CN111421874A - Liquid medicine separator is used in traditional chinese medicine decoct - Google Patents

Abstract

The invention discloses a liquid medicine separating device for decocting traditional Chinese medicines, which comprises a main hollow shell. The device has the characteristics of long service life, low manufacturing cost and low maintenance cost because the device is a pure mechanical part, has a top lifting type sealing control mechanism, can realize the sealing effect on the inside after being installed, realizes top pressure application and realizes the control effect, and has a ring array spring type control maximum rotating force mechanism which can control the maximum rotating force between the driving rotating part and the driven rotating part under the action of a plurality of ring array helical springs, thereby preventing the thread structure from being damaged due to overlarge resistance.

Description

Liquid medicine separator is used in traditional chinese medicine decoct

Technical Field

The invention relates to the technical field of liquid medicine separation, in particular to a liquid medicine separation device for traditional Chinese medicine decoction.

Background

At present, the important thing is in the system of decocting in-process, and last procedure needs to separate liquid medicine and dregs of a decoction to make the liquid medicine directly take after the heating, and current liquid medicine separator roughly divide into two kinds, one kind is full automatic electronic instrument controlgear, and its degree of automation and control degree are than higher, but its cost, use cost and cost of maintenance are all more expensive, and another kind is manual compression filtration equipment, and its cost is low, but work efficiency is low, all has great limitation.

Disclosure of Invention

The invention aims to provide a liquid medicine separating device for decocting traditional Chinese medicines, which is used for solving the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a liquid medicine separating device for traditional Chinese medicine decoction comprises a main hollow shell, wherein a main support rod is installed at the bottom of the main hollow shell, a bottom support base plate is installed at the bottom of the main support rod, a driving motor installation shell is installed on the upper surface of the bottom support base plate, a driving motor is installed inside the driving motor installation shell, a solid-liquid separation space is arranged at the center inside the main hollow shell, an annular convex structure is arranged at the bottom of the solid-liquid separation space, a main drainage hole communicated with the bottom of the side surface of the solid-liquid separation space is formed in the bottom of the side surface of the main hollow shell, a top lifting type sealing control mechanism is installed at the top of the solid-liquid separation space, a medicine residue storage shell which is of an integral structure with the main hollow shell is arranged on the outer side of the top of the main hollow shell, a medicine, the middle part of main cavity shell side is provided with mixture injection pipeline, the inside of mixture injection pipeline is provided with the mixture filling hole, a main rotation axis is installed at main cavity shell bottom center, main rotation axis passes through the main bearing and installs the inside at main cavity shell with the main seal circle, connect through the biggest rotation dynamics mechanism of ring array spring control formula between the tip of main motor main shaft in main rotation axis bottom and the driving motor, a main threaded rod is connected through connecting flange dish in the top of main rotation axis, be provided with main external screw thread structure on the body of rod of main threaded rod, just it removes extrusion filter mechanism to connect a screw thread structural formula cavernosum through main external screw thread structure on the body of rod of main threaded rod.

Further, the top pull-up type sealing control mechanism comprises a limiting plate for the top pull-up type sealing control mechanism, a pull ring structure for the top pull-up type sealing control mechanism, a plunger structure for the top pull-up type sealing control mechanism, an insertion guide structure for the top pull-up type sealing control mechanism, a first sealing ring groove structure for the top pull-up type sealing control mechanism, a second sealing ring groove structure for the top pull-up type sealing control mechanism, a first sealing ring for the top pull-up type sealing control mechanism and a second sealing ring for the top pull-up type sealing control mechanism; the top center of the limiting plate for the top lifting type sealing control mechanism is provided with a pull ring structure for the top lifting type sealing control mechanism, the bottom center of the limiting plate for the top lifting type sealing control mechanism is provided with a plunger structure for the top lifting type sealing control mechanism, the plunger structure for the top lifting type sealing control mechanism is provided with an insertion guide structure for the top lifting type sealing control mechanism, the side surface of the plunger structure for the top lifting type sealing control mechanism is provided with a first sealing ring groove structure for the top lifting type sealing control mechanism and a second sealing ring groove structure for the top lifting type sealing control mechanism, which are parallel to each other, and the plunger structure for the top lifting type sealing control mechanism is located inside the first sealing ring groove structure for the top lifting type sealing control mechanism and the second sealing ring groove structure for the top lifting type sealing control mechanism respectively The first sealing ring for the lifting type sealing control mechanism and the second sealing ring for the top lifting type sealing control mechanism.

Further, the structure radius of the plunger structure for the top pull-up type seal control mechanism is the same as the structure radius of the solid-liquid separation space.

