CN115302836A

CN115302836A - Efficient biological juice extraction equipment

Info

Publication number: CN115302836A
Application number: CN202211007421.8A
Authority: CN
Inventors: 郭垫虎
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-08-22
Filing date: 2022-08-22
Publication date: 2022-11-08

Abstract

The invention relates to the technical field of biological extraction, in particular to efficient biological juice extraction equipment which comprises a rack and an extraction barrel, wherein the extraction barrel is fixed at the inner bottom end of the rack, a support rod is fixed at the inner bottom end of the extraction barrel, a support plate is fixed at the upper end of the support rod, a filter cloth bag is arranged above the support plate, a T-shaped sleeve is communicated with the upper end of the filter cloth bag, a T-shaped pressing plate is covered at the upper end of the T-shaped sleeve, the middle part of the lower end of the T-shaped pressing plate extends downwards to form the lower end of the inner periphery of the T-shaped sleeve, an annular rotating plate is arranged below the periphery of the T-shaped sleeve, and an annular lifting plate is sleeved on the periphery of the annular rotating plate; according to the invention, the traditional filter screen is replaced by the filter cloth bag to extract and filter the biological juice, the filter cloth bag is favorable for gathering plants together for squeezing, and the device is favorable for squeezing the plants in the filter cloth bag up and down and left and right, and is favorable for avoiding squeezing blind areas, so that the biological juice in the plants can be squeezed and extracted efficiently.

Description

Efficient biological juice extraction equipment

Technical Field

The invention relates to the technical field of biological extraction, in particular to high-efficiency biological juice extraction equipment.

Background

The extraction of biological juice, namely plant juice, usually takes plants as raw materials, and directionally obtains and concentrates one or more active ingredients in the plants through a physical or chemical extraction and separation process according to the application and the requirement of the extracted final product without changing the structure of the active ingredients, so that extraction equipment is often used in the extraction process of the biological juice in the plants, juice in the plants is squeezed and extracted through the extraction equipment, plant waste residues and the biological juice are effectively separated, and the biological juice in the plants is obtained;

when squeezing the extraction through the biological juice in the equipment to the plant, prior art is mostly to put into the filter screen in the extraction barrel with the plant that will squeeze, then squeeze the plant through the clamp plate, squeeze out the biological juice in the plant with this, the problem that this kind of extraction mode exists lies in, because the compressive capacity of filter screen is limited, and the clamp plate need repeatedly exert pressure to the filter screen, very easily with the filter screen pressure loss deformation, consequently can influence the life of equipment, and squeeze the in-process to the plant, the plant is difficult to be in the same place in the extraction barrel cohesion, just it concentrates the expression to be difficult to the plant, and be difficult to accomplish and squeeze the extraction about going on the plant, thereby can lead to the biological juice in the plant to squeeze high-efficiently inadequately, lead to the biological juice in the plant to extract and need consume longer time, influence the efficiency that biological juice in the plant extracted.

Disclosure of Invention

The invention provides efficient biological juice extracting equipment which is beneficial to ensuring the service life of the equipment, is beneficial to centralizing plants to squeeze the plants up and down, left and right and is beneficial to ensuring the high efficiency of extracting biological juice in the plants.

In order to solve the problems of the prior art, the invention discloses high-efficiency biological juice extraction equipment which comprises a rack and an extraction barrel, wherein the extraction barrel is fixed at the inner bottom end of the rack;

a support rod is fixed at the inner bottom end of the extraction barrel, a support plate is fixed at the upper end of the support rod, a filter cloth bag is arranged above the support plate, the upper end of the filter cloth bag is communicated with a T-shaped sleeve, a T-shaped pressing plate is covered at the upper end of the T-shaped sleeve, the middle part of the lower end of the T-shaped pressing plate extends out of the lower end of the inner periphery of the T-shaped sleeve, an annular rotating plate is arranged below the periphery of the T-shaped sleeve, an annular lifting plate is rotatably sleeved on the periphery of the annular rotating plate, and a limiting assembly is arranged between the upper end of the annular rotating plate and the lower end of the T-shaped pressing plate;

