CN108507861A - A kind of preparation of samples device for laser scanning co-focusing fluorescence microscope - Google Patents
A kind of preparation of samples device for laser scanning co-focusing fluorescence microscope Download PDFInfo
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- CN108507861A CN108507861A CN201810708285.2A CN201810708285A CN108507861A CN 108507861 A CN108507861 A CN 108507861A CN 201810708285 A CN201810708285 A CN 201810708285A CN 108507861 A CN108507861 A CN 108507861A
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- block
- sliding
- fixedly connected
- sample
- fan
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01N—INVESTIGATING OR ANALYSING MATERIALS BY DETERMINING THEIR CHEMICAL OR PHYSICAL PROPERTIES
- G01N1/00—Sampling; Preparing specimens for investigation
- G01N1/28—Preparing specimens for investigation including physical details of (bio-)chemical methods covered elsewhere, e.g. G01N33/50, C12Q
- G01N1/38—Diluting, dispersing or mixing samples
Abstract
The present invention relates to fluorescence microscopy fields, in particular it is a kind of preparation of samples device for laser scanning co-focusing fluorescence microscope, carrier is shaken including fixed seat, driving device, oscillating control device and sample, the driving device and oscillating control device is fixedly connected in fixed seat, oscillating control device is slidably connected on the drive means, and sample shakes the rear end that carrier is fixedly connected on driving device;Beneficial effects of the present invention are the equipment that can be stirred automatically to sample in the case where light is dark, and sample is made fully to merge, while convenient for that the aerial overlong time of sample can be avoided to influence observation data at the first time to sample collection and observation.
Description
Technical field
The present invention relates to fluorescence microscopy fields, be in particular it is a kind of be used for laser scanning co-focusing fluorescence microscope
Preparation of samples device.
Background technology
The operation of usual laser scanning co-focusing fluorescence microscope and use environment light are all extremely dark, are unfavorable for sample
Sampling, be then easy to observe result by environment institute pollution effect if sampling in advance;Spy design it is a kind of can be dark in light
In the case of sample is stirred automatically equipment, so that sample is fully merged, while convenient for that can be adopted at the first time to sample
Collection and observation avoid the aerial overlong time of sample from influencing observation data.
Invention content
The object of the present invention is to provide a kind of preparation of samples devices for laser scanning co-focusing fluorescence microscope, have
Beneficial effect is the equipment that can be stirred automatically to sample in the case where light is dark, so that sample is fully merged, simultaneously
Convenient for that the aerial overlong time of sample can be avoided to influence observation data at the first time to sample collection and observation..
The purpose of the present invention is achieved through the following technical solutions:
The object of the present invention is to provide a kind of preparation of samples devices for laser scanning co-focusing fluorescence microscope, including
Fixed seat, driving device, oscillating control device and sample shake carrier, and the driving device and oscillating control device are fixed
It is connected in fixed seat, oscillating control device is slidably connected on the drive means, and sample shakes carrier and is fixedly connected on driving dress
The rear end set.
As further optimization of the invention, a kind of preparation of samples for laser scanning co-focusing fluorescence microscope fills
It sets, the fixed seat includes that bottom plate, support riser, two hinged fixed blocks, rotation axis and motor fixing hole, support riser are solid
Surely it is connected to the front end of bottom plate, two hinged fixed blocks are fixedly connected on bottom plate, and rotation axis is rotatably connected on two and is hinged
On fixed block, motor fixing hole setting is on support riser.
As further optimization of the invention, a kind of preparation of samples for laser scanning co-focusing fluorescence microscope fills
It sets, the driving device includes driving motor, bull stick, hinge bar, fan-shaped driving plate, sliding rack, rack sliding groove, block
Sliding groove, driving gear, drive shaft and rotation circular hole, driving motor are fixedly connected in motor fixing hole, the lower end of bull stick
It is fixedly connected on the transmission shaft of driving motor, the rear side of the upper end of bull stick is hinged the right end of hinge bar, the left end hinge of hinge bar
It is connected on the middle-end of fan-shaped driving plate front end face, rack sliding groove is front and back through the upper end of fan-shaped driving plate, the lower end of sliding rack
It is slidably connected in rack sliding groove, block sliding groove is arranged in the upper end of fan-shaped driving plate, and block sliding groove is arranged in rack
The rear end of sliding groove, the front end of drive shaft are fixedly connected on the rear end of support riser, and driving gear is fixedly connected on driving and turns
On axis, the lower end of gear is driven to be meshed with sliding rack, rotation circular hole is arranged in the lower end of fan-shaped driving plate, before rotating circular hole
Run through fan-shaped driving plate afterwards, rotation axis is fixedly connected in rotation circular hole, rotation circular hole be arranged at two hinged fixed block it
Between.