Further, the structural radius of the limiting plate for the top pull-up type seal control mechanism is larger than that of the plunger structure for the top pull-up type seal control mechanism, and the structural radius of the plunger structure for the top pull-up type seal control mechanism is larger than that of the insertion guide structure for the top pull-up type seal control mechanism.

Further, the ring array spring type controlled maximum rotation force mechanism comprises a main hollow shell for a ring array spring type controlled maximum rotation force mechanism, a main hollow section for the ring array spring type controlled maximum rotation force mechanism, a rotary column for the ring array spring type controlled maximum rotation force mechanism, a semicircular groove structure for the ring array spring type controlled maximum rotation force mechanism, an auxiliary hollow section for the ring array spring type controlled maximum rotation force mechanism, a movable plate for the ring array spring type controlled maximum rotation force mechanism, a coil spring for the ring array spring type controlled maximum rotation force mechanism, and a push rod for the ring array spring type controlled maximum rotation force mechanism; the center of an end face of a main hollow shell for the ring array spring type controlled maximum rotation force mechanism is fixedly connected with an end part of a motor spindle, the center inside the main hollow shell for the ring array spring type controlled maximum rotation force mechanism is a main hollow section for the ring array spring type controlled maximum rotation force mechanism, the main hollow shell for the ring array spring type controlled maximum rotation force mechanism is located in the main hollow section for the ring array spring type controlled maximum rotation force mechanism, a rotating column for the ring array spring type controlled maximum rotation force mechanism is sleeved inside the main hollow section for the ring array spring type controlled maximum rotation force mechanism, an auxiliary hollow section for the ring array spring type controlled maximum rotation force mechanism is located inside the auxiliary hollow section for the ring array spring type controlled maximum rotation force mechanism A ring array spring type controlled maximum rotation force mechanism movable plate is placed on one end face of a main hollow section for a large rotation force mechanism, a ring array spring type controlled maximum rotation force mechanism coil spring is fixed between one ends of the ring array spring type controlled maximum rotation force mechanism movable plates in a secondary hollow section for the ring array spring type controlled maximum rotation force mechanism movable plate, a ring array spring type controlled maximum rotation force mechanism push rod of an integrated structure with the ring array spring type controlled maximum rotation force mechanism movable plate is arranged on one end face of the ring array spring type controlled maximum rotation force mechanism movable plate, the ring array spring type controlled maximum rotation force mechanism push rod penetrates through the main hollow shell for the ring array spring type controlled maximum rotation force mechanism and is positioned in the main hollow section for the ring array spring type controlled maximum rotation force mechanism, the annular array spring type control type rotary mechanism is characterized in that one end, located in a main hollow interval, of the push rod for the annular array spring type control type maximum rotary mechanism is of a semicircular structure, a semicircular groove structure used for placing the end portion of the push rod for the annular array spring type control type maximum rotary mechanism is arranged on the side face of the rotary column for the annular array spring type control type maximum rotary mechanism, and one end of the rotary column for the annular array spring type control type maximum rotary mechanism is fixed to the end portion of the main rotary shaft.

Further, the initial length of the coil spring for the ring array spring type controlled maximum rotation force mechanism is greater than the length of the auxiliary hollow section for the ring array spring type controlled maximum rotation force mechanism.

Furthermore, the structural shape of the end part of the push rod for the annular array spring type control type maximum rotation force mechanism is consistent with the structural shape of the semicircular groove structure for the annular array spring type control type maximum rotation force mechanism.

Further, the thread structural sponge moving, extruding and filtering mechanism comprises a circular plate body for the thread structural sponge moving, extruding and filtering mechanism, a thread interval for the thread structural sponge moving, extruding and filtering mechanism, an internal thread structure for the thread structural sponge moving, extruding and filtering mechanism, a sponge body embedding groove structure for the thread structural sponge moving, extruding and filtering mechanism, a sponge body for the thread structural sponge moving, extruding and filtering mechanism, a central hole for the thread structural sponge moving, extruding and filtering mechanism and a through hole structure for the thread structural sponge moving, extruding and filtering mechanism; the center of the inner part of the circular plate body for the thread structural sponge body moving and extruding filtering mechanism is provided with a thread structural sponge body moving and extruding filtering mechanism thread section, the inner wall of the thread structural sponge body moving and extruding filtering mechanism thread section is provided with a thread structural sponge body moving and extruding filtering mechanism internal thread structure, the inner part of the upper surface of the circular plate body for the thread structural sponge body moving and extruding filtering mechanism is provided with a thread structural sponge body embedding groove structure for the sponge body moving and extruding filtering mechanism, the inner part of the thread structural sponge body embedding groove structure for the thread structural sponge body moving and extruding filtering mechanism is embedded with a convex thread structural sponge body for the sponge body moving and extruding filtering mechanism, the center of the thread structural sponge body for the thread structural sponge body moving and extruding filtering mechanism is provided with a thread structural sponge body moving and extruding filtering mechanism center hole, the screw thread structural type sponge body moving, extruding and filtering mechanism is characterized in that a plurality of through hole structures which are communicated with the bottom of the circular plate body and are used for the sponge body moving, extruding and filtering mechanism are arranged in the circular plate body.

