CN210356944U - Biological science experimental apparatus - Google Patents

Abstract

The utility model discloses a biological science experimental device, the structure of which comprises a processing table and a base, the utility model has the following advantages that the manual addition is generally adopted for solving the problem that the same experiment of the prior art biological science experimental device needs the comparison of a plurality of groups of different article data when in use, and the manual shaking and mixing are needed when in mixing, so that the errors are easy to occur when a plurality of groups of articles are added, further has the problems of data error, low manual efficiency, large physical consumption of arm shaking for a long time and uneven shaking, designs a transmission mechanism, an adding mechanism, a clamping mechanism and a shaking mechanism, simultaneously adds a plurality of test tubes by matching the adding mechanism when in use, accurately quantifies, quickly shakes and mixes the test tubes after being added and converted onto the shaking mechanism by the clamping mechanism, meanwhile, the dropper can be conveniently cleaned, and the effects of synchronous and accurate addition, conversion, shaking, mixing and convenient cleaning use of multiple test tubes are achieved.

Description

Biological science experimental apparatus

Technical Field

The utility model relates to the technical field, in particular to biological science experimental apparatus.

Background

Bioscience (different from biology), the research of the structure, physiological behavior and biogenesis, evolution, genetic development and the like of organisms, and the development stages of experimental bioscience, molecular biology, system bioscience and the like, the bioscience is a science which is based on experiments and researches the rules of life activities, the general university is arranged in a life academy of sciences, and the biotechnology and the bioengineering are brother specialities which have wide related areas and comprise botany, zoology, microbiology, neurology, physiology, histology, anatomy and the like, the prior art is technically improved along with the rapid development of scientific technology, but the prior art novel bioscience experimental device is manually improved because the same experiment needs to compare a plurality of groups of different article data, is generally manually added and needs to be manually mixed during mixing, lead to multiunit article to add the time can make mistakes easily, and then data make mistakes, artifical inefficiency rocks the arm physical demands for a long time big, rocks inhomogeneous problem.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome prior art not enough, a biological science experimental apparatus is proposed at present, because the different article data contrast of multiunit is needed in the same experiment when using in order to solve the novel biological science experimental apparatus of prior art, generally all adopt artifical the interpolation, and need the manual work to rock the mixture when mixing, can make mistakes easily when leading to multiunit article to add, and then data mistake, artifical inefficiency, it is big to rock arm physical demands for a long time, rock inhomogeneous problem, thereby reached the synchronous accurate interpolation of many test tubes, the conversion is rocked and is mixed and the convenient effect that washs the use.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides a biological science experimental apparatus, include processing platform, base, place platform, control panel, test tube, drive mechanism, add mechanism, fixture and rock the mechanism, processing platform bottom right side welds with the base, left rear side welds with placing the platform in the base, preceding left side carries out bolted connection through nut and control panel in the base, left side welds with drive mechanism in the base, the rear side welds with adding the mechanism in the base back, the rear side carries out bolted connection through nut and fixture in the base to fixture is located and adds the mechanism right side, the right side welds with rocking the mechanism in the base, the drive mechanism top is pegged graft with the test tube to the test tube top is connected with adding the mechanism.

Further, drive mechanism includes conveyor belt mechanism, step motor, silica gel base, battery and level sensor, the left side rotates through pivot and step motor behind the conveyor belt mechanism to be connected, anterior and silica gel base bond in the conveyor belt mechanism top, the battery has been placed to back bottom in the silica gel base, top and level sensor cup joint in the silica gel base back, conveyor belt mechanism bottom is connected with the processing platform, step motor rear side bottom is connected with the processing platform, the top is connected with the test tube in the silica gel base, battery and level sensor all are provided with five groups.

