CN212988961U

CN212988961U - Homogenate device is used in biomedical inspection

Info

Publication number: CN212988961U
Application number: CN202021155686.9U
Authority: CN
Inventors: 杨伟; 程小华
Original assignee: Chongqing Dianjiang County People's Hospital
Current assignee: Chongqing Dianjiang County People's Hospital
Priority date: 2020-06-21
Filing date: 2020-06-21
Publication date: 2021-04-16
Anticipated expiration: 2030-06-21

Abstract

The utility model discloses a homogenate device for biomedical inspection, which comprises a supporting foot, wherein the top of the supporting foot is provided with a material guide box and a material guide box which are fixedly connected with the supporting foot through screws, the top of the material guide box is provided with a material storage box and the material storage box is integrally formed with the material guide box, one side of the material guide box is provided with an outer box body which is communicated with the material guide box, one side of the outer box body is provided with a water storage tank, one end of the top of the water storage tank is provided with a water delivery mechanism which is connected with the water storage tank through screws, the edge position of the top of the water storage tank is hollowed out and provided with a water filling port, one side of the water storage tank is provided with a material taking mechanism, harder samples are rolled and crushed through an extrusion mechanism, then the samples are put into a milling box for milling, the milling knife can not be rapidly, need not remove the sample to the checkout stand through the people, convenient to use has just saved the manpower.

Description

Homogenate device is used in biomedical inspection

Technical Field

The utility model relates to a homogenate device technical field specifically says a homogenate device is used in biomedical inspection.

Background

The biomedical inspection mainly comprises a microbiological inspection technology, a molecular inspection technology, an immunological and immune inspection, a health physicochemical inspection, a clinical hematology and inspection, a medical inspection laboratory management, a diagnostic kit development and the like, the knowledge of the biomedical inspection technologies such as the microbiological inspection, the biochemical and molecular inspection, the blood inspection, the immune inspection and the like needs to be mastered, the medical inspection work such as sample collection, pathological inspection, disease screening, clinical biochemistry and molecular inspection and the like can be carried out, the inspection quality is supervised and controlled, the development trend and the new technology of the biomedical inspection are known, some samples are hard in the inspection process, a homogenizing device needs to be used for grinding the samples, and then the powders are put into a culture solution for processing.

However, through the analysis discovery, generally cut up the crocus with the sample through the cutting knife now, when the sample is than hard, the sample makes the cutting knife wearing and tearing very fast, leads to the cutting knife can't carry out the crocus to the sample, needs the cutting knife of renewal, the time of extravagant installation cutting knife has greatly improved manufacturing cost, generally collect the sample that processing was good through a storage cylinder now, the rethread people removes the test bench with the sample, use inconvenient and wasted the manpower.

SUMMERY OF THE UTILITY MODEL

Therefore, in order to solve the above-mentioned not enough, the utility model provides a homogenate device for biomedical inspection herein rolls harder sample through extrusion mechanism and smashes, puts into the crocus case again and carries out the crocus, can not make the cutting knife wearing and tearing very fast, has saved the time of installation cutting knife greatly, has reduced manufacturing cost, directly carries the checkout stand through extracting mechanism with the sample that processing is good, need not remove the checkout stand through the people with the sample, convenient to use and saved the manpower.

The utility model relates to a realize like this, construct a homogenate device for biomedical inspection, including the supporting legs, the supporting legs top is equipped with guide box and passes through screw fixed connection with the supporting legs, and the guide box top is equipped with storage tank and guide box integrated into one piece, and outer box and guide box keep the intercommunication are installed to guide box one side, and the storage water tank is installed to outer box one side, and storage water tank top one end is equipped with water delivery mechanism and passes through screwed connection with the storage water tank, and storage water tank top border position fretwork is equipped with the filler, and the feeding agencies is installed to storage water tank one side.

Further, the storage box comprises a mounting plate, a feed inlet and a feed outlet, the mounting plate is arranged at one side of the inside of the storage box and is connected with the storage box through screws, a first extrusion mechanism and a second extrusion mechanism are respectively arranged at two ends of the top of the mounting plate, the first extrusion mechanism and the second extrusion mechanism are identical in structure, the feed inlet is hollowed out at the middle position of the top of the storage box, and the feed outlet is hollowed out on one side of the mounting plate.