Furthermore, the thread structural type sponge body moving, extruding and filtering mechanism is meshed with the main external thread structure through an internal thread structure.

Furthermore, the thread interval for the thread structural sponge body moving, extruding and filtering mechanism and the central hole for the thread structural sponge body moving, extruding and filtering mechanism are penetrated by the main thread structure, and the structural radius of the outer ring of the circular plate body for the thread structural sponge body moving, extruding and filtering mechanism is the same as that of the solid-liquid separation space.

Compared with the prior art, the invention has the beneficial effects that: the invention utilizes the moving performance of the thread structure and the rotary driving function of the driving motor to ensure that the liquid medicine and the medicine dregs in the device can be effectively filtered and separated under strong pressure, the filtering efficiency is obvious, the working efficiency is high, and the device is a pure mechanical part, so the device has the characteristics of long service life, low manufacturing cost and low maintenance cost, and has a top lifting type sealing control mechanism which can realize the sealing effect on the inside after being installed, realize top pressure application and realize the control effect, in addition, the device has a ring array spring type control type maximum rotary force mechanism which can control the maximum rotary force between the driving rotary part and the driven rotary part under the action of a plurality of ring array helical springs, thereby preventing the thread structure from being damaged due to overlarge resistance, the device has screw thread structural formula cavernosum and removes extrusion filtering mechanism, can realize removing under the effect of screw thread structure to under the extruded condition, realize the separating action of liquid medicine and dregs of a decoction, the separation function is obvious.

Drawings

FIG. 1 is a schematic diagram of a full-sectional structure of a device for separating liquid medicine from traditional Chinese medicine decoction according to the present invention;

FIG. 2 is a schematic structural view of a top pull-type sealing control mechanism in a liquid medicine separating device for decocting traditional Chinese medicines according to the present invention;

FIG. 3 is a schematic structural view of a ring array spring type controlled maximum rotation force mechanism in a liquid medicine separating device for decocting traditional Chinese medicines according to the present invention;

FIG. 4 is a schematic structural view of a moving, extruding and filtering mechanism of a thread structure type cavernous body in a liquid medicine separating device for decocting traditional Chinese medicines according to the present invention;