an upper fixing plate is fixed on the upper portions of the left end and the right end of the inner wall of the extraction barrel, a lower fixing plate is fixed in the middle of the left end and the right end of the inner wall of the extraction barrel, guide shafts are fixed between the upper fixing plate and the lower fixing plate on the same side, the annular lifting plate is sleeved on the peripheries of the two guide shafts in a sliding mode, a reset spring is connected between the lower end of the annular lifting plate and the lower fixing plate, an elastic telescopic sleeve located on the periphery of the filtering cloth bag is connected between the upper ends of the two lower fixing plates and the lower end of the annular lifting plate, the left end and the right end of the filtering cloth bag are provided with extrusion assemblies located in the elastic telescopic sleeves, and the left end and the right end of the elastic telescopic sleeve are provided with opening and closing assemblies;

the top end rotates in the frame and is connected with electronic jar, T type clamp plate upper end meet in electronic jar power end, the top is equipped with the rotation driving subassembly in the frame.

Furthermore, the limiting assembly comprises positioning blocks, an electromagnet and a magnetic suction plate, positioning grooves are formed in the left side and the right side of the upper end of the annular rotating plate, the two positioning blocks are fixed to the left side and the right side of the lower end of the T-shaped sleeve respectively, and the positioning blocks are downwards inserted into the adjacent positioning grooves.

Furthermore, the electro-magnet is equipped with two and is fixed in respectively the left and right sides of T type clamp plate lower extreme, annular rotating plate upper end and be close to every the outside of constant head tank all opens there is the spacing groove, the magnetism suction disc is equipped with two and the homogeneous phase connects in two the spacing inslot, the electro-magnet all down pegs graft in adjacent the spacing inslot.

Further, the extrusion subassembly includes connecting plate, electric telescopic shaft, stripper plate and a plurality of arch, the connecting plate is equipped with two and is fixed in respectively the left and right sides of annular lifter plate lower extreme, the electric telescopic shaft is equipped with two and is fixed in two one by one the inboard lower extreme of connecting plate, the stripper plate is equipped with two and meets in two one by one the electric telescopic shaft power end, protruding homogeneous phase connect in the stripper plate is inboard, a plurality of left and right ends staggered distribution between the arch.

Furthermore, the opening and closing assembly comprises push plates, spring return rods, side travel switches and upper travel switches, the two push plates are arranged on the left side and the right side of the lower end of the annular lifting plate respectively, the upper ends of the push plates incline outwards, the spring return rods are located on each push plate, the outer ends of the two push plates are connected with the two spring return rods, and the outer ends of the spring return rods are connected with the inner wall of the extraction barrel.

Further, side travel switch all locates the push pedal outside, side travel switch outer end all connect in draw the bucket inner wall, go up travel switch all connect in the upper fixed plate lower extreme, annular lifter plate upper end is close to last travel switch lower extreme.

Furthermore, the rotary driving assembly comprises a servo motor, a main gear and an auxiliary gear, the servo motor is fixed at the top end in the rack, the main gear is connected to the power end of the servo motor, and the auxiliary gear is fixedly sleeved on the periphery of the electric cylinder and meshed with the main gear.

Further, the frame left end is fixed with control panel, the control panel front end has connect motor switch, first switch and second switch from a left side to the right side in proper order mutually, it is the slope form to draw the interior bottom of bucket, it has row material pipe to draw the right lower extreme intercommunication of bucket.

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

1. the filtering cloth bag is adopted to replace a traditional filtering net to extract and filter biological juice, and the deformation capacity of the filtering cloth bag is good, and the filtering cloth bag is extruded with plants, so that the plant waste residues are prevented from being adhered to the inner wall of the extraction barrel, the trouble of cleaning the waste residues in the extraction barrel is reduced, the cleaned filtering cloth bag can be recycled, the deformation problem caused by the use of the filtering net is avoided, and the service life of equipment is favorably ensured;

2. do benefit to through setting up the filter sack and concentrate the plant and squeeze together, and squeeze about the plant in the filter sack through the cooperation of T type clamp plate and backup pad, press the back when pressing down from top to bottom, squeeze about the plant in the filter sack can be followed to stripper plate and arch, with this reciprocal, plant in the filter sack is gone on about and is squeezed, do benefit to and avoid appearing squeezing the blind area, thereby do benefit to the biological juice to the plant and carry out the efficient and squeeze and draw, it is rotatory to filter the sack again, do benefit to and get rid of in the extraction bucket with the quick efficient of biological juice who leaves over on filtering the sack, thereby save the time of filtering the sack to biological juice filtering separation, make this equipment draw more high-efficient to the biological juice in the plant, the effectual efficiency of guaranteeing to biological juice in the plant and draw.