Further, the first extrusion mechanism comprises a third motor, a rotating shaft A and a roller, the third motor is arranged at one end of the top of the mounting plate and is connected with the mounting plate through screws, the rotating shaft A is arranged at one end of the third motor and is fixedly connected with a motor shaft of the third motor, one end of the rotating shaft A is movably connected with one side inside the storage box through a bearing, the roller is nested at one end of the outer side of the rotating shaft A and is fixedly connected with the rotating shaft A, and a plurality of rolling blocks with the same specification are arranged on the outer side of the roller; putting a sample into the storage box from a feed inlet, aligning the bottom of the feed inlet with the middle positions of a first extruding mechanism and a second extruding mechanism, leading the sample to fall to the middle position of two rollers to be attached to rolling blocks, wherein the rolling blocks of the two rollers are arranged in a cross way, driving a rotating shaft A connected with the first extruding mechanism and the rollers to rotate by controlling the clockwise rotation of a third motor of the first extruding mechanism, leading the rolling blocks connected with the rollers to rotate along with the rollers, driving the rolling blocks of the second extruding mechanism to rotate anticlockwise by controlling the third motor of the second extruding mechanism, rolling the sample by the rolling blocks of the two rollers, leading the crushed sample to leak into a material guide box through a discharge port, leading the third motor to be a Y-series three-phase asynchronous alternating current motor with a reducer, rolling and crushing harder samples by the extruding mechanism, and then putting the harder samples into a milling box for milling, the cutting knife can not be quickly abraded, the time for installing the cutting knife is greatly saved, and the manufacturing cost is reduced.

The material taking mechanism comprises a second motor, an outer sleeve, a rotating rod, an auger and a discharge port, the second motor is arranged on one side of the water storage tank, the rotating rod is arranged at one end of the second motor and fixedly connected with a motor shaft of the second motor, one end of the rotating rod penetrates through one side of the outer sleeve and is movably connected with the outer sleeve through a bearing, the outer sleeve is embedded in the bottom position of one side of the outer box and is communicated with the outer box, the auger is nested inside the outer sleeve, the auger is fixedly connected with one end of the outer side of the rotating rod, and the discharge port; the sample is processed and treated, the second motor is controlled to work to drive the rotating rod and the auger to rotate, the auger is used for transmission, the sample is taken out from the inner side of the stirring box and enters from one end of the outer sleeve, the sample is conveyed to the discharge port at one end of the outer sleeve, the bottom end of the discharge port is provided with a control valve, the control valve of the discharge port is opened to enable the sample to leak from the discharge port, the position of the discharge port can be adjusted according to the position of the inspection bench, the sample is collected through the storage cylinder and then inspected, the second motor is a Y-series three-phase asynchronous alternating current motor with a speed reducer, therefore, the processed sample is directly conveyed to the inspection bench through the material taking mechanism, the sample does not need to be moved to the inspection bench through a person.

Further, the material guide box comprises a material guide plate and a material guide sleeve, the material guide plate is arranged at the bottom of the inner side of the material guide box, and the material guide sleeve is arranged at the bottom of one side of the material guide box and is communicated with the material guide box; the sample after pulverizing leaks to the stock guide top through the guide case, and the stock guide is the slope setting, and the sample utilizes gravitational potential energy to leak to the crocus incasement inboard through the stock guide sleeve in through the stock guide landing to the stock guide sleeve.

Further, the outer box body comprises a stirring box, a grinding box, a first motor, a rotating shaft B, a filter screen and a spray head, the stirring box is arranged at the bottom of the outer box body, the grinding box is arranged at the top of the stirring box and is integrally formed with the stirring box, the first motor is arranged at the middle position of the top of the outer box body, the rotating shaft B is arranged at one end of the first motor and is fixedly connected with a motor shaft of the first motor, one end of the rotating shaft B penetrates through the top of the outer box body and the middle position of the filter screen and extends to the bottom of the inner side of the outer box body, the rotating shaft B and the outer box body, the filter screen and the bottom of the inner side of the outer box body are movably connected through bearings, a plurality of stirring blades with the same specification are arranged at the; make it drive axis of rotation B and stirring blade rotate fast through the work of the first motor of control, the sample that will pulverize through stirring blade cuts and makes the sample cut into the powder, the sample leaks to the agitator tank inboard through the filter screen, through shower nozzle blowout culture solution, make the culture solution spout and mix with powdered sample in the agitator tank, drive the puddler through axis of rotation B and rotate and stir powdered sample and culture solution, stir its stirring, the asynchronous AC motor of Y series three-phase of first motor for having the reduction gear, thereby, need not stir through artifical use tools, the manpower has been saved greatly.

