CN108839369B

CN108839369B - Solid-liquid separation equipment is used in biological medicine research

Info

Publication number: CN108839369B
Application number: CN201810561231.8A
Authority: CN
Inventors: 金赛珍
Original assignee: 金赛珍
Current assignee: SHANDONG JIANTONG BIOTECHNOLOGY Co.,Ltd.
Priority date: 2018-06-04
Filing date: 2018-06-04
Publication date: 2020-03-10
Anticipated expiration: 2038-06-04
Also published as: CN108839369A

Abstract

The invention relates to the technical field of medicine processing equipment, in particular to a solid-liquid separation device for biological medicine research, which avoids the phenomenon that the separation effect is influenced due to insufficient beating degree. Beat the board and be located the medicine case, the medicine case is located between two door style of calligraphy risers, the lower extreme of medicine case is connected and is communicateed there is the outlet pipe, the equal fixedly connected with minor axis in both ends around the drive circle seat, the drive circle seat rotates through two minor axes and connects on two door style of calligraphy framves, the drive circle seat evenly is provided with a plurality of push rod spouts along the circumferencial direction, equal sliding connection has drive push rod in a plurality of push rod spouts, drive push rod's outer end fixedly connected with wheel seat, the wheel rotates to be connected on the wheel seat, the front end of drive circle seat evenly is provided with a plurality of preceding spouts that communicate with the push rod spout along the circumferencial direction, drive push rod's inner fixedly connected with T type screw seat, T type screw seat sliding connection is in the spout in the front, there are two locking screw through threaded connection on the T type screw seat.

Description

Solid-liquid separation equipment is used in biological medicine research

Technical Field

The invention relates to the technical field of medicine processing equipment, in particular to a solid-liquid separation device for biological medicine research.

Background

Current patent number is CN 201621342124.9's traditional chinese medicine solid-liquid separation equipment, this utility model belongs to the medicine field, especially relates to a traditional chinese medicine solid-liquid separation equipment. The utility model provides a traditional chinese medicine solid-liquid separation equipment, it is installed in crude medicine liquid pipeline outlet department, can effectively separate liquid medicine and dregs of a decoction. Comprises two filters which are connected in turn from high to low: a first filter and a second filter; the first filter and the second filter are detachably connected. The filter I comprises a scraper-trough conveyer at the crude liquid outlet end, a filtering screen cage is suspended in the scraper-trough conveyer, and the bottom end of the scraper-trough conveyer is a filtered liquid medicine outlet; the filtering sieve cage structure is a drooping sieve cage, an outlet at the lower end of the sieve cage leads to a medicine residue storage bin arranged on the outer side of the scraper-trough conveyer, and a medicine residue storage bin door capable of being opened and closed is arranged on the medicine residue storage bin. The second filter is a filter tank, a liquid inlet pipe is fixedly arranged at the top of the filter tank, a liquid outlet pipe is fixedly arranged at the bottom of the filter tank, and filter cloth is fixedly arranged on the inner wall of the filter tank; and a wire mesh demister is arranged in the liquid outlet pipe. But the utility model discloses can not control the degree of beating subassembly according to the finished product nature of different medicines.

Disclosure of Invention

The invention aims to provide a solid-liquid separation device for biomedical research, which has the advantages that the device can adjust the extending length of a driving push rod to control the motion amplitude of a beating piece, so that the beating degree of the beating piece can be controlled according to the properties of finished products of different medicines, and the phenomenon that the separation effect is influenced due to the insufficient beating degree is avoided; the control device can realize the rotation and stop of the driving device by controlling the power mechanism, and is convenient for stopping to detect whether the quality or the separation effect of the medicine meets the standard or not.

