A kind of Bioexperiment experimental material high-efficient grinding equipment
Technical field
The present invention relates to a kind of milling apparatus of experimental material more particularly to a kind of Bioexperiment efficiently to be ground with experimental material
Grind equipment.
Background technique
Biology refers to the set of life entity and an object with kinetic energy, and individual biology refers to organism, with
It is abiotic opposite.Its element include: under field conditions (factors), by chemical reaction generate with survival ability and fertility
Lived object and the lived offspring generated by its (or they) by breeding can make accordingly extraneous stimulation
Reaction can interdepend with extraneous environment, mutually promote.Further, it is possible to which substance useless in vivo is discharged, there is heredity and become
Different characteristic.
In Bioexperiment, needing to carry out experimental material grinding just can be carried out experiment, be using artificial in the prior art
Grinding experiment material, experimental material, which can trickle down, in underhand polish large labor intensity, process of lapping causes waste, time-consuming and laborious, because
This need to research and develop a kind of labor intensity is small, in process of lapping experimental material will not trickle down, time saving and energy saving Bioexperiment experiment
Material high-efficient grinding equipment.
Summary of the invention
(1) technical problems to be solved
In order to overcome underhand polish large labor intensity, in process of lapping, experimental material can trickle down and cause waste, expense the present invention
When laborious disadvantage, experimental material is not in a kind of the technical problem to be solved in the present invention is to provide labor intensity small, process of lapping
It can trickle down, time saving and energy saving Bioexperiment experimental material high-efficient grinding equipment.
(2) technical solution
In order to solve the above-mentioned technical problems, the present invention provides such a Bioexperiment to be set with experimental material high-efficient grinding
It is standby, it include bottom plate, supporting leg, bracket, top plate, abrading cylinder, plug, transverse slat, collection frame, rotating device and grinding device, bottom plate
Top is symmetrical to be connected with supporting leg by bolted connection, is connected with and grinds by bolted connection at the top of supporting leg
Cylinder is ground, is connected with collection frame by bolted connection at the top of bottom plate, collection frame is between two supporting legs, bottom plate top left side
It is connected with bracket by bolted connection, bracket is located at supporting leg left, and cradle top connects by bolted connection
There is top plate, top plate bottom is equipped with rotating device, and rotating device is equipped with grinding device, and the grinding component of grinding device is located at grinding
In cylinder, discharge port is provided in abrading cylinder among bottom, is equipped with plug in discharge port, bung's bottom portion connects by bolted connection
It is connected to transverse slat, discharge port and plug cooperate, and discharge port is located at right above collection frame.
Preferably, rotating device includes first motor, pinion gear, first bearing seat, first rotating shaft and gear wheel, top plate
First bearing seat and first motor are connected among bottom by bolted connection, first motor is located at the first bearing seat right side
It is square, pinion gear is connected with by shaft coupling on the output shaft of first motor, the bearing in first bearing seat is by way of interference
It is connected with first rotating shaft, the mode being connected by key in first rotating shaft is connected with gear wheel, and gear wheel is engaged with pinion gear, and first
Shaft end is connected with grinding device.
Preferably, grinding device includes sliding rail, the first sliding block, boundary block, the first spring, connecting rod and mill ball, the
One shaft end is connected with sliding rail, and first rotating shaft end is connect with sliding rail top center by bolted connection, sliding rail bottom
Portion is equipped with the first sliding block and boundary block, and boundary block is located at the first sliding block left, and boundary block right side and the first sliding block left side connect
It is connected to the first spring, the first slider bottom is connected with connecting rod by bolted connection, and connecting rod lower end is connected by bolt
The mode connect is connected with mill ball, and mill ball is located at right in abrading cylinder, and mill ball and abrading cylinder cooperate.
Preferably, further include having scraper, scraper include the second sliding block, second spring, connecting plate, scraper plate and
Third spring, sliding rail bottom left are equipped with the second sliding block, and the second sliding block is located on the left of boundary block, the second sliding block right side and boundary
Second spring is connected between block left side, the second slider bottom is connected with connecting plate, connecting plate by bolted connection
The left in abrading cylinder, connecting plate left side are equipped with scraper plate, the company of being evenly spaced apart between scraper plate right side and connecting plate left side
It is connected to third spring, scraper plate and the grinding inside wall of cylinder are in close contact.