Further, the filter screen is arranged at the bottom of the grinding box; when the size of the powdery sample is smaller than that of the filter screen, the sample leaks to the inner side of the stirring box through the filter screen.

Furthermore, the water delivery mechanism comprises a water suction pump, a first guide pipe and a second guide pipe, the water suction pump is installed at one end of the top of the water storage tank, the first guide pipe is installed on one side of the water suction pump and is communicated with the water suction pump, one end of the first guide pipe penetrates through the middle position of the top of the water storage tank, the second guide pipe is installed at the top of the water suction pump and is communicated with the water suction pump, one end of the second guide pipe penetrates through the middle position of one side of the outer tank, and one end of the second guide pipe is; the cover of the water filling port is opened, the culture solution is added into the water storage tank through the water filling port, the water suction pump is controlled to work, the culture solution in the water storage tank is pumped out through the first guide pipe, and the culture solution is conveyed to the spray head through the second guide pipe by the water suction pump.

The utility model discloses an extrusion mechanism rolls harder sample and smashes, puts into the crocus case again and carries out the crocus, can not make the cutting knife wearing and tearing very fast, has saved the time of installation cutting knife greatly, has reduced manufacturing cost, directly carries the checkout stand with the sample that processing was good through the feeding agencies, need not remove the checkout stand with the sample through the people, and convenient to use and saved the manpower, concrete advantage embodies:

the method has the advantages that: putting a sample into the storage box from a feed inlet, aligning the bottom of the feed inlet with the middle positions of a first extruding mechanism and a second extruding mechanism, leading the sample to fall to the middle positions of two rollers to be attached to rolling blocks, wherein the rolling blocks of the two rollers are arranged in a cross way, driving a rotating shaft A connected with the first extruding mechanism and the rollers to rotate by controlling the clockwise rotation of a third motor of the first extruding mechanism, leading the rolling blocks connected with the rollers to rotate along with the rollers, driving the rolling blocks of the second extruding mechanism to rotate anticlockwise by controlling the third motor of the second extruding mechanism, rolling the sample by the rolling blocks of the two rollers, leading the crushed sample to leak into a material guide box through a discharge port, leading the crushed sample to leak to the top of the material guide plate through a material guide box by using a Y-series three-phase asynchronous alternating current motor with a speed reducer, and leading the material guide plate to be arranged in an inclined way, the sample utilizes gravitational potential energy to pass through in the stock guide landing to the stock guide sleeve, and the milling powder incasement side is leaked to the rethread stock guide sleeve to, roll harder sample through extrusion mechanism and smash, put into the milling powder case again and carry out the crocus, can not make the cutting knife wearing and tearing very fast, saved the time of installation cutting knife greatly, reduced manufacturing cost.

The method has the advantages that: make it drive axis of rotation B and stirring blade rotate fast through the work of the first motor of control, the sample that will pulverize through stirring blade cuts and makes the sample cut into the powder, the sample leaks to the agitator tank inboard through the filter screen, through shower nozzle blowout culture solution, make the culture solution spout and mix with powdered sample in the agitator tank, drive the puddler through axis of rotation B and rotate and stir powdered sample and culture solution, stir its stirring, the asynchronous AC motor of Y series three-phase of first motor for having the reduction gear, thereby, need not stir through artifical use tools, the manpower has been saved greatly.

The method has the advantages that: the sample is processed and treated, the second motor is controlled to work to drive the rotating rod and the auger to rotate, the auger is used for transmission, the sample is taken out from the inner side of the stirring box and enters from one end of the outer sleeve, the sample is conveyed to the discharge port at one end of the outer sleeve, the bottom end of the discharge port is provided with a control valve, the control valve of the discharge port is opened to enable the sample to leak from the discharge port, the position of the discharge port can be adjusted according to the position of the inspection bench, the sample is collected through the storage cylinder and then inspected, the second motor is a Y-series three-phase asynchronous alternating current motor with a speed reducer, therefore, the processed sample is directly conveyed to the inspection bench through the material taking mechanism, the sample does not need to be moved to the inspection bench through a person.