The purpose of the invention is realized by the following technical scheme:

a solid-liquid separation device for biological medicine research comprises a support, a hammering piece, a medicine box, a driving device, a power mechanism and a control device, wherein the support comprises door-shaped vertical plates, spring rod seats, spring sleeve rods, reset springs and door-shaped frames;

the hammering piece comprises a triangular seat, connecting columns, sliding pieces, connecting plates and a hammering plate, the connecting columns are fixedly connected to the left end and the right end of the triangular seat, the sliding pieces are fixedly connected to the outer ends of the two connecting columns, the inner ends of the two sliding pieces are respectively connected to the two door-shaped vertical plates in a sliding mode, the outer ends of the two sliding pieces are respectively connected to the two spring loop bars in a sliding mode, a reset spring is located between the spring bar seat at the upper end and the sliding pieces, the hammering plate is fixedly connected to the lower end of the triangular seat through the connecting plates, the hammering plate is located in the medicine box, the medicine box is located between the two door-shaped vertical plates, and the lower end of;

drive arrangement include the drive circle seat, drive push rod, the wheel seat, the wheel, T type screw seat, locking screw and minor axis, the equal fixedly connected with minor axis in both ends around the drive circle seat, the drive circle seat rotates through two minor axes and connects on two door style of calligraphy framves, the drive circle seat evenly is provided with a plurality of push rod spouts along the circumferencial direction, equal sliding connection has drive push rod in the plurality of push rod spouts, drive push rod's outer end fixedly connected with wheel seat, the wheel rotates and connects on the wheel seat, the front end of drive circle seat evenly is provided with a plurality of preceding spouts that communicate with the push rod spout along the circumferencial direction, drive push rod's inner fixedly connected with T type screw seat, T type screw seat sliding connection is in the spout in the front, there are two locking screw through threaded connection on the T type screw seat, the locking screw top is on the drive circle.

The support still include down tube, shift fork slide, shift fork spout, supporting seat, motor frame and set screw, the shift fork slide is through two down tube fixed connection on the door style of calligraphy frame of front end, the middle-end of shift fork slide is provided with the shift fork spout, the front and back end of shift fork slide is fixedly connected with motor frame and supporting seat respectively, the middle-end of motor frame has set screw through threaded connection.

The driving device further comprises a power transmission disc I, and the front end of the short shaft at the front end is fixedly connected with the power transmission disc I.

The solid-liquid separation device for biomedical research further comprises a power mechanism, and is characterized in that: the power mechanism comprises a motor, a shaft sleeve, a shaft end baffle cover and a telescopic shaft lever, circle slide, expanding spring, power transmission dish II and sheave, the output shaft fixed connection axle sleeve of motor, rounding off seat sliding connection is in the axle sleeve, the rear end fixedly connected with telescopic shaft pole of circle slide, axle head fender lid fixed connection is at the rear end of axle sleeve, telescopic shaft pole sliding connection is on axle head fender lid, the inside fixedly connected with expanding spring's of axle sleeve one end, expanding spring's other end fixed connection is on the circle slide, sheave fixed connection is at the middle-end of reducing the axostylus axostyle, be provided with the declutch shift groove on the sheave, telescopic shaft pole's rear end fixedly connected with power transmission dish II, the rear end of power transmission dish II and the front end clearance fit of power transmission dish I, telescopic shaft pole rotates to be connected on the supporting seat, the front end and the sheave laminating of supporting seat.

The round sliding seat is provided with four convex strip grooves, four convex strips which are distributed horizontally are arranged inside the shaft sleeve, and the four convex strips are in clearance fit with the four convex strip grooves respectively.

The solid-liquid separation device for biomedical research further comprises a control device, and is characterized in that: the control device comprises a shifting fork, a blocking circle, a sliding rod and a compression spring, wherein the two blocking circles are fixedly connected to the lower end of the shifting fork, the sliding rod is fixedly connected to the middle end of the shifting fork, the compression spring is sleeved on the sliding rod, the upper end of the shifting fork is in clearance fit with a shifting fork groove on a grooved wheel, the lower end of the shifting fork is in sliding connection with a sliding groove of the shifting fork, the two blocking circles are respectively attached to the upper end face and the lower end face of a sliding seat of the shifting fork, the sliding rod is in sliding connection with a motor.

