supporting plate 9 and the juicing cylinder 2 in the process, starting the first telescopic driver 6 to enable the supporting plate 9 to ascend to the highest position (namely, when the state is shown in fig. 3), enabling the residues to fall into a groove of the residue guide ring 20, and enabling the first telescopic driver 6 to continuously move up and down for a plurality of times so as to enable the residues on the first telescopic driver to be separated from the first telescopic driver to enter the ring groove;

and fifthly, starting the first telescopic driver 6 to enable the supporting disc 9 to return to the initial position, starting the second telescopic driver 7 to enable the annular pressing disc 13 to return to the initial position, and then performing the next round of juicing operation.

As shown in fig. 1, 2, 3 and 4, preferably, in order to make the supporting disc 9 and the annular pressure plate 13 operate more stably, the outer ring of the annular pressure plate 13 is fixedly provided with a first horizontal annular part 14, the first horizontal annular part 14 is in sliding contact with or disconnected from the inner wall of the juicing barrel 2, the outer edge of the supporting disc 9 is fixedly provided with a second horizontal annular part 15 opposite to the first horizontal annular part 14, and the second horizontal annular part 15 is always in sliding contact with the inner wall of the juicing barrel 2, namely, the supporting disc 9 and the annular pressure plate 13 are respectively in sliding contact with the juicing barrel 2 through the first horizontal annular part 14 and the second horizontal annular part 15, so that the smooth sliding process is ensured;

in particular, the annular pressing plate 13 shown in fig. 1 is not located at the highest position of the upper end of the juicing barrel 2, specifically, through holes are also formed in the first horizontal annular portion 14, part of juice can enter a space surrounded by the annular pressing plate 13 and the upper end of the juicing barrel 2 when the juice is squeezed, so that a new juice outlet path is provided for the juice, more similar through holes can be further formed in the annular pressing plate 13, so that the juice enters the space surrounded by the annular pressing plate 13 and the upper end of the juicing barrel 2, and when the supporting plate 9 is arranged below, the part of juice can flow back to the space surrounded by the annular pressing plate 13, the supporting plate 9 and the juicing barrel 2 and then enter the juice receiving groove 3 below through the through holes in the supporting plate 9;

further, the lower wall surface of the first horizontal annular portion 14 is fixedly connected with a limit column 16, the lower disc surface of the annular pressure plate 13 is fixedly connected with a plurality of jacking columns 17, when the limit column 16 is propped against the second horizontal annular portion 15, the jacking columns 17 are separated from the supporting disc 9, the vertical distances between all jacking columns 17 and the disc surface of the supporting disc 9 are equal, the setting of the limit column 16 is to prevent accidental collision between the supporting disc 9 and the annular pressure plate 13, specifically, to prevent the jacking columns 17 from colliding with the disc surface of the supporting disc 9 so as to avoid damage to the through holes by the jacking columns 17, specifically, the set jacking columns 17 can puncture fruits in the squeezing process, so that juice outlet efficiency is improved, and one end of the jacking columns 17 deviating from the annular pressure plate 13 is better in a conical puncture effect;

further, in order to ensure stable operation of the system, the second telescopic drivers 7 are a pair of two sides of the first telescopic drivers 6 in a split row, and the two second output rods 11 pass through the hopper 12 and are fixedly connected with the annular pressing disc 13, so that the annular pressing disc 13 can bear larger pressure, and meanwhile, the two sides are subjected to pressure to be in a balanced state, thereby ensuring stable operation of the system, in particular, similarly, the limit posts 16 can be arranged in one or more pairs, and the adjacent two limit posts 16 are distributed at equal intervals;

furthermore, in order to improve the juice squeezing efficiency, the supporting disc 9 is of a structure with a high middle and a low outer edge, the upper end of the inner annular wall of the annular pressure disc 13 is higher than the upper end of the outer annular wall of the annular pressure disc 13, so that an inclined annular inclined plane is arranged on the supporting disc 9 and is opposite to the annular lower wall surface of the annular pressure disc 13, the opposite area between the supporting disc 9 and the annular pressure disc 13 is larger, namely the area actually participating in squeezing fruits is larger, and meanwhile, the number of the jacking columns 17 is larger, so that the juice squeezing efficiency is improved.