Drawings

FIG. 1 is a schematic structural view of the homogenate device for biomedical examination of the present invention;

fig. 2 is an enlarged schematic view of a portion a in fig. 1 according to the present invention;

fig. 3 is an enlarged schematic view of a portion B in fig. 1 according to the present invention;

fig. 4 is a schematic view of the structure of the roller of the present invention.

The figure illustrates the format: the device comprises a supporting foot 1, a material guide box 2, a material guide plate 21, a material guide sleeve 22, a storage box 3, a mounting plate 31, a first extruding mechanism 32, a third motor 321, a rotating shaft A322, a rolling block 323, a roller 324, a second extruding mechanism 33, a feeding hole 34, a discharging hole 35, an outer box body 4, a stirring box 41, a grinding box 42, a first motor 43, a rotating shaft B44, a stirring rod 45, a stirring blade 46, a filter screen 47, a spray head 48, a water storage box 5, a water filling port 51, a water conveying mechanism 6, a water suction pump 61, a first conduit 62, a second conduit 63, a material taking mechanism 7, a second motor 71, an outer sleeve 72, a rotating rod 73, an auger 74 and a discharging hole 75.

Detailed Description

The present invention will be described in detail below with reference to the attached drawings, and the technical solutions in the embodiments of the present invention will be clearly and completely described. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative efforts belong to the protection scope of the present invention; furthermore, the terms "first," "second," "third," "upper, lower, left, right," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance. Meanwhile, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "connected" and "connected" should be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; the connection can be mechanical connection or electrical connection; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

The utility model provides a homogenate device for biomedical inspection through improving, as shown in the attached drawing of the specification, can be implemented as follows; the device comprises a supporting foot 1, wherein a material guide box 2 is arranged at the top of the supporting foot 1, the material guide box 2 is fixedly connected with the supporting foot 1 through screws, a storage box 3 is arranged at the top of the material guide box 2, the storage box 3 and the material guide box 2 are integrally formed, an outer box body 4 is arranged on one side of the material guide box 2, the outer box body 4 is communicated with the material guide box 2, a water storage tank 5 is arranged on one side of the outer box body 4, a water delivery mechanism 6 is arranged at one end of the top of the water storage tank 5, the water delivery mechanism 6 is connected with the water storage tank 5 through screws, a water filling port 51 is hollowed in the;

more specifically, storage tank 3 includes mounting panel 31, feed inlet 34 and feed opening 35, and mounting panel 31 sets up in storage tank 3 inside one side position and passes through screwed connection with storage tank 3, and first extrusion mechanism 32, second extrusion mechanism 33 are installed respectively to mounting panel 31 top both ends, and first extrusion mechanism 32 is the same with second extrusion mechanism 33 structure, and the fretwork of feed inlet 34 sets up in storage tank 3 top intermediate position, and the fretwork of feed opening 35 sets up in mounting panel 31 one side.

Further, the first squeezing mechanism 32 comprises a third motor 321, a rotating shaft a322 and a roller 324, the third motor 321 is arranged at one end of the top of the mounting plate 31 and is connected with the mounting plate 31 through a screw, the rotating shaft a322 is arranged at one end of the third motor 321 and is fixedly connected with a motor shaft of the third motor 321, one end of the rotating shaft a322 is movably connected with one side of the inside of the storage box 3 through a bearing, the roller 324 is nested at one end of the outer side of the rotating shaft a322 and is fixedly connected with the rotating shaft a322, and a plurality of rolling blocks 323 with the same specification are arranged on the outer side of the roller; putting a sample into the storage box 3 from a feed inlet 34, aligning the bottom of the feed inlet 34 with the middle positions of a first extrusion mechanism 32 and a second extrusion mechanism 33, making the sample fall to the middle positions of two rollers 324 to be attached to a rolling block 323, wherein the rolling blocks 323 of the two rollers 324 are arranged in a crossed manner, driving a rotating shaft A322 connected with the rotating shaft A and the rollers 324 to rotate by controlling the clockwise rotation of a third motor 321 of the first extrusion mechanism 32, the rolling block 323 connected with the rollers 324 to rotate along with the rotating shaft, driving the rolling block 323 of the second extrusion mechanism 33 to rotate anticlockwise by controlling the anticlockwise rotation of the third motor 321 of the second extrusion mechanism 33, rolling the sample by the rolling block 323 of the two rollers 324, and making the crushed sample leak into the material guide box 2 through a discharge port 35, wherein the third motor 321 is a Y-series three-phase asynchronous alternating current motor with a speed reducer;