The power transmission disc I is provided with two convex edges which are gradually reduced in height along the clockwise direction, and the power transmission disc II and the power transmission disc I are identical in structure.

The solid-liquid separation device for biomedical research has the beneficial effects that:

according to the solid-liquid separation device for biomedical research, the device can adjust the extending length of the driving push rod to control the motion amplitude of the beating piece, so that the beating degree of the beating piece can be controlled according to the properties of finished products of different medicines, and the phenomenon that the separation effect is influenced due to the fact that the beating degree is not enough is avoided; the control device can realize the rotation and stop of the driving device by controlling the power mechanism, and is convenient for stopping to detect whether the quality or the separation effect of the medicine meets the standard or not.

Drawings

FIG. 1 is a schematic structural diagram of a solid-liquid separation apparatus for biomedical research according to the present invention;

FIG. 2 is a schematic structural view of a stent;

FIG. 3 is a schematic view of the structure of the hammering member;

FIG. 4 is a schematic structural diagram of a driving device;

FIG. 5 is a schematic structural view of the power mechanism;

FIG. 6 is a schematic cross-sectional view of the power mechanism;

FIG. 7 is a first schematic view of a portion of the power mechanism;

FIG. 8 is a second schematic view of a partial structure of the power mechanism;

fig. 9 is a schematic structural diagram of the control device.

In the figure: a bracket 1; a door-shaped vertical plate 1-1; 1-2 of a spring rod seat; 1-3 parts of a spring sleeve rod; 1-4 of a return spring; 1-5 of a door-shaped frame; 1-6 of an inclined rod; 1-7 of a shifting fork slide seat; 1-8 parts of shifting fork sliding chutes; 1-9 parts of a supporting seat; 1-10 parts of a motor frame; positioning screws 1-11; a beating member 2; a triangular seat 2-1; connecting column 2-2; a slider 2-3; 2-4 of a connecting plate; 2-5 of a beating plate; a medicine cabinet 3; a drive device 4; a driving round seat 4-1; a driving push rod 4-2; 4-3 of a wheel seat; 4-4 of wheels; 4-5 of a T-shaped screw seat; 4-6 parts of locking screws; the short shaft is 4-7; 4-8 parts of a power transmission disc; a power mechanism 5; a motor 5-1; 5-2 parts of a shaft sleeve; 5-3 of a shaft end baffle cover; 5-4 parts of a telescopic shaft lever; 5-5 of a round sliding seat; 5-6 parts of a telescopic spring; 5-7 parts of a power transmission disc; 5-8 grooved wheels; a control device 6; 6-1 of a shifting fork; 6-2 of baffle circle; 6-3 of a slide bar; compressing the spring 6-4.

Detailed Description

The invention is described in further detail below with reference to figures 1-9 and the specific implementation.

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1-9, and the solid-liquid separation device for biomedical research comprises a support 1, a hammering piece 2, a medicine box 3, a driving device 4, a power mechanism 5 and a control device 6, wherein the support 1 comprises door-shaped vertical plates 1-1, spring rod seats 1-2, spring loop rods 1-3, return springs 1-4 and door-shaped frames 1-5, the left ends and the right ends of the two door-shaped frames 1-5 are fixedly connected with the door-shaped vertical plates 1-1, the outer side surfaces of the two door-shaped vertical plates 1-1 are fixedly connected with the two spring rod seats 1-2, the spring loop rods 1-3 are fixedly connected between the two spring rod seats 1-2, and the two spring loop rods 1-3 are sleeved with the return springs 1-4;