Preferably, further include having shaking device, shaking device include second bearing seat, the second shaft, the first belt pulley,
Flat belt, the second belt pulley and cam, top plate bottom right are connected with second bearing seat, the second axis by bolted connection
It holds seat and is located at first motor right, the bearing in second bearing seat is connected with the second shaft, the second shaft by way of interference
The mode that middle part is connected by key is connected with the second belt pulley, and the mode that key connection is crossed in the middle part of first rotating shaft is connected with the first belt
Wheel, the first belt pulley are connected with flat belt between gear wheel and sliding rail between the first belt pulley and the second belt pulley, and second
The mode that shaft bottom is connected by key is connected with cam, and cam is located at abrading cylinder right.
Preferably, further include there are the first limit block and the second limit block, connected by bolted connection on the left of sliding rail
There is the first limited block, the first limited block is located at the second sliding block left, is connected with second by bolted connection on the right side of sliding rail
Limited block, the second limited block are located at the first sliding block right.
Preferably, further include having the first reinforcing rib, first is equipped between bottom plate top left side and bracket right side lower part and is added
Strengthening tendons, the first reinforcing rib are connected to by bolted connection between bottom plate top left side and bracket right side lower part, and first
Reinforcing rib is located at supporting leg left.
Preferably, further include having the second reinforcing rib, second is equipped between top plate bottom left and bracket right side top and is added
Strengthening tendons, the second reinforcing rib are connected to by bolted connection between top plate bottom left and bracket right side top, and second
Reinforcing rib is located at first bearing seat left.
It preferably, further include having threaded rod, transverse slat is symmetrical to be provided with threaded hole, is equipped with spiral shell vertically in two threaded holes
Rasp bar, threaded rod and threaded hole cooperate, and the abrading cylinder bottom at left and right sides of discharge port is provided with thread groove, threaded rod and thread groove
Cooperation.
Working principle: operator will need grinding experiment material to be put into abrading cylinder, and operator starts rotating device
Rotation, rotating device rotation drive grinding device rotation, and grinding device rotation just grinds experimental material, and grinding finishes
Afterwards, operator closes rotating device, and after rotating device stops completely, operator's pulled down transverse slat, transverse slat drives plug
Son moves down, and operator is swept the experimental material being polished in abrading cylinder using hairbrush after plug completely disengages discharge port
Enter discharge port, experimental material is flowed into collection frame by discharge port, and after experimental material fully flows into collection frame, operator will
Plug is got back into discharge port, and so as to next grinding experiment material, operator takes out experimental material in collection frame and tested i.e.
It can.
Because rotating device includes first motor, pinion gear, first bearing seat, first rotating shaft and gear wheel, top plate bottom
First bearing seat and first motor are connected among portion by bolted connection, first motor is located at the first bearing seat right side
It is square, pinion gear is connected with by shaft coupling on the output shaft of first motor, the bearing in first bearing seat is by way of interference
It is connected with first rotating shaft, the mode being connected by key in first rotating shaft is connected with gear wheel, and gear wheel is engaged with pinion gear, and first
Shaft end is connected with grinding device, so operator starts first motor rotation, first motor rotation drives pinion gear rotation
Turn, pinion gear rotation drives gear wheel rotation, and gear wheel rotation drives first rotating shaft rotation, and first rotating shaft rotation drives grinding dress
The grinding component rotation set.
Because grinding device includes sliding rail, the first sliding block, boundary block, the first spring, connecting rod and mill ball, first turn
Shaft end is connected with sliding rail, and first rotating shaft end is connect with sliding rail top center by bolted connection, and sliding rail bottom is set
There are the first sliding block and boundary block, boundary block is located at the first sliding block left, and boundary block right side is connected with the first sliding block left side
First spring, the first slider bottom are connected with connecting rod by bolted connection, and connecting rod lower end is bolted
Mode is connected with mill ball, and mill ball is located at right in abrading cylinder, and mill ball and abrading cylinder cooperate, so first rotating shaft rotates band
Dynamic sliding rail rotation, sliding rail rotation drive the rotation of the first sliding block, and the rotation of the first sliding block drives connecting rod rotation, and connecting rod rotation drives
Ball rotation is ground, grinding ball rotation grinds experimental material, and mill ball can be close to always grind under the action of the first spring
The inside wall of cylinder is ground, the effect of grinding is improved.