Drawings

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

FIG. 2 is a schematic view of the extraction barrel of the present invention;

FIG. 3 is a schematic diagram of the structure of the annular elevating plate of the present invention;

FIG. 4 is an enlarged partial structural view of the invention A;

FIG. 5 is a side view of the extrusion plate of the present invention;

FIG. 6 is a schematic top view of the annular lifter plate of the present invention;

FIG. 7 is a schematic view of the overall up-down pressing operation of the present invention;

FIG. 8 is a schematic view of the overall left and right press operation of the present invention;

FIG. 9 is a schematic view of an overall disassembly structure of the present invention;

fig. 10 is an overall external structural view of the present invention.

In FIGS. 1-10: the device comprises a rack 1, an extraction barrel 2, a servo motor 3, a main gear 4, a pinion 5, an electric cylinder 6, a T-shaped pressing plate 7, a lower fixing plate 8, an upper fixing plate 9, an annular lifting plate 10, a guide shaft 11, an elastic telescopic sleeve 12, a push plate 13, a spring return rod 14, an upper travel switch 15, a side travel switch 16, a support rod 17, a support plate 18, a connecting plate 19, an electric telescopic shaft 20, an extrusion plate 21, a protrusion 22, a T-shaped sleeve 23, a filter cloth bag 24, an annular rotating plate 25, an electromagnet 26, a limit groove 27, a magnetic suction plate 28, a positioning groove 29, a positioning block 30, a control panel 31, a motor switch 32, a first switch 33, a second switch 34, a discharge pipe 35 and a reset spring 36.

Detailed Description

An efficient biological juice extraction plant:

as shown in fig. 1, 2, 3, 4, 6, 9 and 10, in this embodiment, the device includes a frame 1 and a extracting barrel 2, the extracting barrel 2 is fixed at the inner bottom end of the frame 1, a supporting rod 17 is fixed at the inner bottom end of the extracting barrel 2, a supporting plate 18 is fixed at the upper end of the supporting rod 17, a filtering cloth bag 24 is arranged above the supporting plate 18, the upper end of the filtering cloth bag 24 is communicated with a T-shaped sleeve 23, a T-shaped pressing plate 7 is covered on the upper end of the T-shaped sleeve 23, the middle part of the lower end of the T-shaped pressing plate 7 extends downwards to the lower end of the inner periphery of the T-shaped sleeve 23, an annular rotating plate 25 is arranged below the periphery of the T-shaped sleeve 23, an annular lifting plate 10 is rotatably sleeved on the periphery of the annular rotating plate 25, a limiting assembly is arranged between the upper end of the annular rotating plate 25 and the lower end of the T-shaped pressing plate 7, the limiting assembly includes a positioning block 30, an electromagnet 26 and a magnetic attraction plate 28, the left side and the right side of the upper end of the annular rotating plate 25 are respectively provided with a positioning groove 29, two positioning blocks 30 are arranged and are respectively fixed on the left side and the right side of the lower end of the T-shaped sleeve 23, the positioning blocks 30 are downwards inserted into the adjacent positioning grooves 29, two electromagnets 26 are arranged and are respectively fixed on the left side and the right side of the lower end of the T-shaped pressing plate 7, the outer side of the upper end of the annular rotating plate 25 close to each positioning groove 29 is respectively provided with a limiting groove 27, two magnetic suction plates 28 are arranged and are connected into the two limiting grooves 27, the electromagnets 26 are downwards inserted into the adjacent limiting grooves 27, the top end in the rack 1 is rotatably connected with an electric cylinder 6, the upper end of the T-shaped pressing plate 7 is connected with the power end of the electric cylinder 6, the left end of the rack 1 is fixed with a control panel 31, and the front end of the control panel 31 is sequentially connected with a motor switch 32 and a motor switch from left to right, A first switch 33 and a second switch 34;