in the figure: 1, a main hollow housing, 2, a main support rod, 3, a bottom support base plate, 4, a drive motor mounting housing, 5, a drive motor, 6, a motor spindle, 7, a solid-liquid separation space, 8, a main drainage hole, 9, an annular protrusion structure, 10, a mixture injection pipe, 11, a mixture injection hole, 12, a medicine residue storage housing, 13, a medicine residue storage space, 14, a top pull-up type seal control mechanism, 141, a top pull-up type seal control mechanism stopper, 142, a top pull-up type seal control mechanism pull ring structure, 143, a top pull-up type seal control mechanism plunger structure, 144, a top pull-up type seal control mechanism insertion guide structure, 145, a top pull-up type seal control mechanism first seal ring groove structure, 146, a top pull-up type seal control mechanism second seal ring groove structure, 147, a top pull-up type seal control mechanism first seal ring, 148, a second seal ring for a top pull-up seal control mechanism, 15, a ring array spring type controlled maximum rotation force mechanism, 151, a main hollow housing for a ring array spring type controlled maximum rotation force mechanism, 152, a main hollow section for a ring array spring type controlled maximum rotation force mechanism, 153, a rotary column for a ring array spring type controlled maximum rotation force mechanism, 154, a semicircular groove structure for a ring array spring type controlled maximum rotation force mechanism, 155, a sub hollow section for a ring array spring type controlled maximum rotation force mechanism, 156, a movable plate for a ring array spring type controlled maximum rotation force mechanism, 157, a coil spring for a ring array spring type controlled maximum rotation force mechanism, 158, a push rod for a ring array spring type controlled maximum rotation force mechanism, 16, a main rotary shaft, a, 17, a main bearing, 18, a main sealing ring, 19, a connecting flange, 20, a main threaded rod, 21, a main external thread structure, 22, a thread structural sponge body moving extrusion filtering mechanism, 221, a circular plate body for the thread structural sponge body moving extrusion filtering mechanism, 222, a thread structural sponge body moving extrusion filtering mechanism thread section, 223, a thread structural sponge body moving extrusion filtering mechanism internal thread structure, 224, a thread structural sponge body moving extrusion filtering mechanism sponge body embedding groove structure, 225, a thread structural sponge body moving extrusion filtering mechanism sponge body, 226, a thread structural sponge body moving extrusion filtering mechanism center hole, 227, and a thread structural sponge body moving extrusion filtering mechanism through hole structure.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, an embodiment of the present invention: the medical device comprises a main hollow shell 1, a main support rod 2 is installed at the bottom of the main hollow shell 1, a bottom support base plate 3 is installed at the bottom of the main support rod 2, a drive motor installation shell 4 is installed on the upper surface of the bottom support base plate 3, a drive motor 5 is installed inside the drive motor installation shell 4, a solid-liquid separation space 7 is arranged at the center inside the main hollow shell 1, an annular bulge structure 9 is arranged at the bottom of the solid-liquid separation space 7, a main liquid discharge hole 8 communicated with the bottom of the side surface of the solid-liquid separation space 7 is formed in the bottom of the side surface of the main hollow shell 1, a top lifting and sealing control mechanism 14 is installed at the top of the solid-liquid separation space 7, a medicine residue storage shell 12 of an integrated structure with the main hollow shell 1 is arranged on the outer side of the top of the main hollow shell 1, and a medicine residue storage, the middle part of main cavity shell 1 side is provided with mixture injection pipeline 10, the inside of mixture injection pipeline 10 is provided with mixture filling hole 11, a main rotation axis 16 of main cavity shell 1 bottom center installation, main rotation axis 16 passes through main bearing 17 and main sealing washer 18 and installs the inside at main cavity shell 1, connect through the biggest rotatory dynamics mechanism 15 of ring array spring control formula between the tip of motor main shaft 6 in main rotation axis 16 bottom and driving motor 5, a main threaded rod 20 is connected through connecting flange 19 in the top of main rotation axis 16, be provided with main external screw thread structure 21 on the body of rod of main threaded rod 20, just connect a screw thread structural formula cavernosum removal extrusion filter 22 through main external screw thread structure 21 on the body of rod of main threaded rod 20.

Referring to fig. 2, the top pull-up type seal control mechanism 14 includes a limit plate 141 for the top pull-up type seal control mechanism, a pull ring structure 142 for the top pull-up type seal control mechanism, a plunger structure 143 for the top pull-up type seal control mechanism, an insertion guide structure 144 for the top pull-up type seal control mechanism, a first seal ring groove structure 145 for the top pull-up type seal control mechanism, a second seal ring groove structure 146 for the top pull-up type seal control mechanism, a first seal ring 147 for the top pull-up type seal control mechanism, and a second seal ring 148 for the top pull-up type seal control mechanism; the top center of the limiting plate 141 for the top pull-up type sealing control mechanism is provided with a pull ring structure 142 for the top pull-up type sealing control mechanism, which is of an integrated structure with the limiting plate 141, the bottom center of the limiting plate 141 for the top pull-up type sealing control mechanism is provided with a plunger structure 143 for the top pull-up type sealing control mechanism, which is of an integrated structure with the limiting plate, the bottom of the plunger structure 143 for the top pull-up type sealing control mechanism is provided with an insertion guide structure 144 for the top pull-up type sealing control mechanism, the side surface of the plunger structure 143 for the top pull-up type sealing control mechanism is provided with a first sealing ring groove structure 145 for the top pull-up type sealing control mechanism and a second sealing ring groove structure 146 for the top pull-up type sealing control mechanism, and the plunger structure 143 for the top pull-up type sealing control mechanism is located at the first sealing ring groove structure 145 for the top pull-up A first sealing ring 147 for a top pull-up type sealing control mechanism and a second sealing ring 148 for the top pull-up type sealing control mechanism are respectively arranged in the mechanism 146; the structure radius of the plunger structure 143 for the top pull-up type seal control mechanism is the same as the structure radius of the solid-liquid separation space 7; the structural radius of the limiting plate 141 for the top pull-up type seal control mechanism is larger than that of the plunger structure 143 for the top pull-up type seal control mechanism, the structural radius of the plunger structure 143 for the top pull-up type seal control mechanism is larger than that of the insertion guide structure 144 for the top pull-up type seal control mechanism, and the main functions of the structure are as follows: can be inserted into the solid-liquid separation space 7 to achieve a sealing effect, and can discharge the solid inside when pulled out.

