CN117180798B - Separation equipment and separation method for separating negative ion essence from plants - Google Patents

Abstract

The invention relates to the field of plant essence separation, in particular to separation equipment and a separation method for separating negative ion essence from plants. According to the invention, plants and water are placed in the machine body, the water and the plants are separated through the receiving tray, the negative ion essence in the plants is extracted in a heating extraction and multistage extraction mode, so that essence components in the plants can be quickly separated, meanwhile, after extraction is finished, the extrusion mechanism can be driven to extrude the plants on the receiving tray through driving the servo motor, so that the extraction effect is further and thoroughly improved, the aim of reutilizing the extracted plants is fulfilled, the extraction efficiency of the device is remarkably improved, and the full utilization rate of the plants is ensured.

Description

Separation equipment and separation method for separating negative ion essence from plants

Technical Field

The invention relates to the technical field of plant essence separation, in particular to separation equipment and a separation method for separating negative ion essence from plants.

Background

Plant negative ion essence generally refers to substances such as specific amino acids, polypeptides, polysaccharides, enzymes, various globulins, aromatic extracts, alcohols, aldehydes, acids and the like in plants, wherein the plant essence is generally applied to cosmetics, the extracted plant essence has different effects according to different plants, the substances concentrate certain active molecules by hundreds of times, and the components and the effects of the substances are strong and changeable, so that a lot of attention is paid to specially developing natural cosmetics laboratories, each plant is beneficial to skin oxygen absorption and regeneration to different degrees, and the respective effects of the extracts can be enhanced by mixing and using the extracts.

Because of the strong skin care effect of the negative ion essence in the plants, the negative ion essence is widely used in the field of skin care, and the general extraction mode of the negative ion essence in the plants is distillation extraction, namely the extraction of the essence from the plants by steam distillation, which is the most commonly used and cleanest method for separating the essence, and most of the essence of the plants can be obtained by distillation.

However, most of the existing plant extract essence equipment is to directly put plants into a cabin for distillation, and although a certain extraction effect can be achieved, the efficiency is not high in separation due to the fact that the plants are not subjected to certain treatment, and the residual plant residues are discarded after the plants are distilled and extracted by a general device, but some essence is not extracted from the discarded plant residues, so that the extraction efficiency of the essence is reduced, the universality of the device is poor, resource waste is caused if the plant residues are directly discarded, and the utilization rate is too low.

Disclosure of Invention

The invention aims to solve the defects in the prior art, and provides a separation device and a separation method for separating anion essence from plants.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the invention provides separation equipment for separating negative ion essence from plants, which comprises a machine body, a heating base, a receiving tray, an extrusion mechanism and a limiting plug, wherein the heating base is arranged in the machine body;

the power change-over switch is arranged on the outer side of the machine body, the upper end of the machine body is provided with a condensing device through a connecting mechanism, the upper end of the condensing device is provided with a filtering tower column, and the filtering tower column is connected with the separation and collection device through a connecting pipe.

In addition, the preferred structure is, a plurality of coupling mechanism are installed in the outside of organism, and every coupling mechanism all is connected with condensing equipment, and condensing equipment lid is established in the upper end of organism, and is located condensing equipment and installs the filter tower post, and the connecting pipe is installed to the one end of filter tower post, and the connecting pipe is the type of falling U, and is located the one end of connecting pipe and is equipped with the drain mouth, and the below of drain mouth is provided with separation collection device.

In addition, the preferred structure is, the middle part of organism is provided with the heating base of hemisphere form, and is located the inside bottom of organism and install servo motor, and servo motor's output stretches into inside the heating base, and the cover is equipped with the stainless steel cover shell on servo motor's the output, and the stainless steel cover shell is installed on the heating base, and wherein servo motor's output stretches out the stainless steel cover shell and the transmission is connected with the docking rod, and extrusion mechanism is installed to the joint on the docking rod.