more specifically, the material taking mechanism 7 comprises a second motor 71, an outer sleeve 72, a rotating rod 73, an auger 74 and a discharge port 75, wherein the second motor 71 is installed on one side of the water storage tank 5, the rotating rod 73 is arranged at one end of the second motor 71 and fixedly connected with a motor shaft of the second motor 71, one end of the rotating rod 73 penetrates through one side of the outer sleeve 72 and is movably connected with the outer sleeve 72 through a bearing, the outer sleeve 72 is embedded in the bottom position of one side of the outer box 4 and is communicated with the outer box 4, the auger 74 is embedded in the outer sleeve 72, the auger 74 is fixedly connected with one end of the outer side of the rotating rod 73, and; after a sample is processed, the second motor 71 is controlled to work to drive the rotating rod 73 and the screw conveyor 74 to rotate, the screw conveyor 74 is used for transmission, the sample is taken out from the inner side of the stirring box 41 and enters from one end of the outer sleeve 72, then the sample is conveyed to the discharge hole 75 at one end of the outer sleeve 72, the bottom end of the discharge hole 75 is provided with a control valve, the control valve of the discharge hole 75 is opened to enable the sample to leak from the discharge hole 75, the position of the discharge hole 75 can be adjusted according to the position of the inspection bench, the sample is collected through the storage cylinder and then inspected, and the second motor 71 is a Y-series three-phase asynchronous alternating current motor with;

more specifically, the material guiding box 2 comprises a material guiding plate 21 and a material guiding sleeve 22, the material guiding plate 21 is installed at the bottom position of the inner side of the material guiding box 2, and the material guiding sleeve 22 is installed at the bottom position of one side of the material guiding box 2 and is communicated with the material guiding box 2; the ground sample leaks to the top of the material guide plate 21 through the material guide box 2, the material guide plate 21 is arranged obliquely, and the sample slides into the material guide sleeve 22 through the material guide plate 21 by utilizing gravitational potential energy and then leaks to the inner side of the milling box 42 through the material guide sleeve 22;

more specifically, the outer case 4 includes a stirring box 41, a milling box 42, a first motor 43, and a rotating shaft B44, a filter screen 47 and a spray head 48, the stirring box 41 is arranged at the bottom of the outer box 4, the milling box 42 is arranged at the top of the stirring box 41 and is integrally formed with the stirring box 41, the first motor 43 is arranged at the middle position of the top of the outer box 4, a rotating shaft B44 is arranged at one end of the first motor 43 and is fixedly connected with a motor shaft of the first motor 43, one end of the rotating shaft B44 penetrates through the top of the outer box 4, the middle position of the filter screen 47 and extends to the bottom of the inner side of the outer box 4, the rotating shaft B44 is movably connected with the outer box 4, the filter screen 47 and the bottom of the inner side of the outer box 4 through bearings, a plurality of stirring blades 46 with the same specification are arranged at the top of the outer side of the rotating shaft B53936, a plurality of stirring; the first motor 43 is controlled to work to drive the rotating shaft B44 and the stirring blade 46 to rotate rapidly, the crushed sample is cut into powder by the stirring blade 46, the sample leaks to the inner side of the stirring box 41 through the filter screen 47, the culture solution is sprayed out through the spray head 48 to be sprayed into the stirring box 41 to be mixed with the powdery sample, the stirring rod 45 is driven to rotate through the rotating shaft B44 to stir the powdery sample and the culture solution uniformly, and the first motor 43 is a Y-series three-phase asynchronous alternating current motor with a speed reducer;

more specifically, a filter screen 47 is installed at the bottom of the grinding box 42; when the size of the powdery sample is smaller than the filter screen 47, the sample leaks to the inner side of the stirring tank 41 through the filter screen 47;

more specifically, the water delivery mechanism 6 comprises a water pump 61, a first conduit 62 and a second conduit 63, the water pump 61 is mounted at one end of the top of the water storage tank 5, the first conduit 62 is mounted at one side of the water pump 61 and is communicated with the water pump 61, one end of the first conduit 62 penetrates through the middle position of the top of the water storage tank 5, the second conduit 63 is mounted at the top of the water pump 61 and is communicated with the water pump 61, one end of the second conduit 63 penetrates through the middle position of one side of the outer box 4, and one end of the second conduit 63 is communicated with the spray head 48; the cover of the water filling port 51 is opened, the culture solution is filled into the water storage tank 5 through the water filling port 51, the water suction pump 61 is controlled to work, the culture solution in the water storage tank 5 is pumped out through the first conduit 62 by the water suction pump 61, and the culture solution is conveyed to the spray head 48 through the second conduit 63 by the water suction pump 61.