Because further including having scraper, scraper includes the second sliding block, second spring, connecting plate, scraper plate and
Three springs, sliding rail bottom left are equipped with the second sliding block, and the second sliding block is located on the left of boundary block, the second sliding block right side and boundary block
Second spring is connected between left side, the second slider bottom is connected with connecting plate, connecting plate position by bolted connection
In left in abrading cylinder, it is equipped with scraper plate on the left of connecting plate, is evenly spaced apart to connect between scraper plate right side and connecting plate left side
There is third spring, scraper plate and the grinding inside wall of cylinder are in close contact, so sliding rail rotation drives the rotation of the second sliding block, the rotation of the second sliding block
Connecting plate is driven to rotate, connecting plate rotation drives scraper plate rotation, and the scraper rotary change of team will be sticked after grinding in the experiment for grinding the inside wall of cylinder
Material scrapes, and further improves the effect of grinding, and scraper plate can be in close contact with abrading cylinder under the action of third spring, so that
The experimental material of the grinding inside wall of cylinder can be further scraped.
Because further including having shaking device, shaking device includes second bearing seat, the second shaft, the first belt pulley, puts down
Belt, the second belt pulley and cam, top plate bottom right are connected with second bearing seat, second bearing by bolted connection
Seat is located at first motor right, and the bearing in second bearing seat is connected with the second shaft by way of interference, in the second shaft
The mode that portion is connected by key is connected with the second belt pulley, and the mode that key connection is crossed in the middle part of first rotating shaft is connected with the first belt
Wheel, the first belt pulley are connected with flat belt between gear wheel and sliding rail between the first belt pulley and the second belt pulley, and second
The mode that shaft bottom is connected by key is connected with cam, and cam is located at abrading cylinder right, so first rotating shaft rotation drives the
The rotation of one belt pulley, the first belt pulley drive the second belt pulley to rotate by flat belt, and the rotation of the second belt pulley drives second turn
Axis rotation, the second shaft rotation band moving cam rotate, and abrading cylinder can be beaten after cam nose encounters abrading cylinder, so that grinding
It is sticked after mill in the case where the experimental material of the grinding inside wall of cylinder is struck, so that experimental material is more fully ground.
It is connected with the by bolted connection because further including there are the first limit block and the second limit block, on the left of sliding rail
One limited block, the first limited block are located at the second sliding block left, are connected with the second limit by bolted connection on the right side of sliding rail
Block, the second limited block are located at the first sliding block right, can encounter the first limited block when side is mobile so the second sliding block is turned left, and encounter the
After one limited block the second sliding block toward would not left side it is mobile and skid off sliding rail, the second limit can be encountered when the first sliding block turns right mobile
Position block, encounter after the second limited block the first sliding block toward would not right side it is mobile and skid off sliding rail.
Because further including having the first reinforcing rib and the second reinforcing rib, set between bottom plate top left side and bracket right side lower part
Have the first reinforcing rib, the first reinforcing rib be connected to by bolted connection bottom plate top left side and bracket right side lower part it
Between, the first reinforcing rib is located at supporting leg left, so while being equipped with the first reinforcing rib, the present invention when in use can be more stable, can
Improve service life of the invention.
Second is equipped with because further including having the second reinforcing rib, between top plate bottom left and bracket right side top to reinforce
Muscle, the second reinforcing rib are connected to by bolted connection between top plate bottom left and bracket right side top, and second adds
Strengthening tendons are located at first bearing seat left, so while being equipped with the second reinforcing rib, the present invention when in use can be more stable, can be improved
Service life of the invention.
Because further including having threaded rod, transverse slat is symmetrical to be provided with threaded hole, is equipped with screw thread vertically in two threaded holes
Bar, threaded rod and threaded hole cooperate, and the abrading cylinder bottom at left and right sides of discharge port is provided with thread groove, and threaded rod is matched with thread groove
It closes, so operator can turn threaded rod clockwise after plug clogs discharge port, threaded rod up revolves in threaded hole
Turn, when threaded rod screws in thread groove and after rotate motionless, operator stops rotating threaded rod, and plug is fixed by threaded rod
In abrading cylinder outer bottom, so that plug is not fallen out when grinding experiment material, when needing to remove plug, operator can be with the inverse time
Needle turns threaded rod, and threaded rod rotates down in threaded hole, and after threaded rod completely disengages thread groove, operator stops rotation
Turn threaded rod, plug can be removed.
(3) beneficial effect
The present invention drives grinding device to grind the experimental material in abrading cylinder by rotating device, is equipped with scraper and fills
It sets and improves the effect of grinding, be additionally provided with shaking device, further improve the effect of grinding, reached that labor intensity is small, grinds
During mill experimental material will not trickle down, time saving and energy saving effect.