when plants are placed in the filtering cloth bag 24, and the T-shaped sleeve 23 and the filtering cloth bag 24 are not yet installed in the extraction barrel 2, the T-shaped sleeve 23 is placed on the annular rotating plate 25, and the filtering cloth bag 24 passes through the inner periphery of the annular rotating plate 25, so that the filtering cloth bag 24 is located below the annular rotating plate 25, at this time, the positioning block 30 is inserted into the positioning groove 29 to prevent the T-shaped sleeve 23 from accidentally sliding on the annular rotating plate 25, then the first switch 33 on the control panel 31 is used for controlling the telescopic operation of the electric cylinder 6, and the electric cylinder 6 is controlled to extend downwards through the first switch 33 until the electric cylinder 6 drives the T-shaped pressing plate 7 to cover the T-shaped sleeve 23, at this time, the electromagnet 26 is inserted into the limiting groove 27, and the electromagnet 26 is adsorbed to the magnetic attraction plate 28, the second switch 34 is set to control the electromagnet 26 to be powered on and powered off, so that the electromagnet 26 is powered on and adsorbed to the magnetic attraction plate 28 through the second switch 34, which is beneficial to prevent the electromagnet 26 from moving out of the limiting groove 27, so that the T-shaped sleeve 23 is firmly pressed on the annular rotating plate 25.

As shown in fig. 1, 2, 3 and 7, in this embodiment, an upper fixing plate 9 is fixed on the upper portion of each of the left and right ends of the inner wall of the extraction barrel 2, a lower fixing plate 8 is fixed on the middle portion of each of the left and right ends of the inner wall of the extraction barrel 2, a guide shaft 11 is fixed between the upper fixing plate 9 and the lower fixing plate 8 on the same side, the annular lifting plate 10 is slidably sleeved on the peripheries of the two guide shafts 11, a return spring 36 is connected between the lower end of the annular lifting plate 10 and the lower fixing plate 9, and an elastic telescopic sleeve 12 located on the periphery of the filter cloth bag 24 is connected between the upper end of the two lower fixing plates 9 and the lower end of the annular lifting plate 10;

next, the first switch 33 controls the electric cylinder 6 to extend and retract up and down in a reciprocating manner, when the electric cylinder 6 drives the T-shaped pressing plate 7 to move down, the T-shaped pressing plate 7 can press down the T-shaped sleeve 23, the annular rotating plate 25 and the annular lifting plate 10, so that the annular lifting plate 10 can slide down along the guide shaft 11, and meanwhile, the annular lifting plate 10 can press down the return spring 36, in the process, the T-shaped sleeve 23 can drive the filter cloth bag 24 to press down on the supporting plate 18, because the middle part of the lower end of the T-shaped pressing plate 7 extends down to the lower end of the inner periphery of the T-shaped sleeve 23, the filter cloth bag 24 is pressed up and down by the T-shaped pressing plate 7 and the supporting plate 18, namely, plants in the filter cloth bag 24 can be pressed up and down by the T-shaped pressing plate 7 and the supporting plate 18, so that biological juice in the plants in the filter cloth bag 24 is pressed and extracted.

As shown in fig. 2, 3, 5, 7, and 8, in this embodiment, the left and right ends of the filter cloth bag 24 are respectively provided with two squeezing assemblies located in the elastic telescopic sleeve 12, each squeezing assembly includes a connecting plate 19, an electric telescopic shaft 20, a squeezing plate 21 and a plurality of protrusions 22, the connecting plate 19 is provided with two blocks and respectively fixed on the left and right sides of the lower end of the annular lifting plate 10, the electric telescopic shafts 20 are provided with two lower ends fixed on the inner sides of the two connecting plates 19 one by one, the squeezing plates 21 are provided with two blocks and are connected to the power ends of the two electric telescopic shafts 20 one by one, the protrusions 22 are connected to the inner sides of the squeezing plates 21, the plurality of protrusions 22 on the left and right ends are distributed in a staggered manner, the left and right ends of the elastic telescopic sleeve 12 are respectively provided with an opening and closing assembly, each opening and closing assembly includes a pushing plate 13, a spring return rod 14, a side travel switch 16 and an upper travel switch 15, the pushing plates 13 are respectively arranged on the left and right sides of the lower ends of the annular lifting plate 10, the pushing plate 13 is inclined outwards, the spring return rod 14 is connected to the inner wall of the lifting barrel 2, and the inner wall of the lifting switch 15 is close to the inner wall of the lifting switch 2, and the inner wall of the lifting switch 15;