In addition, the preferable structure is, the upper end of stainless steel cover shell rotates and installs the butt joint pole, and the one end and the servo motor transmission of butt joint pole are connected, and are located and install on the stainless steel cover shell and connect the charging tray, connect the outside of charging tray to rotate through spacing ring spacing and install in the spacing inslot of organism inner wall seting up, wherein connect the middle part of charging tray to set up spacing recess, and be located and connect the inner wall of charging tray to install a plurality of friction blocks, and connect the middle part of charging tray to set up a plurality of through-holes.

In addition, the preferred structure is, extrusion mechanism passes through the draw-in groove and is connected with the butt joint pole transmission, and wherein extrusion mechanism includes movable extrusion wheel, fixed extrusion wheel, goes up go-between, go down go-between, control module, swivel mount, dead lever, wherein go up go-between, go down go-between connect-between through the dead lever connection fixed, and be located the upper end of go-between and install a plurality of swivel mounts down, rotate respectively on every swivel mount and install movable extrusion wheel, fixed extrusion wheel, wherein the one end fixed extrusion wheel is fixed to be installed on last go-between.

In addition, the preferred structure is, every the one end of activity extrusion wheel is all installed on lower go-between through the swivel mount rotation, and is located the other end of activity extrusion wheel and install the connecting seat, and the movable rod is installed to the one end of connecting seat, and flexible gum cover is installed to the outside cover of movable rod, and the spacing installation of one end of movable rod in the dwang, the dwang rotates in the inside of last go-between through the pivot, wherein is located the one end of every activity extrusion wheel and all is provided with the electromagnetism and inhale the piece structure.

In addition, the electromagnetic suction block structure preferably comprises an electromagnet module, a wire and a reset spring, wherein the electromagnet module is arranged in the upper connecting ring, the wire is arranged at one end of the electromagnet module, and the reset spring is arranged at the lower end of the electromagnet module.

In addition, the preferred structure is, magnet is installed to the one end of rotor, and when the electro-magnet module circular telegram, electro-magnet module produces electromagnetic attraction to be connected through electromagnetic attraction and the magnet magnetism on the rotor, the rotor passes through electromagnetic attraction and is connected with the electro-magnet module, and the rotor passes through movable rod drive activity extrusion wheel simultaneously and removes, and rotor and reset spring extrusion contact, and when electro-magnet module outage, electro-magnet module does not have electromagnetic attraction, and magnet and electro-magnet module disconnection this moment make the rotor be sprung through reset spring.

In addition, the preferred structure is, servo motor drive is passed through to the one end of butt joint pole, and when servo motor's output rotated, servo motor drive butt joint pole rotated, and the butt joint pole drives extrusion mechanism and rotates.

In a second aspect, the present invention provides a separation method for separating negative ion essence from plants, which is applied to the separation device for separating negative ion essence from plants according to the first aspect, and comprises the following steps:

s1, adding purified water and plants into a machine body, covering a condensing device, and assembling a filtering tower column, a connecting pipe and a separation and collection device;

s2, heating the bottom of a heating base in the machine body, and enabling the mixed gas and liquid to enter a separation and collection device through a condensing device to separate essence and water;

s3, driving the servo motor to rotate, driving the extrusion mechanism to carry out rolling extrusion on the plants on the butt joint tray for multiple times, realizing the effect of reutilizing extrusion extraction on the separated plants, and further separating the anion essence in the plants;

s4, after separation is finished, recovering the essence through the separation and collection device, taking out the squeezed and dried plants through opening the condensing device, and feeding the plants into the machine body again.

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

according to the invention, plants and water are placed in the machine body, the water and the plants are separated through the receiving tray, the negative ion essence in the plants is extracted in a heating extraction and multistage extraction mode, so that essence components in the plants can be quickly separated, meanwhile, after extraction is finished, the extrusion mechanism can be driven to extrude the plants on the receiving tray through driving the servo motor, so that the extraction effect is further and thoroughly improved, the aim of reutilizing the extracted plants is fulfilled, the extraction efficiency of the device is greatly improved, and the full utilization rate of the plants is ensured.