Detailed description of the invention
Fig. 1 is the first schematic view of the front view of the invention.
Fig. 2 is second of schematic view of the front view of the invention.
Fig. 3 is the third schematic view of the front view of the invention.
Fig. 4 is the 4th kind of schematic view of the front view of the invention.
Fig. 5 is the 5th kind of schematic view of the front view of the invention.
Fig. 6 is the enlarged structure schematic diagram of part A of the present invention.
The label in accompanying drawing is: 1- bottom plate, 2- supporting leg, 3- bracket, 4- top plate, 5- abrading cylinder, 6- discharge port, 7- plug,
8- transverse slat, 9- collection frame, 10- rotating device, 11- grinding device, 101- first motor, 102- pinion gear, 103- first bearing
Seat, 104- first rotating shaft, 105- gear wheel, 111- sliding rail, the first sliding block of 112-, 113- boundary block, the first spring of 114-, 115-
Connecting rod, 116- mill ball, 12- scraper, the second sliding block of 121-, 122- second spring, 123- connecting plate, 124- scraper plate,
125- third spring, 13- shaking device, 131- second bearing seat, the second shaft of 132-, the first belt pulley of 133-, the flat skin of 134-
Band, the second belt pulley of 135-, 136- cam, the first limited block of 14-, the second limited block of 15-, the first reinforcing rib of 16-, 17- second
Reinforcing rib, 18- threaded hole, 19- threaded rod, 20- thread groove.
Specific embodiment
The present invention is further illustrated with reference to the accompanying drawings and examples.
Embodiment 1
A kind of Bioexperiment experimental material high-efficient grinding equipment includes as shown in figures 1 to 6 bottom plate 1, supporting leg 2, bracket
3, top plate 4, abrading cylinder 5, plug 7, transverse slat 8, collection frame 9, rotating device 10 and grinding device 11,1 top bilateral symmetry of bottom plate
Be connected with supporting leg 2 by bolted connection, 2 top of supporting leg is connected with abrading cylinder 5, bottom plate by bolted connection
1 top is connected with collection frame 9 by bolted connection, and between two supporting legs 2,1 top left side of bottom plate passes through collection frame 9
Bolted mode is connected with bracket 3, and bracket 3 is located at 2 left of supporting leg, and 3 top of bracket connects by bolted connection
There is top plate 4,4 bottom of top plate is equipped with rotating device 10, and rotating device 10 is equipped with grinding device 11, the grind section of grinding device 11
Part is located in abrading cylinder 5, is provided with discharge port 6 in abrading cylinder 5 among bottom, is equipped with plug 7 in discharge port 6,7 bottom of plug passes through
Bolted mode is connected with transverse slat 8, and discharge port 6 and plug 7 cooperate, and discharge port 6 is located at right above collection frame 9.
Embodiment 2
A kind of Bioexperiment experimental material high-efficient grinding equipment includes as shown in figures 1 to 6 bottom plate 1, supporting leg 2, bracket
3, top plate 4, abrading cylinder 5, plug 7, transverse slat 8, collection frame 9, rotating device 10 and grinding device 11,1 top bilateral symmetry of bottom plate
Be connected with supporting leg 2 by bolted connection, 2 top of supporting leg is connected with abrading cylinder 5, bottom plate by bolted connection
1 top is connected with collection frame 9 by bolted connection, and between two supporting legs 2,1 top left side of bottom plate passes through collection frame 9
Bolted mode is connected with bracket 3, and bracket 3 is located at 2 left of supporting leg, and 3 top of bracket connects by bolted connection
There is top plate 4,4 bottom of top plate is equipped with rotating device 10, and rotating device 10 is equipped with grinding device 11, the grind section of grinding device 11
Part is located in abrading cylinder 5, is provided with discharge port 6 in abrading cylinder 5 among bottom, is equipped with plug 7 in discharge port 6,7 bottom of plug passes through
Bolted mode is connected with transverse slat 8, and discharge port 6 and plug 7 cooperate, and discharge port 6 is located at right above collection frame 9.
Rotating device 10 includes first motor 101, pinion gear 102, first bearing seat 103, first rotating shaft 104 and canine tooth
105 are taken turns, is connected with first bearing seat 103 and first motor 101, the first electricity among 4 bottom of top plate by bolted connection
Machine 101 is located at 103 right of first bearing seat, is connected with pinion gear 102 by shaft coupling on the output shaft of first motor 101, and
Bearing in one bearing block 103 is connected with first rotating shaft 104 by way of interference, is connected by key in first rotating shaft 104
Mode is connected with gear wheel 105, and gear wheel 105 is engaged with pinion gear 102, and 104 end of first rotating shaft is connected with grinding device 11.