the hammering piece 2 comprises a triangular seat 2-1, connecting columns 2-2, sliding pieces 2-3, connecting plates 2-4 and hammering plates 2-5, the connecting columns 2-2 are fixedly connected to the left and right ends of the triangular seat 2-1, the sliding pieces 2-3 are fixedly connected to the outer ends of the two connecting columns 2-2, the inner ends of the two sliding pieces 2-3 are respectively slidably connected to the two door-shaped vertical plates 1-1, the outer ends of the two sliding pieces 2-3 are respectively slidably connected to the two spring loop bars 1-3, a return spring 1-4 is positioned between the spring loop bar seat 1-2 and the sliding pieces 2-3 at the upper end, the hammering plates 2-5 are fixedly connected to the lower end of the triangular seat 2-1 through the connecting plates 2-4, and the hammering plates 2-5 are positioned in the medicine box 3, the medicine box 3 is positioned between the two door-shaped vertical plates 1-1, and the lower end of the medicine box 3 is connected and communicated with a water outlet pipe; when the hammering piece 2 is used, medicines to be separated are placed in the medicine box 3, the triangular seat 2-1 drives the hammering plate 2-5 to hammer the medicines in the medicine box 3 through the connecting plate 2-4 when reciprocating up and down, and water in the medicines in the medicine box 3 flows out through the water outlet pipe, so that the purpose of solid-liquid separation is achieved.

The driving device 4 comprises a driving round seat 4-1, a driving push rod 4-2, a wheel seat 4-3, wheels 4-4, a T-shaped screw seat 4-5, a locking screw 4-6 and a short shaft 4-7, wherein the front end and the rear end of the driving round seat 4-1 are fixedly connected with the short shaft 4-7, the driving round seat 4-1 is rotatably connected with two door-shaped frames 1-5 through the two short shafts 4-7, the driving round seat 4-1 is uniformly provided with a plurality of push rod chutes along the circumferential direction, the plurality of push rod chutes are respectively and slidably connected with the driving push rod 4-2, the outer end of the driving push rod 4-2 is fixedly connected with the wheel seat 4-3, the wheels 4-4 are rotatably connected with the wheel seat 4-3, the front end of the driving round seat 4-1 is uniformly provided with a plurality of front chutes communicated with the push rod chutes along the circumferential direction, the inner end of the driving push rod 4-2 is fixedly connected with a T-shaped screw seat 4-5, the T-shaped screw seat 4-5 is connected in the front sliding groove in a sliding mode, the T-shaped screw seat 4-5 is connected with two locking screws 4-6 through threads, and the locking screws 4-6 are pressed against the driving round seat 4-1. When the driving device 4 is used, the short shaft 4-7 drives the driving round seat 4-1 to rotate, the driving round seat 4-1 drives the plurality of driving push rods 4-2, the wheel seats 4-3 and the wheels 4-4 to rotate, the wheels 4-4 at the lower end are attached to the triangular seat 2-1, the triangular seat 2-1 is driven to move downwards by extruding the triangular seat 2-1, when the wheels 4-4 at the lower end are separated from the triangular seat 2-1, the triangular seat 2-1 is reset under the elastic resetting action of the two reset springs 1-4, and when the next wheel 4-4 extrudes the triangular seat 2-1 to drive the triangular seat 2-1 to move downwards, so that the triangular seat 2-1 can reciprocate upwards and downwards; the extent of the up-and-down movement of the triangular seat 2-1 is adjusted by adjusting the extension length of the plurality of driving push rods 4-2, thereby controlling the hammering degree.

The support 1 further comprises diagonal rods 1-6, shifting fork slide seats 1-7, shifting fork slide grooves 1-8, support seats 1-9, motor frames 1-10 and positioning screws 1-11, the shifting fork slide seats 1-7 are fixedly connected to the front end of the door-shaped frame 1-5 through the two diagonal rods 1-6, the shifting fork slide grooves 1-8 are arranged at the middle ends of the shifting fork slide seats 1-7, the front ends and the rear ends of the shifting fork slide seats 1-7 are respectively fixedly connected with the motor frames 1-10 and the support seats 1-9, and the middle ends of the motor frames 1-10 are connected with the positioning screws 1-11 through threads.