Further, the adding mechanism comprises an adding table, a cleaning cabin, a first electric push rod, a baffle, a first linear guide rail, a burette, a second linear guide rail, a support rod, a sleeve plate and a sleeve ring, the cleaning cabin is arranged at the bottom of the rear side in the adding table, the left side of the top in the adding table is welded with the first linear guide rail, the front side of the top in the adding table is welded with the second linear guide rail, the front bottom in the cleaning cabin is welded with the first electric push rod, the top end of the first electric push rod is welded with the baffle, the front part of the bottom end of the first linear guide rail is in sliding connection with the burette through a slide block, the left side of the bottom end of the second linear guide rail is in sliding connection with the support rod, the bottom end of the support rod is in sliding connection with the sleeve plate, the middle part of the sleeve plate is sleeved with the sleeve ring, and the, the lantern ring is internally connected with the test tube, and the first linear guide rail and the dropper are provided with five groups.

Further, fixture includes bearing frame, micro motor, second electric putter, first sucking disc and second sucking disc, the bearing frame front bottom rotates through pivot and micro motor to be connected, bearing frame front end middle part welds with second electric putter, second electric putter front end right side carries out bolted connection through fixture block and first sucking disc, second electric putter front end left side carries out bolted connection through fixture block and second sucking disc, the bearing frame rear side is connected with the processing platform.

Further, rock the mechanism and include electric turntable, third electric putter, support the disc and rock the cabin, the right side carries out bolted connection through nut and third electric putter before the electric turntable top, the third electric putter top carries out bolted connection through nut and support disc, it is provided with and rocks the cabin to support the disc rear side, the electric turntable surface is connected with the processing platform, it is provided with five groups to rock the cabin, and the equidistance is installed respectively in supporting the disc outer lane.

Furthermore, the right side of the silica gel base is open.

Furthermore, a plurality of rectangular openings are arranged above the baffle.

Further, sponge pads are arranged on the top of the outer surface of the shaking cabin and in the shaking cabin.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

1) for solving the novel biological science experimental apparatus of prior art because the article data contrast that the multiunit is different is required in the same experiment when using, generally all adopt the manual work to add, and need the manual work to rock the mixture when mixing, lead to multiunit article to add the over-time can make mistakes easily, and then data make mistakes, artifical inefficiency, it is big to rock arm physical demands for a long time, rock inhomogeneous problem, drive mechanism has been designed, add the mechanism, fixture and rocking mechanism, carry out many test tubes and add simultaneously through adding the mechanism cooperation during the use, accurate ration, convert to through fixture after the interpolation and rock the mechanism and go up the mixture of rocking fast, can convenient washing burette simultaneously, the synchronous accurate interpolation of many test tubes has been realized, the conversion is rocked and is mixed and convenient effect of wasing the use.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the transmission mechanism of the present invention;

FIG. 3 is a schematic view of the adding mechanism of the present invention;

FIG. 4 is a schematic structural view of the clamping mechanism of the present invention;

FIG. 5 is a schematic view of the rocking mechanism of the present invention;

in the figure: a processing table-1, a base-2, a placing table-3, a control screen-4, a transmission mechanism-5, a test tube-6, an adding mechanism-7, a clamping mechanism-8, a shaking mechanism-9, a conveyor belt mechanism-501, a stepping motor-502, a silica gel base-503, a battery-504, a liquid level sensor-505, an adding table-701, a cleaning cabin-702, a first electric push rod-703, a baffle-704, a first linear guide rail-705, a dropper-706, a second linear guide rail-707, a support rod-708, a sleeve plate-709, a sleeve ring-7010, a bearing seat-801, a micro motor-802, a second electric push rod-803, a first suction disc-804, a second suction disc-805, an electric rotating disc-901, a power rotating disc-901, A third electric push rod-902, a support disc-903 and a shaking cabin-904.

Detailed Description

In the technical scheme:

a transmission mechanism-5, an adding mechanism-7, a clamping mechanism-8, a shaking mechanism-9, a conveyor belt mechanism-501, a stepping motor-502, a silica gel base-503, a battery-504, a liquid level sensor-505, an adding table-701, a cleaning cabin-702, a first electric push rod-703, a baffle-704 and a first linear guide rail-705, the utility model comprises a dropper-706, a second linear guide rail-707, a support rod-708, a sleeve plate-709, a lantern ring-7010, a bearing seat-801, a micro motor-802, a second electric push rod-803, a first suction disc-804, a second suction disc-805, an electric rotary disc-901, a third electric push rod-902, a support disc-903 and a shaking cabin-904.