Embodiment 3
A kind of Bioexperiment experimental material high-efficient grinding equipment includes as shown in figures 1 to 6 bottom plate 1, supporting leg 2, bracket
3, top plate 4, abrading cylinder 5, plug 7, transverse slat 8, collection frame 9, rotating device 10 and grinding device 11,1 top bilateral symmetry of bottom plate
Be connected with supporting leg 2 by bolted connection, 2 top of supporting leg is connected with abrading cylinder 5, bottom plate by bolted connection
1 top is connected with collection frame 9 by bolted connection, and between two supporting legs 2,1 top left side of bottom plate passes through collection frame 9
Bolted mode is connected with bracket 3, and bracket 3 is located at 2 left of supporting leg, and 3 top of bracket connects by bolted connection
There is top plate 4,4 bottom of top plate is equipped with rotating device 10, and rotating device 10 is equipped with grinding device 11, the grind section of grinding device 11
Part is located in abrading cylinder 5, is provided with discharge port 6 in abrading cylinder 5 among bottom, is equipped with plug 7 in discharge port 6,7 bottom of plug passes through
Bolted mode is connected with transverse slat 8, and discharge port 6 and plug 7 cooperate, and discharge port 6 is located at right above collection frame 9.
Rotating device 10 includes first motor 101, pinion gear 102, first bearing seat 103, first rotating shaft 104 and canine tooth
105 are taken turns, is connected with first bearing seat 103 and first motor 101, the first electricity among 4 bottom of top plate by bolted connection
Machine 101 is located at 103 right of first bearing seat, is connected with pinion gear 102 by shaft coupling on the output shaft of first motor 101, and
Bearing in one bearing block 103 is connected with first rotating shaft 104 by way of interference, is connected by key in first rotating shaft 104
Mode is connected with gear wheel 105, and gear wheel 105 is engaged with pinion gear 102, and 104 end of first rotating shaft is connected with grinding device 11.
Grinding device 11 includes sliding rail 111, the first sliding block 112, boundary block 113, the first spring 114,115 and of connecting rod
Mill ball 116,104 end of first rotating shaft are connected with sliding rail 111,104 end of first rotating shaft by bolted connection with cunning
The connection of 111 top center of rail, 111 bottom of sliding rail are equipped with the first sliding block 112 and boundary block 113, and boundary block 113 is located at the first sliding block
112 lefts, boundary 113 right side of block and 112 left side of the first sliding block are connected with the first spring 114, and 112 bottom of the first sliding block is logical
It crosses bolted mode and is connected with connecting rod 115,115 lower end of connecting rod is connected with mill ball by bolted connection
116, mill ball 116 is located at right in abrading cylinder 5, and mill ball 116 and abrading cylinder 5 cooperate.
Embodiment 4
A kind of Bioexperiment experimental material high-efficient grinding equipment includes as shown in figures 1 to 6 bottom plate 1, supporting leg 2, bracket
3, top plate 4, abrading cylinder 5, plug 7, transverse slat 8, collection frame 9, rotating device 10 and grinding device 11,1 top bilateral symmetry of bottom plate
Be connected with supporting leg 2 by bolted connection, 2 top of supporting leg is connected with abrading cylinder 5, bottom plate by bolted connection
1 top is connected with collection frame 9 by bolted connection, and between two supporting legs 2,1 top left side of bottom plate passes through collection frame 9
Bolted mode is connected with bracket 3, and bracket 3 is located at 2 left of supporting leg, and 3 top of bracket connects by bolted connection
There is top plate 4,4 bottom of top plate is equipped with rotating device 10, and rotating device 10 is equipped with grinding device 11, the grind section of grinding device 11
Part is located in abrading cylinder 5, is provided with discharge port 6 in abrading cylinder 5 among bottom, is equipped with plug 7 in discharge port 6,7 bottom of plug passes through
Bolted mode is connected with transverse slat 8, and discharge port 6 and plug 7 cooperate, and discharge port 6 is located at right above collection frame 9.