The driving device 4 further comprises power transmission discs I4-8, and the front ends of the short shafts 4-7 at the front ends are fixedly connected with the power transmission discs I4-8.

The solid-liquid separation device for biomedical research further comprises a power mechanism 5, wherein the power mechanism 5 comprises a motor 5-1, a shaft sleeve 5-2, a shaft end baffle cover 5-3, a telescopic shaft rod 5-4, a smooth seat 5-5, a telescopic spring 5-6, a power transmission disc II 5-7 and a grooved pulley 5-8, an output shaft of the motor 5-1 is fixedly connected with the shaft sleeve 5-2, the smooth seat 5-5 is slidably connected in the shaft sleeve 5-2, the rear end of the smooth seat 5-5 is fixedly connected with the telescopic shaft rod 5-4, the shaft end baffle cover 5-3 is fixedly connected at the rear end of the shaft sleeve 5-2, the telescopic shaft rod 5-4 is slidably connected on the shaft end baffle cover 5-3, one end of the telescopic spring 5-6 is fixedly connected inside the shaft sleeve 5-2, the other end of the telescopic spring 5-6 is fixedly connected to the round sliding seat 5-5, the grooved wheel 5-8 is fixedly connected to the middle end of the telescopic shaft lever 5-4, a shifting fork groove is formed in the grooved wheel 5-8, the rear end of the telescopic shaft lever 5-4 is fixedly connected with the power transmission disc II 5-7, the rear end of the power transmission disc II 5-7 is in clearance fit with the front end of the power transmission disc I4-8, the telescopic shaft lever 5-4 is rotatably connected to the supporting seat 1-9, the front end of the supporting seat 1-9 is attached to the grooved wheel 5-8, and the motor 5-1 is fixedly connected to the motor frame 1-10. When the power mechanism 5 is used, the motor 5-1 is powered on and started, the motor 5-1 drives the shaft sleeve 5-2 to rotate, the shaft sleeve 5-2 drives the telescopic shaft rod 5-4 to rotate through the circular sliding seat 5-5, the telescopic shaft rod 5-4 drives the power transmission disc II 5-7 and the grooved pulley 5-8 to rotate, the power transmission disc II 5-7 drives the power transmission disc I4-8 to rotate, and the power transmission disc I4-8 drives the short shaft 4-7 to rotate; the telescopic shaft lever 5-4 can slide back and forth in the shaft sleeve 5-2 to drive the power transmission disc II 5-7 to move back and forth, so that the matching or the separation of the power transmission disc II 5-7 and the power transmission disc I4-8 is controlled, after the power transmission disc II 5-7 and the power transmission disc I4-8 are separated, the driving device 4 loses power to stop rotating, and the machine is convenient to stop to detect the quality of the medicine or whether the separation effect meets the standard.

The smooth seat 5-5 is provided with four convex strip grooves, the shaft sleeve 5-2 is internally provided with four convex strips which are distributed horizontally, and the four convex strips are respectively in clearance fit with the four convex strip grooves. When the shaft sleeve 5-2 rotates, the four convex strip grooves on the four convex strip circular sliding seats 5-5 are matched to drive the circular sliding seats 5-5 to rotate.