As shown in fig. 1, 2 and 3, in order to collect residues conveniently, a residue receiving ring groove 18 is circumferentially arranged on the outer wall of the juicer cylinder 2, and the residue receiving ring groove 18 is fixedly connected with a residue discharging groove 19 communicated with the inside and the outside of the residue receiving ring groove 18, namely residues after juicing are led into the residue receiving ring groove 18 and then can be collected uniformly through the residue discharging groove 19;

further, in order to better enable the residues to enter the residue receiving ring groove 18, the upper end face of the juicing barrel 2 is fixedly connected with the residue guide ring 20, the upper end of the inner ring wall of the residue guide ring 20 is higher than the upper end of the outer ring wall of the juicing barrel, when the supporting disc 9 is located at the highest position, the outer edge of the supporting disc 9 is in flush transition with the residue guide ring 20, and when the residues are discharged, the residues enter the residue receiving ring groove 18 more smoothly through the inclined face of the residue guide ring 20, so that the residues are prevented from being accumulated on the upper end face of the juicing barrel 2.

As shown in fig. 1, 2, 3 and 5, preferably, in order to more conveniently clean the internal components such as the hopper 12, the annular pressure plate 13, the supporting plate 9, the juicing barrel 2 and the like, the embodiment also provides a high-pressure cleaning component, specifically, the mounting plate 5 comprises a vertical plate 21 fixedly connected with the base 1 and a transverse plate 22 fixedly connected with the vertical plate 21, the first telescopic driver 6 and the second telescopic driver 7 are both mounted on the upper plate surface of the transverse plate 22, the lower plate surface of the transverse plate 22 is also fixedly connected with an annular pipe 23 sleeved outside the first output rod 8, the inner annular wall of the annular pipe 23 is separated from the wall surface of the first output rod 8 to avoid the influence of the annular pipe 23 on the movement of the first output rod 8, a plurality of spray pipes 24 surrounding the first output rod 8 are fixedly mounted on the annular pipe 23, the annular pipe 23 is also fixedly connected with a water inlet pipe 25 communicated with the annular pipe 23, one end of the water inlet pipe 25, which is far away from the annular pipe 23, is connected with a high-pressure water source (not shown), the high-pressure water source (which is the same as the cleaning water source in the prior art and comprises a water storage tank, a booster pump body and other components), a pumping pipe of the booster pump body is communicated with the water storage tank, a pumping pipe of the booster pump body is communicated with the water inlet pipe 25) and is used for supplying the high-pressure water source into the annular pipe 23, and then the high-pressure water source is sprayed out through the spray pipe 24 to flush the components, in order to improve the cleaning efficiency, the embodiment can be adjusted to a second state as shown in fig. 2, the outlet of the spray pipe 24 is vertically and downwards arranged, the sprayed water flow downwards enters the containing hopper 12 to realize flushing, in a further embodiment, the outlet end of the spray pipe 24 can be obliquely arranged towards the direction far away from the first output rod 8, namely, all the spray pipes 24 enclose a structure with a small upper part and a big lower part, so that sprayed water is obliquely outwards spread downwards, so that the sprayed water flow can impact the inner wall of the hopper 12, the water flows downwards along the inner wall of the hopper 12, thereby realizing cleaning of the internal components, so that the cleaned water can reach a larger cleaning coverage surface, the cleaning efficiency is improved, particularly, the cleaned wastewater flows downwards into the channel 4 and then into the juice receiving groove 3, a water receiving groove (not shown) can be placed above the juice receiving groove 3, and the cleaned wastewater (cleaning wastewater in the juice receiving groove 3 or the water receiving groove) is guided out.