As further optimization of the invention, a kind of preparation of samples for laser scanning co-focusing fluorescence microscope fills
It sets, the oscillating control device includes fan-shaped moving block, sliding groove, multiple fixing grooves, lower fixed circular hole and adjusts fixed dress
It sets, sliding groove is front and back through the upper end of fan-shaped moving block, and multiple fixing grooves are uniformly arranged on the rear end of fan-shaped moving block, Duo Gegu
Determine slot to be connected to sliding groove, lower fixed circular hole is arranged in the lower end of fan-shaped moving block, and lower fixed circular hole is front and back to be turned through fan-shaped
The rear end of motion block, rotation axis is fixedly connected in lower fixed circular hole, is adjusted there are two fixing device settings, and two adjust fixed dress
It sets and is slidably connected in sliding groove, the front end of two adjusting fixing devices is slidably connected in block sliding groove.
As further optimization of the invention, a kind of preparation of samples for laser scanning co-focusing fluorescence microscope fills
It sets, the adjusting fixing device includes sliding block, connection slide-bar, blocking fixed block, pull lever, block and spring, sliding
The lower end of block is slidably connected in block sliding groove, and the rear end of sliding block is fixedly connected with connection slide-bar, connection slide-bar sliding
It is connected in sliding groove, blocking fixed block is slidably connected on connection slide-bar, and blocking fixed block clearance fit is drawn in fixing groove
The front end of lever is fixedly connected on blocking fixed block, and pull lever is slidably connected in block, and block is fixedly connected on connection and slides
The right end of axis, spring are socketed on connection slide-bar, and spring setting is between blocking fixed block and block.
As further optimization of the invention, a kind of preparation of samples for laser scanning co-focusing fluorescence microscope fills
It sets, it includes sample carrier shell, overhead gage, sliding fixed block, sliding notch, shell inside groove, two companies that the sample, which shakes carrier,
Logical circular hole, two control lever shafts, two resetting springs, inserts plate washer, sliding pushing block, rectangle port, sample carry at manual control lever
Glass platform, two protection plate washers, push plate and drop handle, the front end of sample carrier shell are fixedly connected in drive shaft, and overhead gage is logical
It crosses to be screwed and is connected to the upper end of sample carrier shell, sliding fixed block is fixedly connected in sample carrier shell, and sliding notch is set
It sets on sliding fixed block and sample carrier shell, for sliding notch up and down through sliding fixed block, sliding notch is front and back to run through sample
The rear side of carrier shell shell, shell inside groove are arranged in the shell on rear side of sample carrier shell, shell inside groove connection sliding notch, two companies
Logical circular hole runs through overhead gage, and two connection circular holes are connected to shell inside groove, and the upper end of two control lever shafts is fixedly connected with manual control
The lower end of bar processed, two control lever shaft difference clearance fits are connected at two in circular hole, and the upper end for inserting plate washer is fixedly connected with two
Control lever shaft, slotting plate washer are slidably connected in shell inside groove, and two resetting springs are socketed in respectively on two control lever shafts, two reset bullets
Spring is arranged between the upper end and slotting plate washer of shell inside groove inner wall, and sliding pushing block is slidably connected on sliding fixed block, rectangle
For port up and down through sliding pushing block, the right end of sample carry glass platform is fixedly connected on the right end of rectangle port inner wall, slides
There are two elongated slot, two elongated slots are connected to rectangle port for setting on pushing block, and two protection plate washers are slidably connected at two respectively
In elongated slot, two protection plate washers are separately positioned on the both sides up and down of sample carry glass platform, and push plate is fixedly connected on two protections
The right end of plate washer, drop handle are fixedly connected on the upper end of push plate.