The solid-liquid separation device for biomedical research further comprises a control device 6, wherein the control device 6 comprises a shifting fork 6-1 and a stop circle 6-2, the device comprises a sliding rod 6-3 and a compression spring 6-4, the lower end of a shifting fork 6-1 is fixedly connected with two stop circles 6-2, the middle end of the shifting fork 6-1 is fixedly connected with the sliding rod 6-3, the compression spring 6-4 is sleeved on the sliding rod 6-3, the upper end of the shifting fork 6-1 is in clearance fit with a shifting fork groove on a grooved wheel 5-8, the lower end of the shifting fork 6-1 is in sliding connection with the shifting fork sliding groove 1-8, the two stop circles 6-2 are respectively attached to the upper end face and the lower end face of a shifting fork sliding seat 1-7, the sliding rod 6-3 is in sliding connection with a motor frame 1-10, and the compression spring 6-4 is located between the motor frame. When the control device 6 is used, the slide rod 6-3 is pulled forwards, the slide rod 6-3 drives the shifting fork 6-1 to move forwards, the shifting fork 6-1 drives the grooved pulley 5-8 to move forwards, the grooved pulley 5-8 drives the power transmission disc II 5-7 to move forwards through the telescopic shaft rod 5-4, and the positioning screw 1-11 is screwed so that the positioning screw 1-11 is abutted against the slide rod 6-3, and the position of the shifting fork 6-1 can be fixed; after the positioning screws 1-11 are loosened, the power transmission discs II 5-7 are reset under the elastic reset action of the compression springs 6-4 so as to be re-engaged with the power transmission discs I4-8.

The power transmission disc I4-8 is provided with two convex edges with the height gradually reduced along the clockwise direction, and the power transmission disc II 5-7 and the power transmission disc I4-8 are identical in structure.

The invention relates to a working principle of a solid-liquid separation device for biomedical research, which comprises the following components in part by weight: when the device is used, medicines to be separated are placed in the medicine box 3, the triangular seat 2-1 drives the beating plate 2-5 to beat the medicines in the medicine box 3 through the connecting plate 2-4 when reciprocating up and down, so that water in the medicines in the medicine box 3 flows out through the water outlet pipe, and the purpose of solid-liquid separation is achieved; when the driving device 4 is used, the short shaft 4-7 drives the driving round seat 4-1 to rotate, the driving round seat 4-1 drives the plurality of driving push rods 4-2, the wheel seats 4-3 and the wheels 4-4 to rotate, the wheels 4-4 at the lower end are attached to the triangular seat 2-1, the triangular seat 2-1 is driven to move downwards by extruding the triangular seat 2-1, when the wheels 4-4 at the lower end are separated from the triangular seat 2-1, the triangular seat 2-1 is reset under the elastic resetting action of the two reset springs 1-4, and when the next wheel 4-4 extrudes the triangular seat 2-1 to drive the triangular seat 2-1 to move downwards, so that the triangular seat 2-1 can reciprocate upwards and downwards; the extending length of the plurality of driving push rods 4-2 is adjusted to adjust the vertical movement amplitude of the triangular seat 2-1, so as to control the hammering degree; when the power mechanism 5 is used, the motor 5-1 is powered on and started, the motor 5-1 drives the shaft sleeve 5-2 to rotate, the shaft sleeve 5-2 drives the telescopic shaft rod 5-4 to rotate through the circular sliding seat 5-5, the telescopic shaft rod 5-4 drives the power transmission disc II 5-7 and the grooved pulley 5-8 to rotate, the power transmission disc II 5-7 drives the power transmission disc I4-8 to rotate, and the power transmission disc I4-8 drives the short shaft 4-7 to rotate; the telescopic shaft lever 5-4 can slide back and forth in the shaft sleeve 5-2, so that the power transmission disc II 5-7 is driven to move back and forth, the matching or the separation of the power transmission disc II 5-7 and the power transmission disc I4-8 is further controlled, after the power transmission disc II 5-7 is separated from the power transmission disc I4-8, the driving device 4 loses power to stop rotating, and the machine is convenient to stop to detect whether the quality of the medicine or the separation effect meets the standard or not; when the shaft sleeve 5-2 rotates, the four convex strip grooves on the four convex strip circular sliding seats 5-5 are matched to drive the circular sliding seats 5-5 to rotate; when the control device 6 is used, the slide rod 6-3 is pulled forwards, the slide rod 6-3 drives the shifting fork 6-1 to move forwards, the shifting fork 6-1 drives the grooved pulley 5-8 to move forwards, the grooved pulley 5-8 drives the power transmission disc II 5-7 to move forwards through the telescopic shaft rod 5-4, and the positioning screw 1-11 is screwed so that the positioning screw 1-11 is abutted against the slide rod 6-3, and the position of the shifting fork 6-1 can be fixed; after the positioning screws 1-11 are loosened, the power transmission discs II 5-7 are reset under the elastic reset action of the compression springs 6-4 so as to be re-engaged with the power transmission discs I4-8.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a biological medicine is solid-liquid separation equipment for research, includes support (1), beats a (2), medicine case (3) and drive arrangement (4), its characterized in that: the support (1) comprises door-shaped vertical plates (1-1), spring rod seats (1-2), spring sleeve rods (1-3), reset springs (1-4) and door-shaped frames (1-5), the left end and the right end of each door-shaped frame (1-5) are fixedly connected with the door-shaped vertical plates (1-1), the outer side surfaces of the two door-shaped vertical plates (1-1) are fixedly connected with the two spring rod seats (1-2), the spring sleeve rods (1-3) are fixedly connected between the two spring rod seats (1-2), and the reset springs (1-4) are sleeved on the two spring sleeve rods (1-3);