Rotating device 10 includes first motor 101, pinion gear 102, first bearing seat 103, first rotating shaft 104 and canine tooth
105 are taken turns, is connected with first bearing seat 103 and first motor 101, the first electricity among 4 bottom of top plate by bolted connection
Machine 101 is located at 103 right of first bearing seat, is connected with pinion gear 102 by shaft coupling on the output shaft of first motor 101, and
Bearing in one bearing block 103 is connected with first rotating shaft 104 by way of interference, is connected by key in first rotating shaft 104
Mode is connected with gear wheel 105, and gear wheel 105 is engaged with pinion gear 102, and 104 end of first rotating shaft is connected with grinding device 11.
Grinding device 11 includes sliding rail 111, the first sliding block 112, boundary block 113, the first spring 114,115 and of connecting rod
Mill ball 116,104 end of first rotating shaft are connected with sliding rail 111,104 end of first rotating shaft by bolted connection with cunning
The connection of 111 top center of rail, 111 bottom of sliding rail are equipped with the first sliding block 112 and boundary block 113, and boundary block 113 is located at the first sliding block
112 lefts, boundary 113 right side of block and 112 left side of the first sliding block are connected with the first spring 114, and 112 bottom of the first sliding block is logical
It crosses bolted mode and is connected with connecting rod 115,115 lower end of connecting rod is connected with mill ball by bolted connection
116, mill ball 116 is located at right in abrading cylinder 5, and mill ball 116 and abrading cylinder 5 cooperate.
Further include having scraper 12, scraper 12 include the second sliding block 121, second spring 122, connecting plate 123,
Scraper plate 124 and third spring 125,111 bottom left of sliding rail are equipped with the second sliding block 121, and the second sliding block 121 is located at boundary block 113
Left side is connected with second spring 122,121 bottom of the second sliding block between 121 right side of the second sliding block and boundary 113 left side of block
It is connected with connecting plate 123 by bolted connection, connecting plate 123 is located at left in abrading cylinder 5, sets on the left of connecting plate 123
There is scraper plate 124,124 right side of scraper plate and connecting plate are evenly spaced apart to be connected with third spring 125, scraper plate between 123 left side
124 are in close contact with 5 inner wall of abrading cylinder.
It further include having shaking device 13, shaking device 13 includes second bearing seat 131, the second shaft 132, the first belt
Wheel 133, flat belt 134, the second belt pulley 135 and cam 136,4 bottom right of top plate are connected with by bolted connection
Second bearing seat 131, second bearing seat 131 are located at 101 right of first motor, and the bearing in second bearing seat 131 passes through interference
Mode be connected with the second shaft 132, the mode being connected by key in the middle part of the second shaft 132 is connected with the second belt pulley 135,
The mode that key connection is crossed in the middle part of one shaft 104 is connected with the first belt pulley 133, and the first belt pulley 133 is located at gear wheel 105 and slides
Between rail 111, flat belt 134 is connected between the first belt pulley 133 and the second belt pulley 135,132 bottom of the second shaft passes through
The mode of key connection is connected with cam 136, and cam 136 is located at 5 right of abrading cylinder.
It further include having the first limited block 14 and the second limited block 15,111 left side of sliding rail connects by bolted connection
There is the first limited block 14, the first limited block 14 is located at 121 left of the second sliding block, and 111 right side of sliding rail is by bolted connection
It is connected with the second limited block 15, the second limited block 15 is located at 112 right of the first sliding block.
Further include having the first reinforcing rib 16, the first reinforcing rib is equipped between 3 right side lower part of 1 top left side of bottom plate and bracket
16, the first reinforcing rib 16 is connected to by bolted connection between 3 right side lower part of 1 top left side of bottom plate and bracket, the
One reinforcing rib 16 is located at 2 left of supporting leg.
Further include having the second reinforcing rib 17, the second reinforcing rib is equipped between 3 right side top of 4 bottom left of top plate and bracket
17, the second reinforcing rib 17 is connected to by bolted connection between 3 right side top of 4 bottom left of top plate and bracket, the
Two reinforcing ribs 17 are located at 103 left of first bearing seat.
It further include having threaded rod 19, transverse slat 8 is symmetrical to be provided with threaded hole 18, is equipped with spiral shell vertically in two threaded holes 18
Rasp bar 19, threaded rod 19 and threaded hole 18 cooperate, and 5 bottom of abrading cylinder of 6 left and right sides of discharge port is provided with thread groove 20, screw thread
Bar 19 and thread groove 20 cooperate.