when the electric cylinder 6 drives the T-shaped pressing plate 7 and the electromagnet 26 to move upwards, the electromagnet 26 can pull the magnetic absorption plate 28 upwards through the adsorption force, upward thrust is applied to the annular lifting plate 10 by combining the reset spring 36, so that the magnetic absorption plate 28 pulls the annular lifting plate 10 upwards, the annular rotating plate 25, the T-shaped sleeve 23 and the filtering cloth bag 24, the upper travel switch 15 can be pressed upwards after the annular lifting plate 10 moves upwards, the upper travel switch 15 is set to be used for controlling the extension of the same-side electric telescopic shaft 20, therefore, the upper travel switch 15 can control the extension of the corresponding electric telescopic shaft 20 after being pressed and started, the electric telescopic shaft 20 can drive the extrusion plate 21 and the protrusion 22 to extrude the filtering cloth bag 24 leftwards and rightwards, the protrusion 22 can extrude plants in the filtering cloth bag 24 more completely, and accordingly the plants in the filtering cloth bag 24 can be squeezed more thoroughly.

As shown in fig. 2, 3, 5, 7, and 8, in this embodiment, the extruding assembly includes a connecting plate 19, two electrically telescopic shafts 20, an extruding plate 21, and a plurality of protrusions 22, the connecting plate 19 is provided with two blocks and fixed to the left and right sides of the lower end of the annular lifting plate 10, the electrically telescopic shafts 20 are provided with two blocks and fixed to the lower ends of the inner sides of the two connecting plates 19, the extruding plate 21 is provided with two blocks and connected to the power ends of the two electrically telescopic shafts 20, the protrusions 22 are connected to the inner side of the extruding plate 21, the protrusions 22 at the left and right ends are distributed in a staggered manner, the opening and closing assembly includes a pushing plate 13, a spring return rod 14, a side travel switch 16, and an upper travel switch 15, the two pushing plates 13 are respectively arranged on the left and right sides of the lower end of the annular lifting plate 10, the upper end of the pushing plate 13 is inclined outward, the spring return rod 14 is located at each pushing plate 13 and connected to two outer ends, the spring return rod 14 is connected to the inner wall of the extracting barrel 2, the side travel switch 16 is connected to the outer end of the upper travel switch 15, and the upper end of the annular lifting plate 15 is close to the lower end of the upper travel switch 15;

when the electric cylinder 6 drives the annular lifting plate 10 to move downwards through the above operation mode, the annular lifting plate 10 can push the pushing plate 13 outwards along the inclined plane of the pushing plate 13, so that the pushing plate 13 compresses the spring return rod 14, meanwhile, the pushing plate 13 can press and start the side travel switch 16, the side travel switch 16 is set to control the electric telescopic shaft 20 to contract, therefore, when plants in the filtering cloth bag 24 are squeezed downwards, the electric telescopic shaft 20 can automatically contract and drive the squeezing plate 21 and the bulge 22 to be far away from the filtering cloth bag 24, and when the annular lifting plate 10 moves upwards, the connecting plate 19 can be driven by the annular lifting plate 10, the squeezing plate 21 and the bulge 22 move upwards and downwards together, so that the squeezing plate 21 and the bulge 22 influence the normal operation of squeezing and extracting of the juice in the filtering cloth bag 24, after the annular lifting plate 10 moves upwards, when the annular lifting plate 10 does not push the pushing plate 13 outwards, the spring return force of the spring return rod 14 can drive the squeezing plate 13 to be far away from the side travel switch 16, after the side travel switch 16 is closed, the annular lifting plate 10 can press the starting upper travel switch 15, in the annular lifting plate 7 and the filtering cloth bag, in the filtering cloth bag, and the squeezing plate 24, thereby, the squeezing plate can collect the juice in the plant, and the squeezing cloth bag.

As shown in fig. 2, in this embodiment, the inner bottom end of the extraction barrel 2 is inclined, the right lower end of the extraction barrel 2 is communicated with a discharge pipe 35, and an elastic telescopic sleeve 12 located at the periphery of the filter cloth bag 24 is connected between the upper ends of the two lower fixing plates 9 and the lower end of the annular lifting plate 10;

biological juice when in the plant is squeezing the in-process of drawing, and the biological juice that squeezes out then filters through filtering the sack 24, and the plant waste residue then leaves over in filtering the sack 24, because annular lifter plate 10 can compress and stretch flexible cover 12 when reciprocating, blocks biological juice through flexible cover 12, does benefit to the biological juice gathering that will filter out to draw 2 interior lower extremes of bucket to through arranging the collection of discharge tube 35 discharge.