Referring to fig. 3, the circular array spring type controlled maximum rotation force mechanism 15 includes a main hollow housing 151 for a circular array spring type controlled maximum rotation force mechanism, a main hollow section 152 for a circular array spring type controlled maximum rotation force mechanism, a rotary column 153 for a circular array spring type controlled maximum rotation force mechanism, a semicircular groove structure 154 for a circular array spring type controlled maximum rotation force mechanism, a sub hollow section 155 for a circular array spring type controlled maximum rotation force mechanism, a movable plate 156 for a circular array spring type controlled maximum rotation force mechanism, a coil spring 157 for a circular array spring type controlled maximum rotation force mechanism, and a push rod 158 for a circular array spring type controlled maximum rotation force mechanism; the center of one end surface of the main hollow housing 151 for the ring array spring type controlled maximum rotation force mechanism is fixedly connected with an end portion of a motor spindle 6, the center inside the main hollow housing 151 for the ring array spring type controlled maximum rotation force mechanism is the main hollow section 152 for the ring array spring type controlled maximum rotation force mechanism, the main hollow housing 151 for the ring array spring type controlled maximum rotation force mechanism is positioned inside the main hollow section 152 for the ring array spring type controlled maximum rotation force mechanism, a rotating column 153 for the ring array spring type controlled maximum rotation force mechanism is sleeved inside the main hollow housing 151 for the ring array spring type controlled maximum rotation force mechanism, the inside of the main hollow housing 151 for the ring array spring type controlled maximum rotation force mechanism is the auxiliary hollow section 155 for the ring array spring type controlled maximum rotation force mechanism, and the inside of the auxiliary hollow section 155 for the ring array spring type controlled maximum rotation force mechanism is positioned inside the auxiliary hollow section 155 for A ring array spring type controlled maximum rotation force mechanism movable plate 156 is placed on one end surface of the main hollow section 152 for the leaf array spring type controlled maximum rotation force mechanism, a ring array spring type controlled maximum rotation force mechanism coil spring 157 is fixed between one ends of the ring array spring type controlled maximum rotation force mechanism movable plates 156, a ring array spring type controlled maximum rotation force mechanism push rod 158 of an integrated structure with one end surface of the ring array spring type controlled maximum rotation force mechanism movable plate 156 is provided, and the ring array spring type controlled maximum rotation force mechanism push rod 158 penetrates the ring array spring type controlled maximum rotation force mechanism main hollow housing 151, the push rod 158 for the ring array spring type controlled maximum rotation force mechanism is of a semicircular structure at one end of the main hollow section 152 for the ring array spring type controlled maximum rotation force mechanism, a semicircular groove structure 154 for the ring array spring type controlled maximum rotation force mechanism for placing the end of the push rod 158 for the ring array spring type controlled maximum rotation force mechanism is arranged on the side surface of the rotating column 153 for the ring array spring type controlled maximum rotation force mechanism, and one end of the rotating column 153 for the ring array spring type controlled maximum rotation force mechanism is fixed with the end of the main rotating shaft 16; the initial length of the helical spring 157 for the ring array spring type controlled maximum rotation force mechanism is greater than the length of the auxiliary hollow section 155 for the ring array spring type controlled maximum rotation force mechanism; the structural appearance of the end part of the push rod 158 for the maximum rotating force mechanism of the ring array spring control type is consistent with that of the semicircular groove structure 154 for the maximum rotating force mechanism of the ring array spring control type, and the main functions are as follows: when the driving resistance is too large, the resistance is larger than the elasticity of the coil spring 157 for the annular array spring type control type maximum rotation force mechanism, so that the coil spring 157 for the annular array spring type control type maximum rotation force mechanism is compressed, and under the causal action, the relative rotation between the two rotating shafts is realized, so that the main rotating shaft 16 is not driven to rotate, and the protection effect is achieved, and therefore, the elasticity of the coil spring 157 for the coil spring array type maximum rotation capability transmission mechanism is smaller than the deformation force of the thread structure.