The processing platform-1, the base-2, the placing platform-3, the control screen-4 and the test tube-6 are necessary connection components for realizing the technical proposal of the utility model.

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, fig. 2, fig. 3, fig. 4 and fig. 5, the present invention provides a bioscience experimental apparatus: including processing platform 1, base 2, place platform 3, control panel 4, test tube 6, drive mechanism 5, add mechanism 7, fixture 8, rock mechanism 9, 1 bottom right side of processing platform welds with base 2, the left rear side welds with placing platform 3 in the base 2, preceding left side carries out bolted connection through nut and control panel 4 in the base 2, left side welds with drive mechanism 5 in the base 2, 2 back middle and back sides of base weld with adding mechanism 7, the rear side carries out bolted connection with fixture 8 through the nut in the base 2, and fixture 8 is located and adds mechanism 7 right side, right side welds with rocking mechanism 9 in the base 2, 5 tops of drive mechanism are pegged graft with test tube 6, and 6 tops of test tube are connected with adding mechanism 7.

Wherein, drive mechanism 5 includes conveyer belt mechanism 501, step motor 502, silica gel base 503, battery 504 and level sensor 505, the left side rotates through pivot and step motor 502 behind the conveyer belt mechanism 501 to be connected, anterior and silica gel base 503 bond in the conveyer belt mechanism 501 top, battery 504 has been placed to back bottom in the silica gel base 503, top and level sensor 505 cup joint in the silica gel base 503 back, conveyer belt mechanism 501 bottom is connected with processing platform 1, step motor 502 rear side bottom is connected with processing platform 1, the top is connected with test tube 6 in the silica gel base 503, battery 504 and level sensor 505 all are provided with five groups, are convenient for drive test tube 6, can cooperate multiunit interpolation simultaneously.

Wherein the adding mechanism 7 comprises an adding table 701, a cleaning cabin 702, a first electric push rod 703, a baffle 704, a first linear guide rail 705, a dropper 706, a second linear guide rail 707, a support rod 708, a sleeve plate 709 and a sleeve ring 7010, the cleaning cabin 702 is arranged at the bottom of the inner rear side of the adding table 701, the left side of the inner top of the adding table 701 is welded with the first linear guide rail 705, the front side of the inner top of the adding table 701 is welded with the second linear guide rail 707, the front bottom of the cleaning cabin 702 is welded with the first electric push rod 703, the top end of the first electric push rod 703 is welded with the baffle 704, the front part of the bottom end of the first linear guide rail 705 is in sliding connection with the dropper 706 through a slide block, the left side of the bottom end of the second linear guide rail 707 is in sliding connection with the support rod 708 through a slide block, the bottom end of the support rod 708 is in sliding connection with the sleeve plate 709, and the middle, the bottom of the outer surface of the adding table 701 is connected with the processing table 1, the interior of the lantern ring 7010 is connected with the test tube 6, and five groups of the first linear guide rail 705 and the dropper 706 are arranged, so that the adding of various articles and the cleaning of the dropper 706 in real time can be conveniently carried out at the same time.

The clamping mechanism 8 comprises a bearing seat 801, a micro motor 802, a second electric push rod 803, a first suction disc 804 and a second suction disc 805, the front bottom of the bearing seat 801 is rotatably connected with the micro motor 802 through a rotating shaft, the middle of the front end of the bearing seat 801 is welded with the second electric push rod 803, the right side of the front end of the second electric push rod 803 is in bolt connection with the first suction disc 804 through a clamping block, the left side of the front end of the second electric push rod 803 is in bolt connection with the second suction disc 805 through a clamping block, and the rear side of the bearing seat 801 is connected with the processing table 1, so that the clamping test tube 6 can be conveniently placed in a switching manner.