the hammering piece (2) comprises a triangular seat (2-1), connecting columns (2-2), sliding pieces (2-3), connecting plates (2-4) and hammering plates (2-5), the left end and the right end of the triangular seat (2-1) are fixedly connected with the connecting columns (2-2), the outer ends of the two connecting columns (2-2) are fixedly connected with the sliding pieces (2-3), the inner ends of the two sliding pieces (2-3) are respectively and slidably connected onto the two door-shaped vertical plates (1-1), the outer ends of the two sliding pieces (2-3) are respectively and slidably connected onto the two spring loop rods (1-3), reset springs (1-4) are located between the spring rod seats (1-2) and the sliding pieces (2-3), and the hammering plates (2-5) are fixedly connected onto the lower ends of the triangular seat (2-1) through the connecting plates (2-4) The beating plate (2-5) is positioned in the medicine box (3), the medicine box (3) is positioned between the two door-shaped vertical plates (1-1), and the lower end of the medicine box (3) is connected and communicated with a water outlet pipe;

the driving device (4) comprises a driving round seat (4-1), a driving push rod (4-2), a wheel seat (4-3), wheels (4-4), T-shaped screw seats (4-5), locking screws (4-6) and short shafts (4-7), the front end and the rear end of the driving round seat (4-1) are fixedly connected with the short shafts (4-7), the driving round seat (4-1) is rotatably connected to the two door-shaped frames (1-5) through the two short shafts (4-7), the driving round seat (4-1) is uniformly provided with a plurality of push rod chutes along the circumferential direction, the driving push rod (4-2) is slidably connected in the push rod chutes, the outer end of the driving push rod (4-2) is fixedly connected with the wheel seat (4-3), the wheels (4-4) are rotatably connected to the wheel seat (4-3), the front end of the driving round seat (4-1) is uniformly provided with a plurality of front sliding grooves communicated with the pushing rod sliding grooves along the circumferential direction, the inner end of the driving pushing rod (4-2) is fixedly connected with a T-shaped screw seat (4-5), the T-shaped screw seat (4-5) is connected in the front sliding grooves in a sliding mode, the T-shaped screw seat (4-5) is connected with two locking screws (4-6) through threads, and the locking screws (4-6) are pressed against the driving round seat (4-1).