Drawings

Fig. 1 is a schematic diagram of the external structure of a separation device for separating negative ion essence from plants according to the present invention;

FIG. 2 is a schematic view of the assembly of the internal body components of the separation apparatus of the present invention;

FIG. 3 is a schematic diagram illustrating the clamping of the receiving tray and the limiting groove according to the present invention;

FIG. 4 is an exploded view of the cross-section of FIG. 2;

FIG. 5 is a schematic view of a tray structure of the separating apparatus of the present invention;

FIG. 6 is a schematic view of an extrusion structure according to the present invention;

FIG. 7 is a schematic illustration of a swivel mount connection structure of an extrusion structure;

FIG. 8 is a schematic view of the internal components of the extrusion structure of the present invention;

fig. 9 is a schematic diagram of an electromagnet energization control state.

In the figure: the device comprises a machine body 1, a power change-over switch 1001, a limit groove 1002, a condensing device 2, a connecting mechanism 3, a filtering tower column 4, a connecting pipe 5, a separating and collecting device 6, a heating base 7, a servo motor 8, a material receiving disc 9, a friction block 901, a limit groove 902, a limit ring 903, a squeezing mechanism 10, a movable squeezing wheel 101, a connecting seat 1011, a fixed squeezing wheel 102, an upper connecting ring 103, a lower connecting ring 104, a control module 105, a rotary seat 106, a soft rubber sleeve 107, an electromagnet module 108, a lead 109, a return spring 110, a movable rod 111, a rotary block 112, a magnet 1121, a fixed rod 113, a stainless steel sleeve 11, a butt joint rod 12 and a limit plug 1201.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations. Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention.

All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

It should be noted that the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus, and that a schematic representation of such terms does not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

Referring to fig. 1 to 9, a separation device for separating negative ion essence from plants comprises a machine body 1, wherein a heating base 7 is arranged in the middle of the machine body 1, a material receiving tray 9 is arranged in the middle of the heating base 7 through a stainless steel sleeve shell 11, an extrusion mechanism 10 is arranged above the material receiving tray 9 in a clamping manner through a butt joint rod 12, and a limiting plug 1201 is arranged at the clamping end of the extrusion mechanism 10 and the butt joint rod 12;

further, the outside of organism 1 is equipped with power change over switch 1001, and the condensing equipment 2 is installed through coupling mechanism 3 to organism 1 upper end, and filtering tower post 4 is installed to condensing equipment 2's upper end, and filtering tower post 4 passes through connecting pipe 5 and is connected with separation collection device 6, can make after condensing equipment 2 is collecting the plant distilled water, filters through filtering tower post 4 through connecting pipe 5, and enters into separation collection device 6 inside and separate, thereby can obtain water and essence.

Wherein, a plurality of coupling mechanism 3 are installed in the outside of organism 1, every coupling mechanism 3 all is connected with condensing equipment 2, condensing equipment 2 lid is established in the upper end of organism 1, and be located condensing equipment 2 and install filter tower 4, connecting pipe 5 is installed to the one end of filter tower 4, connecting pipe 5 is the type of falling U, and be located the one end of connecting pipe 5 and be equipped with the liquid mouth, the below of liquid mouth is provided with separation collection device 6, wherein can guarantee through coupling mechanism 3 that condensing equipment 2 can firm install on organism 1, and guaranteed the stability of separation, be equipped with the liquid mouth through the one end of connecting pipe 5 simultaneously, can be with the distilled water guide of collecting to the separation collection device 6 of below in, and retrieve the essence through separation collection device 6, greatly increased the extraction efficiency of device.