Working principle: operator will need grinding experiment material to be put into abrading cylinder 5, and operator starts rotating device
10 rotations, the rotation of rotating device 10 drive grinding device 11 to rotate, and the rotation of grinding device 11 just grinds experimental material, grind
After mill, operator closes rotating device 10, after rotating device 10 stops completely, operator's pulled down transverse slat 8,
Transverse slat 8 drives plug 7 to move down, and operator will be ground using hairbrush in abrading cylinder 5 after plug 7 completely disengages discharge port 6
The experimental material of milled is swept into discharge port 6, and experimental material is flowed into collection frame 9 by discharge port 6, and experimental material fully flows into
After collection frame 9, operator gets back into plug 7 in discharge port 6, and so as to next grinding experiment material, operator, which takes out, to be collected
Experimental material is tested in frame 9.
Because rotating device 10 includes first motor 101, pinion gear 102, first bearing seat 103,104 and of first rotating shaft
Gear wheel 105 is connected with first bearing seat 103 and first motor 101 among 4 bottom of top plate by bolted connection, and
One motor 101 is located at 103 right of first bearing seat, is connected with pinion gear by shaft coupling on the output shaft of first motor 101
102, the bearing in first bearing seat 103 is connected with first rotating shaft 104 by way of interference, passes through key in first rotating shaft 104
The mode of connection is connected with gear wheel 105, and gear wheel 105 is engaged with pinion gear 102, and 104 end of first rotating shaft is connected with grinding
Device 11, so operator starts first motor 101 and rotates, the rotation of first motor 101 drives pinion gear 102 to rotate, small tooth
102 rotation of wheel drives gear wheel 105 to rotate, and the rotation of gear wheel 105 drives first rotating shaft 104 to rotate, and first rotating shaft 104 rotates band
The grinding component rotation of dynamic grinding device 11.
Because grinding device 11 includes sliding rail 111, the first sliding block 112, boundary block 113, the first spring 114, connecting rod
115 and mill ball 116,104 end of first rotating shaft be connected with sliding rail 111,104 end of first rotating shaft is by bolted connection
It is connect with 111 top center of sliding rail, 111 bottom of sliding rail is equipped with the first sliding block 112 and boundary block 113, and boundary block 113 is located at first
112 left of sliding block, boundary 113 right side of block and 112 left side of the first sliding block are connected with the first spring 114,112 bottom of the first sliding block
Portion is connected with connecting rod 115 by bolted connection, and 115 lower end of connecting rod is connected with grinding by bolted connection
Ball 116, mill ball 116 are located at right in abrading cylinder 5, and mill ball 116 and abrading cylinder 5 cooperate, so first rotating shaft 104 rotates band
Dynamic sliding rail 111 rotates, and the rotation of sliding rail 111 drives the rotation of the first sliding block 112, and the rotation of the first sliding block 112 drives connecting rod 115 to revolve
Turn, the rotation of connecting rod 115 drives mill ball 116 to rotate, and experimental material is ground in the rotation of mill ball 116, in the first spring
Mill ball 116 can be close to always 5 inner wall of abrading cylinder under the action of 114, improve the effect of grinding.
Because further including having scraper 12, scraper 12 includes the second sliding block 121, second spring 122, connecting plate
123, scraper plate 124 and third spring 125,111 bottom left of sliding rail are equipped with the second sliding block 121, and the second sliding block 121 is located at boundary block
113 left sides are connected with second spring 122,121 bottom of the second sliding block between 121 right side of the second sliding block and boundary 113 left side of block
Portion is connected with connecting plate 123 by bolted connection, and connecting plate 123 is located at left in abrading cylinder 5,123 left side of connecting plate
Equipped with scraper plate 124,124 right side of scraper plate and connecting plate are evenly spaced apart to be connected with third spring 125 between 123 left side, scrape
Plate 124 and 5 inner wall of abrading cylinder are in close contact, so the rotation of sliding rail 111 drives the rotation of the second sliding block 121, the rotation of the second sliding block 121
Connecting plate 123 is driven to rotate, the rotation of connecting plate 123 drives scraper plate 124 to rotate, and the rotation of scraper plate 124 can ground sticking after grinding
The experimental material of 5 inner wall of cylinder scrapes, and further improves the effect of grinding, and scraper plate 124 can be under the action of third spring 125
Abrading cylinder 5 is in close contact, and the experimental material of 5 inner wall of abrading cylinder is further scraped.