Using technical solution provided by the invention, compared with prior art, have the advantages that as fixed seat, driving
Device, oscillating control device and sample shake carrier and can be set automatically to what sample was stirred in the case where light is dark
It is standby, so that sample is fully merged, while convenient for the aerial time mistake of sample can be avoided at the first time to sample collection and observation
It is long to influence observation data.
Description of the drawings
Fig. 1 is the whole structural schematic diagram one of the present invention;
Fig. 2 is the whole structural schematic diagram two of the present invention;
Fig. 3 is the structural schematic diagram of the fixed seat of the present invention;
Fig. 4 is the structural schematic diagram one of inventive drive means;
Fig. 5 is the structural schematic diagram two of inventive drive means;
Fig. 6 is the structural schematic diagram three of inventive drive means;
Fig. 7 is the structural schematic diagram one of the oscillating control device of the present invention;
Fig. 8 is the structural schematic diagram two of the oscillating control device of the present invention;
Fig. 9 is the structural schematic diagram three of the oscillating control device of the present invention;
Figure 10 is that the sample of the present invention shakes the structural schematic diagram one of carrier;
Figure 11 is that the sample of the present invention shakes the structural schematic diagram two of carrier;
Figure 12 is that the sample of the present invention shakes the structural schematic diagram three of carrier;
Figure 13 is that the sample of the present invention shakes the structural schematic diagram four of carrier.
In figure:Fixed seat 1;Bottom plate 1-1;Support riser 1-2;Hinged fixed block 1-3;Rotation axis 1-4;Motor fixing hole 1-
5;Driving device 2;Driving motor 2-1;Bull stick 2-2;Hinge bar 2-3;Fan-shaped driving plate 2-4;Sliding rack 2-5;Rack slides
Slot 2-6;Block sliding groove 2-7;Drive gear 2-8;Drive shaft 2-9;Rotate circular hole 2-10;Oscillating control device 3;Sector turns
Motion block 3-1;Sliding groove 3-2;Fixing groove 3-3;Lower fixed circular hole 3-4;Adjust fixing device 3-5;Sliding block 3-5-1;Connection
Slide-bar 3-5-2;Stop fixed block 3-5-3;Pull lever 3-5-4;Block 3-5-5;Spring 3-5-6;Sample shakes carrier 4;Sample
Carrier shell 4-1;Overhead gage 4-2;Slide fixed block 4-3;Slide notch 4-4;Shell inside groove 4-5;It is connected to circular hole 4-6;It manually controls
Bar 4-7;Control lever shaft 4-8;Resetting spring 4-9;Insert plate washer 4-10;Slide pushing block 4-11;Rectangle port 4-12;Sample carry glass
Glass platform 4-13;Protect plate washer 4-14;Push plate 4-15;Drop handle 4-16.
Specific implementation mode
Invention is further described in detail below in conjunction with the accompanying drawings.
Being fixedly connected described in the present apparatus refers to being fixed by the modes such as weld, be screwed, in conjunction with different
Use environment uses different fixed forms;The rotation connection refers to by drying bearing inner race on axis, outside bearing
Ring gap coordinate in axis hole, spring catch ring recess is provided on axis or axis hole, by by circlip card spring catch ring recess
It realizes the axial restraint of bearing, realizes rotation;The riveting is beaten or punch rivet by beaing or punch rivet end
End or tip make upsetting portion or tip make to be upset as head, concentrate the full capacity on, and metal object is connected together with rivet;It is equal at required sealing
It is that sealing is realized by sealing ring or O-ring.
Specific implementation mode one:
As shown in Fig. 1~Figure 13, a kind of preparation of samples device for laser scanning co-focusing fluorescence microscope, including it is solid
Reservation 1, driving device 2, oscillating control device 3 and sample shake carrier 4, and the driving device 2 and oscillating control device 3 are equal
It is fixedly connected in fixed seat 1, oscillating control device 3 is slidably connected in driving device 2, and sample shakes carrier 4 and is fixedly connected
In the rear end of driving device 2.Driving device 2 drives 3 double swerve of oscillating control device, driving device 2 that sample is driven to shake dynamic load
Body 4 is alternately rotated, and keeps sample fusion faster and better, while can be adjusted sample by oscillating control device 3 and be shaken carrier 4
Slosh cycle, and then shaking amplitude and period are adjusted, and then ensure that sample shakes the fusion and storage of carrier 4, by that will protect
The sample that barrier sample shakes in carrier 4 carries out shaking fusion, can take out the sample after fusion at the first time, be placed on laser scanning
It is observed on the measuring platform of confocal fluorescent microscopic.