Wherein, rocking mechanism 9 includes electric turntable 901, third electric putter 902, supports disc 903 and rocks cabin 904, the right side carries out bolted connection through nut and third electric putter 902 before electric turntable 901 top, third electric putter 902 top carries out bolted connection through nut and support disc 903, it is provided with and rocks cabin 904 to support disc 903 rear side, electric turntable 901 surface is connected with processing platform 1, it is provided with five groups to rock cabin 904, and the equidistance is installed in support disc 903 outer lane respectively, can carry out quick slip test tube 6.

Wherein, the silica gel base 503 right side is the opening form, can be convenient for test tube 6 to take out.

The plurality of rectangular openings are arranged above the baffle 704, so that the baffle can be prevented from interfering with the guide rail on the top, and the sealing performance is ensured.

Wherein, rock cabin 904 surface top and inside and all be provided with the foam-rubber cushion, can protect test tube 6, prevent to break.

The working principle is as follows: when in use, the biological science experimental device is firstly placed at a position to be used, then the biological science experimental device is externally connected with a power supply, meanwhile, a drain pipe can be connected with the rear side of the cleaning cabin 702, then test tubes 6 with different specifications can be placed on the placing table 3 in a classified manner when in use, the test tubes can be taken in time when in use, then the test tubes 6 pass through the lantern ring 7010 to be inserted on the silica gel base 503, then five groups of droppers 706 at the top can be used for receiving different liquids to be mixed, then the control screen 4 controls the stepping motor 502 to rotate to drive the conveyor belt mechanism 501, the second linear guide rail 707 on the adding mechanism 7 at the top moves in a matching manner with the movable sleeve plate 709 during transmission, so that the upper part and the lower part of the test tubes 6 can be synchronously moved, then the droppers 706 are controlled to add the liquids, the matching of five groups of, then can rotate bearing frame 801 through micro motor 802 after the ratio is good and drive second electric putter 803 to rotate and contract simultaneously, then adsorb the wall of test tube 6 through first sucking disc 804 and second sucking disc 805, and silica gel base 503 right side is the open form, can incline when moving to the drive belt arc, be convenient for take out test tube 6, micro motor 802 rotates bearing frame 801 and drives second electric putter 803 to rotate and contract simultaneously after taking out, simultaneously electric turntable 901 rotates, cooperation rocks cabin 904 and carries out test tube 6 and place, and five groups of burette 706 all can independent control, can move alone, when needing to wash immediately and change liquid, only need to move backward, then first electric putter 703 drives baffle 704 to stretch out and draw back, form the enclosure space, then wash through water pipe through burette 706 through external clear water, convenient and convenient when using, can not influence ratio work, then test tube 6 of placing miscellaneous rocking cabin enters through four third electric putter 902 through electric turntable 901 rotatory cooperation The irregular lift of going realizes rocking and mixes, and this device convenient to use can carry out the multiunit liquid of the same type simultaneously and add, realizes adding the accurate of data, and real-time observation, test tube conversion mixing efficiency is high simultaneously, and staff's the arm fatigue that has significantly reduced mixes the homogeneous simultaneously, can use widely in the laboratory.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. 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.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (8)

1. The utility model provides a biological science experimental apparatus, includes processing platform (1), base (2), places platform (3), control panel (4) and test tube (6), its characterized in that: also comprises a transmission mechanism (5), an adding mechanism (7), a clamping mechanism (8) and a shaking mechanism (9), the right side of the bottom end of the processing table (1) is welded with the base (2), the left rear side in the base (2) is welded with the placing table (3), the front left side in the base (2) is connected with the control screen (4) through a bolt by a nut, the middle left side in the base (2) is welded with the transmission mechanism (5), the middle rear side of the base (2) is welded with the adding mechanism (7), the middle rear side in the base (2) is connected with a clamping mechanism (8) through a nut by a bolt, the clamping mechanism (8) is positioned at the right side of the adding mechanism (7), the right side in the base (2) is welded with the shaking mechanism (9), the device is characterized in that the upper part of the transmission mechanism (5) is spliced with the test tube (6), and the upper part of the test tube (6) is connected with the adding mechanism (7).