Referring to fig. 4, the screw-structured sponge moving, extruding and filtering mechanism 22 includes a circular plate 221 for a screw-structured sponge moving, extruding and filtering mechanism, a threaded section 222 for a screw-structured sponge moving, extruding and filtering mechanism, an internal thread 223 for a screw-structured sponge moving, extruding and filtering mechanism, a sponge embedded groove 224 for a screw-structured sponge moving, extruding and filtering mechanism, a sponge 225 for a screw-structured sponge moving, extruding and filtering mechanism, a central hole 226 for a screw-structured sponge moving, extruding and filtering mechanism, and a through hole 227 for a screw-structured sponge moving, extruding and filtering mechanism; the center inside the circular plate body 221 for the thread structural sponge body moving, extruding and filtering mechanism is provided with a thread structural sponge body moving, extruding and filtering mechanism thread section 222, the inner wall of the thread structural sponge body moving, extruding and filtering mechanism thread section 222 is provided with a thread structural sponge body moving, extruding and filtering mechanism internal thread structure 223, the inside of the upper surface of the circular plate body 221 for the thread structural sponge body moving, extruding and filtering mechanism is provided with a thread structural sponge body embedding groove structure 224, the inside of the thread structural sponge body embedding groove structure 224 for the thread structural sponge body moving, extruding and filtering mechanism is embedded with a convex thread structural sponge body 225 for the thread structural sponge body moving, extruding and filtering mechanism sponge body 225, the center of the thread structural sponge body 225 for the thread structural sponge body moving, extruding and filtering mechanism is provided with a thread structural sponge body moving, extruding and filtering mechanism central hole 226, a plurality of through hole structures 227 for the screw thread structural sponge moving, extruding and filtering mechanism, which are communicated with the bottom of the circular plate 221 for the screw thread structural sponge moving, extruding and filtering mechanism and are embedded with the groove structures 224 for the sponge moving, extruding and filtering mechanism, are arranged in the circular plate; the thread structure type internal thread structure 223 for the sponge moving extrusion filtering mechanism is meshed with the main external thread structure 21; the thread interval 222 for the thread structural sponge moving, extruding and filtering mechanism and the central hole 226 for the thread structural sponge moving, extruding and filtering mechanism are penetrated by the main thread structure 20, and the structural radius of the outer ring of the circular plate 221 for the thread structural sponge moving, extruding and filtering mechanism is the same as that of the solid-liquid separation space 7, and the thread structural sponge moving, extruding and filtering mechanism mainly has the following functions: under the effect of the thread structure, the device can be moved, and the sponge body 225 for the filtering mechanism can be effectively filtered by the moving and extruding of the thread structural sponge body.

The specific use mode is as follows: in the work of the invention, the mixture of the medicine and the dregs of a decoction is poured into the solid-liquid separation space 7, then the top pull type sealing control mechanism 14 is closed, the driving motor 5 is opened, the rotating direction of the driving motor 5 is controlled, and further the thread structural sponge moving, extruding and filtering mechanism 22 can move upwards under the action of the thread structure, the medicine liquid and the dregs of a decoction are gradually separated in the continuous moving process, when the dregs of a decoction are limited between the thread structural sponge moving, extruding and filtering mechanism 22 and the top pull type sealing control mechanism 14, the dregs of a decoction are extruded under the action of pressure due to the continuous rotation of the driving motor 5, when the annular array spring type control type maximum rotating force mechanism 15 works, the surface separation can be completed, the top pull type sealing control mechanism 14 is opened, the dregs of a decoction can be collected into the dregs of a decoction storage space 13, then, the drive motor 5 is rotated in the reverse direction, so that the components can be reset.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. A liquid medicine separator for traditional Chinese medicine decoction comprises a main hollow shell (1), and is characterized in that: the bottom of the main hollow shell (1) is provided with a main supporting rod (2), the bottom of the main supporting rod (2) is provided with a bottom supporting base plate (3), the upper surface of the bottom supporting base plate (3) is provided with a driving motor installing shell (4), the inside of the driving motor installing shell (4) is provided with a driving motor (5), the center of the inside of the main hollow shell (1) is provided with a solid-liquid separation space (7), the bottom of the solid-liquid separation space (7) is provided with an annular bulge structure (9), the bottom of the side surface of the main hollow shell (1) is provided with a main drainage hole (8) communicated with the bottom of the side surface of the solid-liquid separation space (7), the top of the solid-liquid separation space (7) is provided with a top lifting type sealing control mechanism (14), and the outer side of the top of the main hollow shell (1) is provided with a medicine residue storage shell, the medicine residue storage device is characterized in that a medicine residue storage space (13) is arranged inside the upper surface of the medicine residue storage shell (12), a mixture injection pipeline (10) is arranged in the middle of the side surface of the main hollow shell (1), a mixture injection hole (11) is formed in the mixture injection pipeline (10), a main rotating shaft (16) is installed at the center of the bottom of the main hollow shell (1), the main rotating shaft (16) is installed inside the main hollow shell (1) through a main bearing (17) and a main sealing ring (18), the bottom end of the main rotating shaft (16) is connected with the end of a motor spindle (6) in the driving motor (5) through a ring array spring type control type maximum rotating force mechanism (15), the top end of the main rotating shaft (16) is connected with a main threaded rod (20) through a connecting flange (19), and a main external thread structure (21) is arranged on the rod body of, and the body of rod of main threaded rod (20) is connected with a screw thread structural sponge body moving extrusion filtering mechanism (22) through a main external screw thread structure (21).