As shown in fig. 1, in this embodiment, a rotary driving assembly is disposed at a top end in the rack 1, the rotary driving assembly includes a servo motor 3, a main gear 4 and a secondary gear 5, the servo motor 3 is fixed at the top end in the rack 1, the main gear 4 is connected to a power end of the servo motor 3, and the secondary gear 5 is fixedly sleeved on a periphery of the electric cylinder 6 and engaged with the main gear 4;

after squeezing biological juice in the plant is finished, the squeezing plate 21 and the T-shaped pressing plate 7 are reset to the initial positions, the motor switch 32 is set to control the servo motor 3 to work, then the servo motor 3 is started through the motor switch 32, the servo motor 3 drives the main gear 4, the pinion 5 and the electric cylinder 6 to rotate, the electric cylinder 6 drives the T-shaped pressing plate 7, the electromagnet 26, the magnetic suction plate 28 and the annular rotating plate 25 to rotate at the same time, the annular rotating plate 25 drives the T-shaped sleeve 23 and the filtering cloth bag 24 to rotate, and therefore the biological juice left on the filtering cloth bag 24 can be thrown into the extracting barrel 2 quickly and efficiently through rotation of the filtering cloth bag 24, time for filtering and separating the biological juice by the filtering cloth bag 24 is saved, the device extracts the biological juice in the plant more efficiently, and the efficiency for extracting the biological juice in the plant is effectively guaranteed.

As shown in fig. 1 and 9, in this embodiment, an electric cylinder 6 is rotatably connected to the top end of the inside of the frame 1, and the upper end of the T-shaped platen 7 is connected to a power end of the electric cylinder 6;

when the plant waste residue in the filtering cloth bag 24 needs to be cleaned and the next plant extraction biological juice needs to be replaced, the electromagnet 26 is powered off, the electromagnet 26 does not adsorb the magnetic suction plate 28 any more, then the T-shaped pressing plate 7 is driven to move upwards and away from the T-shaped sleeve 23 through contraction of the electric cylinder 6, the electromagnet 26 can move out of the limiting groove 27, then the T-shaped sleeve 23 can be pulled upwards, and the positioning block 30 can be moved out of the positioning groove 29, so that the filtering cloth bag 24 can be driven to move upwards to move out of the extraction barrel 2 through the T-shaped sleeve 23, the convenient cleaning of the plant waste residue in the filtering cloth bag 24 is facilitated, the plant to be squeezed is conveniently placed in the filtering cloth bag 24, in conclusion, the filtering cloth bag 24 is adopted to replace a traditional filtering net to extract and filter the biological juice, the deformation capability of the filtering cloth bag 24 is good, the filtering cloth bag 24 is extruded along with the plant, the adhesion of the plant waste residue to the inner wall of the extraction barrel 2 can be avoided, the trouble of cleaning of the waste residue in the extraction barrel 2 is reduced, the filtering cloth bag 24 after the cleaning can be repeatedly utilized, the deformation problem caused by the repeated use of the filtering cloth bag 24 is avoided, and the filter net, the life of the device is prolonged service life of the filtering cloth bag.

Claims

1. The utility model provides a biological juice of efficient draws equipment, includes frame (1) and draws bucket (2), it is fixed in to draw bucket (2) bottom end in frame (1), its characterized in that:

a supporting rod (17) is fixed at the inner bottom end of the extraction barrel (2), a supporting plate (18) is fixed at the upper end of the supporting rod (17), a filtering cloth bag (24) is arranged above the supporting plate (18), a T-shaped sleeve (23) is communicated with the upper end of the filtering cloth bag (24), a T-shaped pressing plate (7) is covered at the upper end of the T-shaped sleeve (23), the middle of the lower end of the T-shaped pressing plate (7) extends downwards to form the lower end of the inner periphery of the T-shaped sleeve (23), an annular rotating plate (25) is arranged below the periphery of the T-shaped sleeve (23), an annular lifting plate (10) is rotatably sleeved on the periphery of the annular rotating plate (25), and a limiting assembly is arranged between the upper end of the annular rotating plate (25) and the lower end of the T-shaped pressing plate (7);