This kind of homogenate device for biomedical inspection's theory of operation: putting a sample into the storage box 3 from a feed inlet 34, aligning the bottom of the feed inlet 34 with the middle positions of a first extruding mechanism 32 and a second extruding mechanism 33, making the sample fall to the middle position of two rollers 324 to be attached to a rolling block 323, arranging the rolling blocks 323 of the two rollers 324 in a crossed manner, driving a rotating shaft A322 connected with the rotating shaft A and the rollers 324 to rotate by controlling the clockwise rotation of a third motor 321 of the first extruding mechanism 32, enabling the rolling block 323 connected with the rollers 324 to rotate along with the rotating shaft, controlling the counterclockwise rotation of the third motor 321 of the second extruding mechanism 33, finally driving the rolling block 323 of the second extruding mechanism 33 to rotate counterclockwise, rolling the sample by the rolling blocks 323 of the two rollers 324, and making the crushed sample leak into a material guide box 2 through a discharge port 35, wherein the third motor 321 is a Y-series three-phase asynchronous AC motor with a decelerator, the crushed sample leaks to the top of the material guide plate 21 through the material guide box 2, the material guide plate 21 is obliquely arranged, a sample slides into the material guide sleeve 22 through the material guide plate 21 by utilizing gravitational potential energy, then leaks into the inner side of the milling box 42 through the material guide sleeve 22, the first motor 43 is controlled to work to drive the rotating shaft B44 and the stirring blade 46 to rotate rapidly, the crushed sample is cut into powder through the stirring blade 46, the sample leaks into the inner side of the stirring box 41 through the filter screen 47, the culture solution is sprayed into the stirring box 41 through the spray head 48 to be mixed with the powdery sample, the stirring rod 45 is driven to rotate through the rotating shaft B44 to stir the powdery sample and the culture solution to be uniformly stirred, the first motor 43 is a Y series three-phase asynchronous alternating current motor with a reducer, after the sample is processed, the rotating shaft 73 and the auger 74 are driven to rotate through the second motor 71, and the auger 74 is utilized to drive, the sample is taken out from the inner side of the stirring box 41, the sample enters from one end of the outer sleeve 72, then the sample is conveyed to the discharge port 75 at one end of the outer sleeve 72, the bottom end of the discharge port 75 is provided with a control valve, the control valve of the discharge port 75 is opened to enable the sample to leak from the discharge port 75, the position of the discharge port 75 can be adjusted according to the position of the inspection table, the sample is collected through the storage cylinder and then inspected, and the second motor 71 is a Y-series three-phase asynchronous alternating current motor with a speed reducer.

In conclusion; homogenate device is used in biomedical inspection compares with current homogenate device for biomedical inspection, rolls harder sample through extrusion mechanism and smashes, puts into the crocus case again and carries out the crocus, can not make the cutting knife wearing and tearing very fast, has saved the time of installation cutting knife greatly, has reduced manufacturing cost, directly carries the checkout stand through extracting mechanism with the sample that processing is good, need not remove the checkout stand with the sample through the people, convenient to use and saved the manpower.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. The utility model provides a homogenate device is used in biomedical inspection, includes supporting legs (1), its characterized in that: supporting legs (1) top is equipped with guide box (2) and passes through screw fixed connection with supporting legs (1), guide box (2) top is equipped with storage tank (3) and guide box (2) integrated into one piece, guide box (2) one side is installed outer box (4) and is kept the intercommunication with guide box (2), storage water tank (5) are installed to outer box (4) one side, storage water tank (5) top one end is equipped with water delivery mechanism (6) and passes through screwed connection with storage water tank (5), storage water tank (5) top border position fretwork is equipped with filler (51), extracting mechanism (7) are installed to storage water tank (5) one side.