Specific implementation mode two:
As shown in Fig. 1~Figure 13, present embodiment is described further embodiment one, and the fixed seat 1 includes
Bottom plate 1-1, support riser 1-2, two hinged fixed block 1-3, rotation axis 1-4 and motor fixing hole 1-5, support riser 1-2 are solid
Surely it is connected to the front end of bottom plate 1-1, two hinged fixed block 1-3 are fixedly connected on bottom plate 1-1, and rotation axis 1-4 rotations connect
It is connected on two hinged fixed block 1-3, motor fixing hole 1-5 settings are on support riser 1-2.
Specific implementation mode three:
As shown in Fig. 1~Figure 13, present embodiment is described further embodiment two, the driving device 2 packet
Include driving motor 2-1, bull stick 2-2, hinge bar 2-3, fan-shaped driving plate 2-4, sliding rack 2-5, rack sliding groove 2-6, block
Sliding groove 2-7, gear 2-8, drive shaft 2-9 are driven and rotates circular hole 2-10, driving motor 2-1 is fixedly connected on motor and fixes
In the 1-5 of hole, the lower end of bull stick 2-2 is fixedly connected on the transmission shaft of driving motor 2-1, and the rear side of the upper end of bull stick 2-2 is hinged
The right end of hinge bar 2-3, the left end of hinge bar 2-3 are hinged on the middle-end of fan-shaped driving plate 2-4 front end faces, rack sliding groove 2-6
Front and back through the upper end of sector driving plate 2-4, the lower end of sliding rack 2-5 is slidably connected in rack sliding groove 2-6, and block is slided
Dynamic slot 2-7 is arranged in the upper end of fan-shaped driving plate 2-4, and block sliding groove 2-7 is arranged in the rear end of rack sliding groove 2-6, driving
The front end of shaft 2-9 is fixedly connected on the rear end of support riser 1-2, and driving gear 2-8 is fixedly connected on drive shaft 2-9,
The lower end of driving gear 2-8 is meshed with sliding rack 2-5, and rotation circular hole 2-10 is arranged in the lower end of fan-shaped driving plate 2-4, turns
Front and back being fixedly connected in rotation circular hole 2-10 through fan-shaped driving plate 2-4, rotation axis 1-4 of dynamic circular hole 2-10, rotates circular hole
2-10 is arranged at two between hinged fixed block 1-3.
Specific implementation mode four:
As shown in Fig. 1~Figure 13, present embodiment is described further embodiment three, the oscillating control device
3 include fan-shaped moving block 3-1, sliding groove 3-2, multiple fixing groove 3-3, lower fixed circular hole 3-4 and adjusting fixing device 3-5, is slided
Dynamic slot 3-2 is front and back through the upper end of fan-shaped moving block 3-1, after multiple fixing groove 3-3 are uniformly arranged on fan-shaped moving block 3-1
End, multiple fixing groove 3-3 are connected to sliding groove 3-2, and lower fixed circular hole 3-4 is arranged in the lower end of fan-shaped moving block 3-1, lower solid
Determine the front and back rear ends for running through fan-shaped moving block 3-1, rotation axis 1-4 circular hole 3-4 to be fixedly connected in lower fixed circular hole 3-4, adjust
There are two fixing device 3-5 settings, and two adjust fixing device 3-5 and are slidably connected in sliding groove 3-2, and two adjust fixation
The front end of device 3-5 is slidably connected in block sliding groove 2-7.
Specific implementation mode five:
As shown in Fig. 1~Figure 13, present embodiment is described further embodiment four, the adjusting fixing device
3-5 includes sliding block 3-5-1, connection slide-bar 3-5-2, blocking fixed block 3-5-3, pull lever 3-5-4, block 3-5-5 and bullet
The lower end of spring 3-5-6, sliding block 3-5-1 are slidably connected in block sliding groove 2-7, and the rear end of sliding block 3-5-1 is fixed
Connection connection slide-bar 3-5-2, connects slide-bar 3-5-2 and is slidably connected in sliding groove 3-2, and blocking fixed block 3-5-3 is slidably connected
On connection slide-bar 3-5-2, blocking fixed block 3-5-3 clearance fits in fixing groove 3-3, fix by the front end of pull lever 3-5-4
It is connected on blocking fixed block 3-5-3, pull lever 3-5-4 is slidably connected in block 3-5-5, and block 3-5-5 is fixedly connected on
The right end of slide-bar 3-5-2 is connected, spring 3-5-6 is socketed on connection slide-bar 3-5-2, and spring 3-5-6 settings are in blocking fixed block
Between 3-5-3 and block 3-5-5.