2. A bioscience assay device as in claim 1, wherein: the transmission mechanism (5) comprises a conveyor belt mechanism (501), a stepping motor (502), a silica gel base (503), a battery (504) and a liquid level sensor (505), the rear left side of the conveyor belt mechanism (501) is rotationally connected with a stepping motor (502) through a rotating shaft, the middle front part of the top end of the conveyor belt mechanism (501) is bonded with the silica gel base (503), a battery (504) is arranged at the rear bottom part in the silica gel base (503), the rear inner top part of the silica gel base (503) is sleeved with a liquid level sensor (505), the bottom of the conveyor belt mechanism (501) is connected with the processing table (1), the bottom of the rear side of the stepping motor (502) is connected with the processing table (1), the upper side is connected with test tube (6) in silica gel base (503), battery (504) and level sensor (505) all are provided with five groups.

3. A bioscience testing device according to claim 2, wherein: the adding mechanism (7) comprises an adding table (701), a cleaning cabin (702), a first electric push rod (703), a baffle (704), a first linear guide rail (705), a dropper (706), a second linear guide rail (707), a support rod (708), a sleeve plate (709) and a sleeve ring (7010), wherein the cleaning cabin (702) is arranged at the bottom of the inner rear side of the adding table (701), the left side of the inner top of the adding table (701) is welded with the first linear guide rail (705), the front side of the inner top of the adding table (701) is welded with the second linear guide rail (707), the inner front bottom of the cleaning cabin (702) is welded with the first electric push rod (703), the top end of the first electric push rod (703) is welded with the baffle (704), the front part of the bottom end of the first linear guide rail (705) is in sliding connection with the dropper (706) through a sliding block, the left side of the bottom end of the second linear guide rail (707) is in sliding connection with the support rod (708) through a sliding, the utility model discloses a test tube, including bracing piece (708), lagging plate (709) middle part and lantern ring (7010) cup joint, add platform (701) surface bottom and be connected with processing platform (1), lantern ring (7010) inside is connected with test tube (6), first linear guide rail (705) and burette (706) all are provided with five groups.

4. A bioscience assay device as in claim 3, wherein: fixture (8) are including bearing frame (801), micro motor (802), second electric putter (803), first sucking disc (804) and second sucking disc (805), bearing frame (801) front bottom is rotated through pivot and micro motor (802) and is connected, bearing frame (801) front end middle part welds with second electric putter (803), second electric putter (803) front end right side carries out bolted connection through fixture block and first sucking disc (804), second electric putter (803) front end left side carries out bolted connection through fixture block and second sucking disc (805), bearing frame (801) rear side is connected with processing platform (1).

5. A bioscience testing device according to claim 4, wherein: the shaking mechanism (9) comprises an electric turntable (901), a third electric push rod (902), a supporting disc (903) and a shaking cabin (904), wherein the front right side of the top end of the electric turntable (901) is connected with the third electric push rod (902) through a nut in a bolt mode, the top end of the third electric push rod (902) is connected with the supporting disc (903) through a nut in a bolt mode, the rear side of the supporting disc (903) is provided with the shaking cabin (904), the outer surface of the electric turntable (901) is connected with the processing table (1), the shaking cabin (904) is provided with five groups, and the groups are respectively and equidistantly installed on the outer ring of the supporting disc (903).

6. A bioscience testing device according to claim 5, wherein: the right side of the silica gel base (503) is open.

7. The bioscience assay device of claim 6, wherein: a plurality of rectangular openings are arranged above the baffle (704).

8. The bioscience assay device of claim 7, wherein: sponge pads are arranged on the top and inside of the outer surface of the shaking cabin (904).

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