Because further including having shaking device 13, shaking device 13 includes second bearing seat 131, the second shaft 132, first
Belt pulley 133, flat belt 134, the second belt pulley 135 and cam 136,4 bottom right of top plate connect by bolted connection
It is connected to second bearing seat 131, second bearing seat 131 is located at 101 right of first motor, and the bearing in second bearing seat 131 passes through
The mode of interference is connected with the second shaft 132, and the mode being connected by key in the middle part of the second shaft 132 is connected with the second belt pulley
135, the mode that key connection is crossed in the middle part of first rotating shaft 104 is connected with the first belt pulley 133, and the first belt pulley 133 is located at gear wheel
Between 105 and sliding rail 111, flat belt 134, the second shaft 132 are connected between the first belt pulley 133 and the second belt pulley 135
The mode that bottom is connected by key is connected with cam 136, and cam 136 is located at 5 right of abrading cylinder, so first rotating shaft 104 rotates
The first belt pulley 133 is driven to rotate, the first belt pulley 133 drives the rotation of the second belt pulley 135, the second skin by flat belt 134
The rotation of belt wheel 135 drives the rotation of the second shaft 132, and the second shaft 132 rotation band moving cam 136 rotates, when 136 nose of cam touches
Abrading cylinder 5 can be beaten after to abrading cylinder 5, so that sticking after grinding in the case where the experimental material of 5 inner wall of abrading cylinder is struck, so that experiment
Material is more fully ground.
Because further including having the first limited block 14 and the second limited block 15,111 left side of sliding rail is by bolted connection
It is connected with the first limited block 14, the first limited block 14 is located at 121 left of the second sliding block, is bolted on the right side of sliding rail 111
Mode is connected with the second limited block 15, and the second limited block 15 is located at 112 right of the first sliding block, so the second sliding block 121 is toward left side
The first limited block 14 can be encountered when mobile, encounter after the first limited block 14 second sliding block 121 toward would not left side it is mobile and skid off
Sliding rail 111, the first sliding block 112 can encounter the second limited block 15 when turning right mobile, encounter the first sliding block after the second limited block 15
112 toward would not right side it is mobile and skid off sliding rail 111.
Because further including having the first reinforcing rib 16 and the second reinforcing rib 17,1 top left side of bottom plate and 3 right side lower part of bracket
Between be equipped with the first reinforcing rib 16, the first reinforcing rib 16 is connected to 1 top left side of bottom plate and bracket 3 by bolted connection
Between the lower part of right side, the first reinforcing rib 16 is located at 2 left of supporting leg, so while being equipped with the first reinforcing rib 16, the present invention makes
Used time can be more stable, and service life of the invention can be improved.
Second is equipped with because further including having the second reinforcing rib 17, between 3 right side top of 4 bottom left of top plate and bracket to add
Strengthening tendons 17, the second reinforcing rib 17 be connected to by bolted connection 4 bottom left of top plate and 3 right side top of bracket it
Between, the second reinforcing rib 17 is located at 103 left of first bearing seat, so while being equipped with the second reinforcing rib 17, the present invention is when in use
Can be more stable, service life of the invention can be improved.
Because further including having threaded rod 19, transverse slat 8 is symmetrical to be provided with threaded hole 18, sets vertically in two threaded holes 18
There is threaded rod 19, threaded rod 19 and threaded hole 18 cooperate, and 5 bottom of abrading cylinder of 6 left and right sides of discharge port is provided with thread groove 20,
Threaded rod 19 and thread groove 20 cooperate, so operator can turn threaded rod 19 clockwise after plug 7 clogs discharge port 6,
Threaded rod 19 up rotates in threaded hole 18, and after threaded rod 19 screws in thread groove 20 and rotates motionless, operator stops
Only rotating threaded rod 19, plug 7 are fixed on 5 outer bottom of abrading cylinder by threaded rod 19, so that plug 7 is not when grinding experiment material
It can fall, when needing to remove plug 7, operator can turn threaded rod 19 counterclockwise, and threaded rod 19 is past in threaded hole 18
Lower rotation, after threaded rod 19 completely disengages thread groove 20, operator stops rotating threaded rod 19, can remove plug 7.
The preferred embodiment of the present invention above described embodiment only expresses, the description thereof is more specific and detailed, but simultaneously
Limitations on the scope of the patent of the present invention therefore cannot be interpreted as.It should be pointed out that for those of ordinary skill in the art
For, without departing from the inventive concept of the premise, several deformations can also be made, improves and substitutes, these belong to this hair
Bright protection scope.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.