In addition, the middle part of organism 1 is provided with hemispheroidal heating base 7, and be located the inside bottom of organism 1 and install servo motor 8, servo motor 8's output stretches into inside heating base 7, and the cover is equipped with stainless steel cover shell 11 on servo motor 8's the output, stainless steel cover shell 11 installs on heating base 7, wherein servo motor 8's output stretches out stainless steel cover shell 11 and the transmission is connected with butt joint pole 12, extrusion mechanism 10 is installed to the joint on the butt joint pole 12 for extrusion mechanism 10 rotates through butt joint pole 12, thereby carries out efficient extrusion to the plant, further draws the essence, has improved its extraction efficiency greatly.

Moreover, the upper end of stainless steel cover shell 11 rotates and installs docking rod 12, and docking rod 12's one end and servo motor 8 transmission are connected, and be located and install on the stainless steel cover shell 11 and connect charging tray 9, the outside of receiving charging tray 9 is through spacing ring 903 spacing rotation install in the spacing groove 1002 that organism 1 inner wall was seted up, wherein connect the middle part of charging tray 9 to set up spacing recess 902, and be located and connect the inner wall of charging tray 9 to install a plurality of friction blocks 901, and connect the middle part of charging tray 9 to set up a plurality of through-holes, guaranteed that the plant can extrude through friction block 901 more efficient on connecing charging tray 9, improved its extraction efficiency greatly.

Meanwhile, the extrusion mechanism 10 is in transmission connection with the docking rod 12 through a clamping groove, wherein the extrusion mechanism 10 comprises a movable extrusion wheel 101, a fixed extrusion wheel 102, an upper connecting ring 103, a lower connecting ring 104, a control module 105, a swivel mount 106 and a fixed rod 113, wherein the upper connecting ring 103 and the lower connecting ring 104 are fixedly connected through the fixed rod 113, a plurality of swivel mounts 106 are arranged at the upper end of the lower connecting ring 104, the movable extrusion wheel 101 and the fixed extrusion wheel 102 are respectively and rotatably arranged on each swivel mount 106, and one end of the fixed extrusion wheel 102 is fixedly arranged on the upper connecting ring 103.

Then, one end of each movable extrusion wheel 101 is rotatably mounted on the lower connecting ring 104 through the swivel mount 106, the other end of the movable extrusion wheel 101 is provided with the connecting seat 1011, one end of the connecting seat 1011 is provided with the movable rod 111, the outer side of the movable rod 111 is sleeved with the soft rubber sleeve 107, one end of the movable rod 111 is limitedly mounted in the rotating block 112, the rotating block 112 rotates in the upper connecting ring 103 through the rotating shaft, wherein the electromagnetic suction block structure is arranged at one end of each movable extrusion wheel 101, and the movable extrusion wheel 101 in the extrusion mechanism 10 can be controlled through the electromagnetic suction block structure when the device is in a low power state and a high power state respectively, so that the extrusion effect on plants is improved, and the extraction efficiency is greatly increased.

Moreover, the electromagnetic suction block structure comprises an electromagnet module 108, a wire 109 and a return spring 110, wherein the electromagnet module 108 is arranged inside the upper connecting ring 103, the wire 109 is arranged at one end of the electromagnet module 108, and the return spring 110 is arranged at the lower end of the electromagnet module 108.

Further, the magnet 1121 is installed to one end of the rotating block 112, and when the electromagnet module 108 is energized, the electromagnet module 108 generates electromagnetic attraction force, and is magnetically attracted to the magnet 1121 on the rotating block 112 through the electromagnetic attraction force, the rotating block 112 is connected with the electromagnet module 108 through the electromagnetic attraction force, meanwhile, the rotating block 112 drives the movable extrusion wheel 101 to move through the movable rod 111, the rotating block 112 is in extrusion contact with the reset spring 110, and when the electromagnet module 108 is deenergized, the electromagnet module 108 does not have electromagnetic attraction force, at the moment, the magnet 1121 is disconnected with the electromagnet module 108, so that the rotating block 112 is sprung out through the reset spring 110, and the movable extrusion wheel 101 in the extrusion mechanism 10 can be controlled through the electromagnet module 108 in a low power state and a high power state respectively, so that the extrusion effect on plants is improved, and the extraction efficiency is greatly improved.