Finally, it is noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the same, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications and equivalents may be made thereto without departing from the spirit and scope of the technical solution of the present invention, which is intended to be covered by the scope of the claims of the present invention.

Claims

1. The fruit juicing method uses a juicing system to juice, the juicing system comprises a base and a juicing barrel integrally arranged with the base, the juicing barrel is positioned on the upper end surface of the base, a juice receiving groove is arranged below the base, and a channel for communicating the juice receiving groove and the juicing barrel is arranged on the base; the base still fixedly connected with mounting panel, fixed mounting has first flexible driver and the flexible driver of second on the mounting panel, wherein:

the second telescopic driver is provided with a second output rod, the second output rod extends downwards and is fixedly connected with a hopper, the lower end of the hopper is fixedly connected with an annular pressure plate communicated with the hopper, the annular pressure plate is positioned above the supporting plate and can be close to or far away from the supporting plate in the vertical direction, the orthographic projection of the annular pressure plate is positioned in the orthographic projection of the supporting plate, and the outer edge of the annular pressure plate is in sliding contact with or disconnected from the inner wall of the juicing cylinder; the outer wall of the juice extracting cylinder is circumferentially provided with a slag receiving ring groove, and the slag receiving ring groove is fixedly connected with a slag discharging groove which is communicated with the inside and the outside of the slag receiving ring groove; the upper end surface of the juice extracting cylinder is fixedly connected with a slag guide ring, the upper end of the inner annular wall of the slag guide ring is higher than the upper end of the outer annular wall of the slag guide ring, and the outer edge of the supporting disk is flush with the slag guide ring when the supporting disk is positioned at the highest position; the supporting disc is of a structure with a high middle and a low outer edge, the upper end of the inner annular wall of the annular pressure disc is higher than the upper end of the outer annular wall of the annular pressure disc, and the highest position of the supporting disc is positioned in the material containing hopper when the relative distance between the supporting disc and the annular pressure disc is the smallest; the method is characterized by comprising the following steps:

2. The method of fruit juice extraction as claimed in claim 1, characterized in that the outer ring of the annular pressure plate is fixedly provided with a first horizontal annular part which is in sliding contact or disconnection with the inner wall of the juice extraction cylinder, and the outer edge of the support plate is fixedly provided with a second horizontal annular part which is opposite to the first horizontal annular part and is always in sliding contact with the inner wall of the juice extraction cylinder.

3. The method of juicing fruit according to claim 2, wherein the lower wall of the first horizontal annular portion is fixedly connected with a limit post, the lower disk surface of the annular pressing disk is fixedly connected with a plurality of support posts, and when the limit post is propped against the second horizontal annular portion, the support posts are separated from the supporting disk, and the vertical distances between all the support posts and the disk surface of the supporting disk are equal.

4. A method of juicing fruit according to any one of claims 1 to 3, characterised in that the lower end of the support disc is connected to a sliding barrel, the outer wall of which is in sliding contact with the inner wall of the juicing barrel.

5. A method of juicing fruit according to any one of claims 1 to 3, wherein the second telescopic drives are a pair of spaced apart first telescopic drives, and the two second output bars are fixedly connected to the annular platen after passing through the hopper.

6. A method of juicing fruit according to any one of claims 1 to 3, wherein the mounting plate comprises a vertical plate fixedly connected to the base and a horizontal plate fixedly connected to the vertical plate, the first telescopic drive and the second telescopic drive are both mounted on the upper plate surface of the horizontal plate, an annular tube sleeved outside the first output rod is fixedly connected to the lower plate surface of the horizontal plate, the inner annular wall of the annular tube is separated from the wall surface of the first output rod, a plurality of spray tubes encircling the first output rod are fixedly mounted on the annular tube, a water inlet tube communicated with the annular tube is fixedly connected to the annular tube, and one end of the water inlet tube, which is away from the annular tube, is connected with a water source.