Specific implementation mode six:
As shown in Fig. 1~Figure 13, present embodiment is described further embodiment five, and the sample shakes carrier
4 include sample carrier shell 4-1, overhead gage 4-2, sliding fixed block 4-3, sliding notch 4-4, shell inside groove 4-5, two connection circular holes
4-6, manual control lever 4-7, two control lever shaft 4-8, two resetting spring 4-9, plate washer 4-10, sliding pushing block 4-11, square are inserted
Shape port 4-12, sample carry glass platform 4-13, two protection plate washer 4-14, push plate 4-15 and drop handle 4-16, sample carrier shell
The front end of 4-1 is fixedly connected on drive shaft 2-9, and overhead gage 4-2, which is threadably secured, is connected to the upper of sample carrier shell 4-1
End, sliding fixed block 4-3 are fixedly connected in sample carrier shell 4-1, and the 4-4 settings of sliding notch are in sliding fixed block 4-3 and sample
On product carrier shell 4-1, for sliding notch 4-4 or more through sliding fixed block 4-3, sliding notch 4-4 is front and back to run through sample carrier shell
The rear side of 4-1 shells, shell inside groove 4-5 are arranged in the shell on rear side of sample carrier shell 4-1, shell inside groove 4-5 connection sliding notches
4-4, two connection circular hole 4-6 run through overhead gage 4-2, two connection circular hole 4-6 and are connected to shell inside groove 4-5, two control lever shafts
The upper end of 4-8 is fixedly connected with the lower end of manual control lever 4-7, and two control lever shaft 4-8 difference clearance fits are connected to circle at two
In the 4-6 of hole, the upper end for inserting plate washer 4-10 is fixedly connected with two control lever shaft 4-8, inserts plate washer 4-10 and is slidably connected at shell inside groove 4-5
Interior, two resetting spring 4-9 are socketed in respectively on two control lever shaft 4-8, and two resetting spring 4-9 are arranged at shell inside groove 4-5
Between the upper end of inner wall and slotting plate washer 4-10, sliding pushing block 4-11 is slidably connected on sliding fixed block 4-3, rectangle port 4-
About 12 are fixedly connected on rectangle port 4-12 inner walls through sliding pushing block 4-11, the right end of sample carry glass platform 4-13
Right end, sliding setting on pushing block 4-11, there are two elongated slot, two elongated slots are connected to rectangle port 4-12, two protection plate washer 4-
14 are slidably connected at respectively in two elongated slots, and two protection plate washer 4-14 are separately positioned on the upper and lower of sample carry glass platform 4-13
Both sides, push plate 4-15 are fixedly connected on the right end of two protection plate washer 4-14, and drop handle 4-16 is fixedly connected on the upper of push plate 4-15
End.