In addition, one end of the butt joint rod 12 is driven by the servo motor 8, and when the output end of the servo motor 8 rotates, the servo motor 8 drives the butt joint rod 12 to rotate, and the butt joint rod 12 drives the extrusion mechanism 10 to rotate.

A separation method for separating anion essence from plants comprises the following steps:

s1, adding purified water and plants into a machine body, covering a condensing device, and assembling a filtering tower column, a connecting pipe and a separation and collection device;

s2, heating the bottom of a heating base in the machine body, and enabling the mixed gas and liquid to enter a separation and collection device through a condensing device to separate essence and water;

s3, driving the servo motor to rotate, driving the extrusion mechanism to carry out rolling extrusion on the plants on the butt joint tray for multiple times, realizing the effect of reutilizing extrusion extraction on the separated plants, and further separating the anion essence in the plants;

s4, after separation is finished, recovering the essence through the separation and collection device, taking out the squeezed and dried plants through opening the condensing device, and feeding the plants into the machine body again.

In the embodiment, the plant with processing and the pure water with equal quantity are poured into the machine body 1, the machine body 1 is internally provided with the receiving tray 9 with the leak holes, the receiving tray 9 separates the pure water from the plant with processing generation, so that the plant is retained on the receiving tray 9, and the pure water is poured into the hemispherical heating base 7 in the machine body 1;

then, the extrusion mechanism 10 is connected with the docking rod 12 connected with the stainless steel casing 11 in the machine body 1 through the bayonet arranged on the extrusion mechanism, and the docking rod 12 is provided with a plurality of clamping blocks corresponding to the extrusion mechanism 10, so that the extrusion mechanism 10 and the docking rod 13 can be quickly detached and installed;

afterwards, the condensing device 2 is covered above the machine body 1, and the condensing device 2 is firmly connected with the machine body 1 through the buckling connection mechanism 3;

simultaneously, connect filtering tower post 4 through the butt flange on condensing equipment 2 to connect connecting pipe 5 with filtering tower post 4 top, connecting pipe 5 is the 3 type of falling U, and the other end of connecting pipe 5 is equipped with the liquid outlet simultaneously, and the below of liquid outlet is provided with separation collection device 6.

After all parts are installed, through carrying out electric heating to heating base 7 for heating base 7 heats pure water wherein and carries out distillation technology, make the distilled water that produces with the plant jointly collect through condensing equipment 2 of top and filter through filtering tower 4, and drain through connecting pipe 5, and in the water conservancy diversion is to separation collection device 6, because its plant essence is different with the density of water, make the essence can float in the top of water, make when distilled water drops into separation collection device 6, can carry out the separation measure, thereby can draw the anion essence of plant, and retrieve pure water.

When the first round of plants are distilled and extracted, the servo motor 8 in the machine body 1 is driven, the servo motor 8 drives the transmission rod 12 to rotate, meanwhile, the transmission rod 12 drives the extrusion mechanism 10 connected with the transmission rod to rotate, the extrusion mechanism 10 performs extrusion treatment on the plants on the lower receiving tray 9 through the fixed extrusion wheel 102, and the rolling wheel 1001 can perform more full extrusion with the plants through the friction blocks 901 due to the friction blocks 901 arranged on the receiving tray 9;

the above steps are all steps when the power switch 1001 in the machine body 1 is adjusted to be in the low power mode, after the power switch 1001 in the machine body 1 is adjusted to be in the high power mode, the power switch 1001 is transmitted to the control module 105 in the extrusion mechanism 10 in the machine body 1 through the bluetooth signal, when the control module 105 receives the signal, the control module 105 energizes the electromagnet module 108 in the upper connecting ring 103 in the extrusion mechanism 10 through the wire 109, after the electromagnet module 108 is energized, the electromagnet module 108 generates electromagnetic attraction force, so that the electromagnet module 108 performs electromagnetic attraction on the magnet 1121 in the rotating block 112 arranged on the movable extrusion wheel 101, so that the rotating block 112 is in adsorptive connection with the electromagnet module 108, when the rotating block 112 is connected with the electromagnet module 108, the rotating block 112 drives the movable extrusion wheel 101 to move through the movable rod 111, so that the movable extrusion wheel 101 is changed from a vertical state in the low power state to an inclined state at the moment, namely, when the rotating block 112 is connected with the electromagnet module 108, one end of the rotating block 112 contacts with the reset spring 110 below the electromagnet module 108, and certain elastic potential energy is generated when the rotating block 112 is in extrusion process;