an upper fixing plate (9) is fixed on the upper portions of the left end and the right end of the inner wall of the extraction barrel (2), a lower fixing plate (8) is fixed in the middle of the left end and the right end of the inner wall of the extraction barrel (2), guide shafts (11) are fixed between the upper fixing plate (9) and the lower fixing plate (8) on the same side, the annular lifting plate (10) is sleeved on the periphery of the two guide shafts (11) in a sliding mode, a reset spring (36) is connected between the lower end of the annular lifting plate (10) and the lower fixing plate (9), an elastic telescopic sleeve (12) located on the periphery of the filtering cloth bag (24) is connected between the upper end of the two lower fixing plates (9) and the lower end of the annular lifting plate (10), extrusion assemblies located in the elastic telescopic sleeves (12) are arranged on the left end and the right end of the filtering cloth bag (24), and opening and closing assemblies are arranged on the left end and the right end of the elastic telescopic sleeve (12);

the top end rotates in frame (1) and is connected with electronic jar (6), T type clamp plate (7) upper end meet in electronic jar (6) power end, the top end is equipped with the rotation driving subassembly in frame (1).

2. A high efficiency biological juice extracting apparatus according to claim 1, wherein: spacing subassembly includes locating piece (30), electro-magnet (26) and magnetism inhales board (28), constant head tank (29) have all been opened to annular rotating plate (25) upper end left and right sides, locating piece (30) are equipped with two and are fixed in respectively the left and right sides of T jacket (23) lower extreme, locating piece (30) all down peg graft in adjacent in constant head tank (29).

3. A high efficiency biological juice extraction apparatus according to claim 2, wherein: electromagnet (26) are equipped with two and are fixed in respectively the left and right sides of T type clamp plate (7) lower extreme, annular rotor plate (25) upper end and be close to every spacing groove (27) have all been opened in the outside of constant head tank (29), magnetism suction disc (28) are equipped with two and all connect in two in spacing groove (27), electromagnet (26) all down peg graft in adjacent in spacing groove (27).

4. A high efficiency biological juice extraction apparatus according to claim 1, wherein: extrusion subassembly includes connecting plate (19), electric telescopic shaft (20), stripper plate (21) and a plurality of arch (22), connecting plate (19) are equipped with two and are fixed in respectively the left and right sides of annular lifter plate (10) lower extreme, electric telescopic shaft (20) are equipped with two and are fixed in two one by one the inboard lower extreme of connecting plate (19), stripper plate (21) are equipped with two and meet in two one by one electric telescopic shaft (20) power end, arch (22) homogeneous phase connect in stripper plate (21) are inboard, a plurality of left and right ends staggered distribution between arch (22).

5. A high efficiency biological juice extraction apparatus according to claim 1, wherein: the opening and closing assembly comprises push plates (13), spring return rods (14), a side travel switch (16) and an upper travel switch (15), the push plates (13) are arranged on the left side and the right side of the lower end of the annular lifting plate (10), the upper ends of the push plates (13) are inclined outwards, the spring return rods (14) are located at each position, the outer ends of the push plates (13) are connected with two pieces, and the outer ends of the spring return rods (14) are connected with the inner wall of the extraction barrel (2).

6. An apparatus for high-efficiency extraction of biological juice according to claim 5, wherein: side travel switch (16) all locate push pedal (13) outside, side travel switch (16) outer end all connect in draw bucket (2) inner wall, last travel switch (15) all connect in upper fixed plate (9) lower extreme, annular lifter plate (10) upper end is close to in last travel switch (15) lower extreme.

7. A high efficiency biological juice extraction apparatus according to claim 1, wherein: the rotary driving assembly comprises a servo motor (3), a main gear (4) and an auxiliary gear (5), the servo motor (3) is fixed at the inner top end of the rack (1), the main gear (4) is connected to the power end of the servo motor (3), and the auxiliary gear (5) is fixedly sleeved on the periphery of the electric cylinder (6) and meshed with the main gear (4).

8. A high efficiency biological juice extraction apparatus according to claim 1, wherein: frame (1) left end is fixed with control panel (31), control panel (31) front end has connect in proper order from a left side to the right side motor switch (32), first switch (33) and second switch (34) mutually, it is the slope form to draw the interior bottom of bucket (2), it has row material pipe (35) to draw bucket (2) right side lower extreme intercommunication.