2. The homogenization apparatus for biomedical testing according to claim 1, wherein: storage tank (3) include mounting panel (31), feed inlet (34) and feed opening (35), mounting panel (31) set up in storage tank (3) inside one side position and pass through screwed connection with storage tank (3), first extrusion mechanism (32), second extrusion mechanism (33) are installed respectively to mounting panel (31) top both ends, first extrusion mechanism (32) and second extrusion mechanism (33) structure are the same, feed inlet (34) fretwork sets up in storage tank (3) top intermediate position, feed opening (35) fretwork sets up in mounting panel (31) one side.

3. A homogenization apparatus for biomedical tests according to claim 2, wherein: first extrusion mechanism (32) include third motor (321), axis of rotation A (322) and cylinder (324), third motor (321) set up in mounting panel (31) top one end and pass through screwed connection with mounting panel (31), axis of rotation A (322) set up in third motor (321) one end and with the motor shaft fixed connection of third motor (321), axis of rotation A (322) one end and storage tank (3) inside one side keep swing joint through the bearing, cylinder (324) nestification set up in axis of rotation A (322) outside one end and with axis of rotation A (322) fixed connection, the same piece (323 that rolls of a plurality of specifications is installed in cylinder (324) outside.

4. The homogenization apparatus for biomedical testing according to claim 1, wherein: reclaiming mechanism (7) includes second motor (71), outer sleeve (72), dwang (73), auger (74) and discharge gate (75), second motor (71) is installed in storage water tank (5) one side, dwang (73) set up in second motor (71) one end and with the motor shaft fixed connection of second motor (71), dwang (73) one end is run through outer sleeve (72) one side and is kept swing joint through the bearing with outer sleeve (72), outer sleeve (72) embedding sets up in outer box (4) one side bottom position and keeps the intercommunication with outer box (4), auger (74) nestification sets up in outer sleeve (72) inboardly, auger (74) and dwang (73) outside one end fixed connection, discharge gate (75) fretwork sets up in outer sleeve (72) one end.

5. The homogenization apparatus for biomedical testing according to claim 1, wherein: the material guiding box (2) comprises a material guiding plate (21) and a material guiding sleeve (22), the material guiding plate (21) is installed at the bottom position of the inner side of the material guiding box (2), and the material guiding sleeve (22) is installed at the bottom position of one side of the material guiding box (2) and is communicated with the material guiding box (2).

6. The homogenization apparatus for biomedical testing according to claim 1, wherein: the outer box body (4) comprises a stirring box (41), a grinding box (42), a first motor (43), a rotating shaft B (44), a filter screen (47) and a spray head (48), the stirring box (41) is arranged at the bottom of the outer box body (4), the grinding box (42) is arranged at the top of the stirring box (41) and is integrally formed with the stirring box (41), the first motor (43) is arranged at the middle position of the top of the outer box body (4), the rotating shaft B (44) is arranged at one end of the first motor (43) and is fixedly connected with a motor shaft of the first motor (43), one end of the rotating shaft B (44) penetrates through the middle position of the top of the outer box body (4) and the filter screen (47) and extends to the inner bottom of the outer box body (4), and the rotating shaft B (44) and the inner bottoms of the outer box body (4) keep movable connection through bearings, a plurality of stirring blades (46) with the same specification are installed at the top of the outer side of the rotating shaft B (44), a plurality of stirring rods (45) with the same specification are installed at the bottom of the outer side of the rotating shaft B (44), and the spray head (48) is installed at the top of the inner side of the stirring box (41).

7. The homogenization apparatus for biomedical examination as claimed in claim 6, wherein: the filter screen (47) is arranged at the bottom of the grinding box (42).

8. The homogenization apparatus for biomedical testing according to claim 1, wherein: water delivery mechanism (6) are including suction pump (61), first pipe (62) and second pipe (63), install in storage water tank (5) top one end suction pump (61), first pipe (62) are installed in suction pump (61) one side and are kept the intercommunication with suction pump (61), storage water tank (5) top intermediate position is run through to first pipe (62) one end, second pipe (63) are installed in suction pump (61) top and are kept the intercommunication with suction pump (61), second pipe (63) one end is run through outer box (4) one side intermediate position and second pipe (63) one end and shower nozzle (48) and are kept the intercommunication.