when the power switch 1001 is adjusted to the low power mode, the electromagnet module 108 is powered off, the electromagnet module 108 has no electromagnetic attraction force, and at this time, the magnet 1121 is disconnected from the electromagnet module 108, so that the rotating block 112 is sprung through the return spring 110, that is, the movable extrusion wheel 101 does not participate in the extrusion process, so that only the fixed extrusion wheel 102 performs the extrusion process.

In the invention, plants and water are placed in a machine body, the water and the plants are separated through the receiving tray 9, the negative ion essence in the plants is extracted in a heating extraction and multistage extraction mode, so that essence components in the plants can be quickly separated, meanwhile, after the extraction is finished, the extrusion mechanism 10 can extrude the plants on the receiving tray 9 by driving the servo motor 8, so that the extraction effect is further and thoroughly improved, the aim of recycling the extracted plants is fulfilled, the extraction efficiency of the device is remarkably improved, and the full utilization rate of the plants is ensured.

The foregoing is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art, who is within the scope of the present invention, should make equivalent substitutions or modifications according to the technical scheme of the present invention and the inventive concept thereof, and should be covered by the scope of the present invention.

Claims (4)

1. Separation equipment for separating anion essence from plants, comprising a machine body (1), and being characterized by further comprising:

the heating device comprises a heating base (7) arranged in a machine body (1), wherein a material receiving disc (9) is arranged in the middle of the heating base (7) through a stainless steel sleeve shell (11), an extrusion mechanism (10) is arranged above the material receiving disc (9) in a clamping manner through a butt joint rod (12), and a limiting plug (1201) is arranged at the clamping end of the extrusion mechanism (10) and the butt joint rod (12);

the power change-over switch (1001) is arranged outside the machine body (1), the upper end of the machine body (1) is provided with the condensing device (2) through the connecting mechanism (3), the upper end of the condensing device (2) is provided with the filtering tower column (4), and the filtering tower column (4) is connected with the separation and collection device (6) through the connecting pipe (5);

the extrusion mechanism (10) is in transmission connection with the butt joint rod (12) through a clamping groove, wherein the extrusion mechanism (10) comprises a movable extrusion wheel (101), a fixed extrusion wheel (102), an upper connecting ring (103), a lower connecting ring (104), a control module (105) and a swivel mount (106), and a fixed rod (113), wherein the upper connecting ring (103) and the lower connecting ring (104) are fixedly connected through the fixed rod (113), a plurality of swivel mounts (106) are arranged at the upper end of the lower connecting ring (104), the movable extrusion wheel (101) and the fixed extrusion wheel (102) are respectively rotatably arranged on each swivel mount (106), and one end of the fixed extrusion wheel (102) is fixedly arranged on the upper connecting ring (103);

one end of each movable extrusion wheel (101) is rotatably mounted on the lower connecting ring (104) through a rotary seat (106), a connecting seat (1011) is mounted at the other end of the movable extrusion wheel (101), a movable rod (111) is mounted at one end of the connecting seat (1011), a soft rubber sleeve (107) is sleeved outside the movable rod (111), one end of the movable rod (111) is mounted in a rotary block (112) in a limiting manner, the rotary block (112) rotates in the upper connecting ring (103) through a rotary shaft, and an electromagnetic suction block structure is arranged at one end of each movable extrusion wheel (101);