2. The liquid medicine separating device for decocting traditional Chinese medicines, which is characterized in that: the top lifting type sealing control mechanism (14) comprises a limiting plate (141) for the top lifting type sealing control mechanism, a ring pulling structure (142) for the top lifting type sealing control mechanism, a plunger structure (143) for the top lifting type sealing control mechanism, an insertion guide structure (144) for the top lifting type sealing control mechanism, a first sealing ring groove structure (145) for the top lifting type sealing control mechanism, a second sealing ring groove structure (146) for the top lifting type sealing control mechanism, a first sealing ring (147) for the top lifting type sealing control mechanism and a second sealing ring (148) for the top lifting type sealing control mechanism; the top center of the limiting plate (141) for the top lifting type sealing control mechanism is provided with a pull ring structure (142) for the top lifting type sealing control mechanism, the top center of the limiting plate (141) for the top lifting type sealing control mechanism is provided with a plunger structure (143) for the top lifting type sealing control mechanism, the bottom of the plunger structure (143) for the top lifting type sealing control mechanism is provided with an insertion guide structure (144) for the top lifting type sealing control mechanism, the side surface of the plunger structure (143) for the top lifting type sealing control mechanism is provided with a first sealing ring groove structure (145) for the top lifting type sealing control mechanism and a second sealing ring groove structure (146) for the top lifting type sealing control mechanism, which are parallel to each other, the plunger structure (143) for the top lifting type sealing control mechanism is located in the first sealing ring groove structure (145) for the top lifting type sealing control mechanism ) And a first sealing ring (147) for the top lifting type sealing control mechanism and a second sealing ring (148) for the top lifting type sealing control mechanism are respectively arranged in the groove structure (146) of the second sealing ring for the top lifting type sealing control mechanism.

3. The liquid medicine separating device for decocting traditional Chinese medicines, which is characterized in that: the structure radius of the plunger structure (143) for the top pull-up type seal control mechanism is the same as the structure radius of the solid-liquid separation space (7).

4. The liquid medicine separating device for decocting traditional Chinese medicines, which is characterized in that: the structure radius of the limiting plate (141) for the top pull-up type seal control mechanism is larger than the structure radius of the plunger structure (143) for the top pull-up type seal control mechanism, and the structure radius of the plunger structure (143) for the top pull-up type seal control mechanism is larger than the insertion guide structure (144) for the top pull-up type seal control mechanism.

5. The liquid medicine separating device for decocting traditional Chinese medicines, which is characterized in that: the annular array spring type control type maximum rotation force mechanism (15) comprises a main hollow shell (151) for an annular array spring type control type maximum rotation force mechanism, a main hollow section (152) for the annular array spring type control type maximum rotation force mechanism, a rotary column (153) for the annular array spring type control type maximum rotation force mechanism, a semicircular groove structure (154) for the annular array spring type control type maximum rotation force mechanism, an auxiliary hollow section (155) for the annular array spring type control type maximum rotation force mechanism, a movable plate (156) for the annular array spring type control type maximum rotation force mechanism, a spiral spring (157) for the annular array spring type control type maximum rotation force mechanism and a push rod (158) for the annular array spring type control type maximum rotation force mechanism; the center of one end face of a main hollow shell (151) for the ring array spring type controlled maximum rotation force mechanism is fixedly connected with the end part of a motor spindle (6), the center inside the main hollow shell (151) for the ring array spring type controlled maximum rotation force mechanism is a main hollow section (152) for the ring array spring type controlled maximum rotation force mechanism, a rotating column (153) for the ring array spring type controlled maximum rotation force mechanism is sleeved inside the main hollow shell (151) for the ring array spring type controlled maximum rotation force mechanism positioned in the main hollow section (152) for the ring array spring type controlled maximum rotation force mechanism, the inside of the main hollow shell (151) for the ring array spring type controlled maximum rotation force mechanism is a secondary hollow section (155) for the ring array spring type controlled maximum rotation force mechanism, a movable plate (156) for a ring array spring type controlled maximum rotation force mechanism is arranged in the auxiliary hollow section (155) for the ring array spring type controlled maximum rotation force mechanism at one end face of the main hollow section (152) for the ring array spring type controlled maximum rotation force mechanism, a coil spring (157) for the ring array spring type controlled maximum rotation force mechanism is fixed between the auxiliary hollow section (155) for the ring array spring type controlled maximum rotation force mechanism and one end of the movable plate (156) for the ring array spring type controlled maximum rotation force mechanism, a push rod (158) for the ring array spring type controlled maximum rotation force mechanism is arranged on one end face of the movable plate (156) for the ring array spring type controlled maximum rotation force mechanism and is of an integrated structure with the movable plate, and the push rod (158) for the ring array spring type controlled maximum rotation force mechanism penetrates through the main hollow shell (151) for the ring array spring type controlled maximum rotation force mechanism and is positioned inside the main hollow section (152) for the ring array spring type controlled maximum rotation force mechanism, the push rod (158) for the ring array spring type controlled maximum rotation force mechanism is of a semicircular structure at one end of the main hollow section (152) for the ring array spring type controlled maximum rotation force mechanism, a semicircular groove structure (154) for the ring array spring type controlled maximum rotation force mechanism is arranged on the side surface of the rotating column (153) for the ring array spring type controlled maximum rotation force mechanism and is used for placing the end part of the push rod (158) for the ring array spring type controlled maximum rotation force mechanism, one end of the rotary column (153) for the annular array spring type control type maximum rotary force mechanism is fixed with the end part of the main rotating shaft (16).