2. The solid-liquid separator for biomedical research according to claim 1, characterized in that: the support (1) further comprises inclined rods (1-6), shifting fork sliding seats (1-7), shifting fork sliding grooves (1-8), supporting seats (1-9), motor frames (1-10) and positioning screws (1-11), the shifting fork sliding seats (1-7) are fixedly connected to a door-shaped frame (1-5) at the front end through the two inclined rods (1-6), the shifting fork sliding grooves (1-8) are arranged at the middle ends of the shifting fork sliding seats (1-7), the front ends and the rear ends of the shifting fork sliding seats (1-7) are fixedly connected with the motor frames (1-10) and the supporting seats (1-9) respectively, and the middle ends of the motor frames (1-10) are connected with the positioning screws (1-11) through threads.

3. The solid-liquid separator for biomedical research according to claim 2, characterized in that: the driving device (4) further comprises a power transmission disc I (4-8), and the front end of the short shaft (4-7) at the front end is fixedly connected with the power transmission disc I (4-8).

4. The solid-liquid separation device for biomedical research according to claim 3, further comprising a power mechanism (5), characterized in that: the power mechanism (5) comprises a motor (5-1), a shaft sleeve (5-2), a shaft end baffle cover (5-3), a telescopic shaft rod (5-4), a round sliding seat (5-5), a telescopic spring (5-6), a power transmission disc II (5-7) and a grooved pulley (5-8), an output shaft of the motor (5-1) is fixedly connected with the shaft sleeve (5-2), the round sliding seat (5-5) is connected in the shaft sleeve (5-2) in a sliding manner, the rear end of the round sliding seat (5-5) is fixedly connected with the telescopic shaft rod (5-4), the shaft end baffle cover (5-3) is fixedly connected at the rear end of the shaft sleeve (5-2), the telescopic shaft rod (5-4) is connected on the shaft end baffle cover (5-3) in a sliding manner, one end of the telescopic spring (5-6) is fixedly connected in the shaft sleeve (5-, the other end of the telescopic spring (5-6) is fixedly connected to the circular sliding seat (5-5), the grooved wheel (5-8) is fixedly connected to the middle end of the telescopic shaft lever (5-4), a shifting fork groove is formed in the grooved wheel (5-8), the rear end of the telescopic shaft lever (5-4) is fixedly connected with a power transmission disc II (5-7), the rear end of the power transmission disc II (5-7) is in clearance fit with the front end of the power transmission disc I (4-8), the telescopic shaft lever (5-4) is rotatably connected to the supporting seat (1-9), the front end of the supporting seat (1-9) is attached to the grooved wheel (5-8), and the motor (5-1) is fixedly connected to the motor frame (1-10).

5. The solid-liquid separator for biomedical research according to claim 4, wherein: the smooth and smooth seat (5-5) is provided with four convex strip grooves, the shaft sleeve (5-2) is internally provided with four convex strips which are horizontally distributed, and the four convex strips are respectively in clearance fit with the four convex strip grooves.

6. The solid-liquid separator for biomedical research according to claim 4, further comprising a control device (6), characterized in that: the control device (6) comprises a shifting fork (6-1), two stop circles (6-2), a sliding rod (6-3) and a compression spring (6-4), the lower end of the shifting fork (6-1) is fixedly connected with the two stop circles (6-2), the middle end of the shifting fork (6-1) is fixedly connected with the sliding rod (6-3), the compression spring (6-4) is sleeved on the sliding rod (6-3), the upper end of the shifting fork (6-1) is in clearance fit with a shifting fork groove on a grooved wheel (5-8), the lower end of the shifting fork (6-1) is slidably connected in the shifting fork sliding groove (1-8), the two stop circles (6-2) are respectively attached to the upper end face and the lower end face of a shifting fork sliding seat (1-7), and the sliding rod (6-3) is slidably connected on a motor frame (1-10, the compression spring (6-4) is positioned between the motor frame (1-10) and the shifting fork (6-1).

7. The solid-liquid separator for biomedical research according to claim 4, wherein: the power transmission disc I (4-8) is provided with two convex edges with the height gradually reduced along the clockwise direction, and the power transmission disc II (5-7) and the power transmission disc I (4-8) are identical in structure.