the electromagnetic suction block structure comprises an electromagnet module (108), a wire (109) and a return spring (110), wherein the electromagnet module (108) is arranged in the upper connecting ring (103), the wire (109) is arranged at one end of the electromagnet module (108), and the return spring (110) is arranged at the lower end of the electromagnet module (108);

the electromagnetic rotary press device is characterized in that a magnet (1121) is arranged at one end of the rotary block (112), when the electromagnet module (108) is electrified, the electromagnet module (108) generates electromagnetic attraction and is magnetically connected with the magnet (1121) on the rotary block (112) through the electromagnetic attraction, the rotary block (112) is connected with the electromagnet module (108) through the electromagnetic attraction, meanwhile, the rotary block (112) drives the movable pressing wheel (101) to move through the movable rod (111), the rotary block (112) is in pressing contact with the reset spring (110), and when the electromagnet module (108) is powered off, the electromagnet module (108) has no electromagnetic attraction, and at the moment, the magnet (1121) is disconnected with the electromagnet module (108) so that the rotary block (112) is sprung out through the reset spring (110);

the middle part of the machine body (1) is provided with a hemispheroidal heating base (7), a servo motor (8) is arranged at the bottom end of the interior of the machine body (1), the output end of the servo motor (8) stretches into the heating base (7), a stainless steel jacket (11) is sleeved on the output end of the servo motor (8), the stainless steel jacket (11) is arranged on the heating base (7), the output end of the servo motor (8) stretches out of the stainless steel jacket (11) and is in transmission connection with a docking rod (12), and an extrusion mechanism (10) is installed on the docking rod (12) in a clamping manner;

one end of the butt joint rod (12) is driven by the servo motor (8), and when the output end of the servo motor (8) rotates, the servo motor (8) drives the butt joint rod (12) to rotate, and the butt joint rod (12) drives the extrusion mechanism (10) to rotate.

2. The separation device for separating negative ion essence from plants according to claim 1, characterized in that a plurality of connecting mechanisms (3) are installed on the outer side of the machine body (1), each connecting mechanism (3) is connected with a condensing device (2), the condensing devices (2) are covered at the upper end of the machine body (1), filtering tower columns (4) are installed on the condensing devices (2), connecting pipes (5) are installed at one ends of the filtering tower columns (4), the connecting pipes (5) are in an inverted U shape, liquid outlet nozzles are arranged at one ends of the connecting pipes (5), and separation and collection devices (6) are arranged below the liquid outlet nozzles.

3. The separation device for separating negative ion essence from plants according to claim 1, wherein a butt joint rod (12) is rotatably installed at the upper end of the stainless steel sleeve shell (11), one end of the butt joint rod (12) is in transmission connection with the servo motor (8), a receiving tray (9) is installed on the stainless steel sleeve shell (11), the outer part of the receiving tray (9) is rotatably installed in a limiting groove (1002) formed in the inner wall of the machine body (1) in a limiting mode through a limiting ring (903), a limiting groove (902) is formed in the middle of the receiving tray (9), a plurality of friction blocks (901) are installed on the inner wall of the receiving tray (9), and a plurality of through holes are formed in the middle of the receiving tray (9).

4. A separation method for separating negative ion essence from plants, which is applied to the separation equipment for separating negative ion essence from plants according to any one of claims 1 to 3, and is characterized by comprising the following steps:

s1, adding purified water and plants into a machine body, covering a condensing device, and assembling a filtering tower column, a connecting pipe and a separation and collection device;

s2, heating the bottom of a heating base in the machine body, and enabling the mixed gas and liquid to enter a separation and collection device through a condensing device to separate essence and water;

s3, driving the servo motor to rotate, driving the extrusion mechanism to carry out rolling extrusion on the plants on the butt joint tray for multiple times, realizing the effect of reutilizing extrusion extraction on the separated plants, and further separating the anion essence in the plants;

s4, after separation is finished, recovering the essence through the separation and collection device, taking out the squeezed and dried plants through opening the condensing device, and feeding the plants into the machine body again.