6. The liquid medicine separating device for decocting traditional Chinese medicines, which is characterized in that: the initial length of the helical spring (157) for the ring array spring type control maximum rotation force mechanism is larger than the length of the auxiliary hollow section (155) for the ring array spring type control maximum rotation force mechanism.

7. The liquid medicine separating device for decocting traditional Chinese medicines, which is characterized in that: the structural shape of the end part of the push rod (158) for the annular array spring type control type maximum rotation force mechanism is consistent with the structural shape of the semicircular groove structure (154) for the annular array spring type control type maximum rotation force mechanism.

8. The liquid medicine separating device for decocting traditional Chinese medicines, which is characterized in that: the thread structural sponge body moving, extruding and filtering mechanism (22) comprises a circular plate body (221) for the thread structural sponge body moving, extruding and filtering mechanism, a thread interval (222) for the thread structural sponge body moving, extruding and filtering mechanism, an internal thread structure (223) for the thread structural sponge body moving, extruding and filtering mechanism, a sponge body embedding groove structure (224) for the thread structural sponge body moving, extruding and filtering mechanism, a sponge body (225) for the thread structural sponge body moving, extruding and filtering mechanism, a central hole (226) for the thread structural sponge body moving, extruding and filtering mechanism and a through hole structure (227) for the thread structural sponge body moving, extruding and filtering mechanism; the thread structural sponge body moving, extruding and filtering mechanism is characterized in that a thread structural sponge body moving, extruding and filtering mechanism thread interval (222) is arranged at the center inside a circular plate body (221) for the thread structural sponge body moving, extruding and filtering mechanism, an internal thread structure (223) for the thread structural sponge body moving, extruding and filtering mechanism is arranged on the inner wall of the thread structural sponge body moving, extruding and filtering mechanism thread interval (222), a thread structural sponge body moving, extruding and filtering mechanism sponge body inlaying groove structure (224) is arranged inside the upper surface of the circular plate body (221) for the thread structural sponge body moving, extruding and filtering mechanism, a raised thread structural sponge body (225) for the thread structural sponge body moving, extruding and filtering mechanism is inlaid in the sponge body inlaying groove structure (224), and the thread structural sponge body moving, extruding and filtering mechanism sponge body (225) is arranged at the center of the thread structural sponge body moving, extruding and filtering mechanism sponge body The mechanism is provided with a central hole (226), and the inside of the circular plate body (221) for the thread structural sponge body moving, extruding and filtering mechanism is provided with a plurality of through hole structures (227) for the thread structural sponge body moving, extruding and filtering mechanism, which are communicated with the bottom of the circular plate body and the sponge body embedding groove structure (224) for the thread structural sponge body moving, extruding and filtering mechanism.

9. The device for separating liquid medicine from traditional Chinese medicine decoction of claim 8, wherein: the thread structural type sponge body moving extrusion filtering mechanism is meshed with the main external thread structure (21) through the internal thread structure (223).

10. The device for separating liquid medicine from traditional Chinese medicine decoction of claim 8, wherein: the thread interval (222) for the thread structural sponge body moving, extruding and filtering mechanism and the central hole (226) for the thread structural sponge body moving, extruding and filtering mechanism are penetrated through by the main thread structure (20), and the structural radius of the outer ring of the circular plate body (221) for the thread structural sponge body moving, extruding and filtering mechanism is the same as that of the solid-liquid separation space (7).

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