The operation principle of the present invention is that:Driving motor 2-1 connects electricity when use, and driving motor 2-1 is made to drive bull stick 2-2 rotations
Turn, and then drive hinge bar 2-3 and fan-shaped driving plate 2-4 or so shift reciprocately, while the rotation circular hole 2- of fan-shaped driving plate 2-4
10 are fixed on rotation axis 1-4, and then make the reciprocal left and right alternate rotations of fan-shaped driving plate 2-4, because under oscillating control device 3
End is fixedly connected on rotation axis 1-4, and then oscillating control device 3 and sector driving plate 2-4 are moved synchronously, when fan-shaped driving
Plate 2-4 displacements to the right, sliding rack 2-5 are driven the blocking of gear 2-8, make sliding rack 2-5 on rack sliding groove 2-6
To left dislocation, drive shaft 2-9 is of short duration to stop operating, when the left end of sliding rack 2-5 and the sliding block 3-5-1 in left side are affixed
It closes, by the drivings of sliding block 3-5-1 to the right, and then driving gear 2-8 is driven to rotate counterclockwise, and then drive drive shaft
2-9 rotates counterclockwise;When fan-shaped driving plate 2-4 is to left dislocation, sliding rack 2-5 is driven the blocking of gear 2-8 later, makes
Sliding rack 2-5 displacements to the right on rack sliding groove 2-6, drive shaft 2-9 is of short duration to stop operating, a left side of sliding rack 2-5
It holds the sliding block 3-5-1 with right side to fit, by the drivings of sliding block 3-5-1 to the left, and then drives driving gear 2-8
It rotates clockwise, and then drive shaft 2-9 is rotated clockwise, is and so on alternately rotated shaft 2-9;By pulling two manually
A pull lever 3-5-4, and then two blocking fixed block 3-5-3 is made to squeeze two spring 3-5-6, and then in block sliding groove 2-7
With mobile sliding block 3-5-1 in sliding groove 3-2 and connection slide-bar 3-5-2, and then two blocking fixed block 3-5-3 is made to be placed on
In different fixing groove 3-3, and then the distance of sliding block 3-5-1 and sliding rack 2-5 are adjusted, and then adjusts and shorten driving gear
The swing circle of 2-8 and shaft 2-9;Entire sample shaking carrier 4 is controlled by shaft 2-9 to be alternately rotated, and then makes sample
Sample in product carrier shell 4-1 is fully merged and is shaken, and then the sample after keeping part warm is attached to sample carry glass platform 4-
In 13, is taken out if you need to the sample that will be acquired, manual control lever 4-7 is lifted, keeps control lever shaft 4-8 and slotting plate washer 4-10 upward, inserted
Plate washer 4-10 pressed home spring 4-9, insert plate washer 4-10 disengaging slidings pushing block 4-11 makes to carry by push plate 4-15 and to being pushed forward
Two protection plate washer 4-14 of ring 4-16 protect sample carry glass platform 4-13, while sliding pushing block 4-11 being taken out,
It is detached from sliding fixed block 4-3 and sliding notch 4-4, and then sliding pushing block 4-11 is pushed into laser scanning co-focusing fluorescence microscopy
The sample for being attached to sample carry glass platform 4-13 is observed on the measuring platform of mirror, manual control lever 4-7 is put down, manipulation is made
Axis 4-8 and slotting plate washer 4-10 are downward by the power of resetting spring 4-9, and then it is close so that slotting plate washer 4-10 is carried out sliding notch 4-4
Blockade gear, it is contaminated to place remaining sample, continues to lift manual control lever 4-7 after observation and lift, sliding pushing block 4-11 is pushed away
Enter to slide in fixed block 4-3 and sliding notch 4-4, puts down manual control lever 4-7 and insert plate washer 4-10 reeve sliding pushing blocks 4-11
It is interior, continue sealing blocking.
Above description is not limitation of the present invention, and the present invention is also not limited to the example above, the art it is common
The variations, modifications, additions or substitutions that technical staff is made in the essential scope of the present invention also belong to the protection model of the present invention
It encloses.
Claims (6)
1. a kind of preparation of samples device for laser scanning co-focusing fluorescence microscope, including fixed seat (1), driving device
(2), oscillating control device (3) and sample shake carrier (4), it is characterised in that:The driving device (2) and weave control dress
It sets (3) to be fixedly connected in fixed seat (1), oscillating control device (3) is slidably connected in driving device (2), and sample shakes
Carrier (4) is fixedly connected on the rear end of driving device (2).
2. a kind of preparation of samples device for laser scanning co-focusing fluorescence microscope according to claim 1, special
Sign is:The fixed seat (1) includes bottom plate (1-1), support riser (1-2), two hinged fixed blocks (1-3), rotation axis
(1-4) and motor fixing hole (1-5), support riser (1-2) are fixedly connected on the front end of bottom plate (1-1), two hinged fixed blocks
(1-3) is fixedly connected on bottom plate (1-1), and rotation axis (1-4) is rotatably connected on two hinged fixed blocks (1-3), motor
Mounting hole (1-5) setting is on support riser (1-2).
3. a kind of preparation of samples device for laser scanning co-focusing fluorescence microscope according to claim 2, special
Sign is:The driving device (2) includes driving motor (2-1), bull stick (2-2), hinge bar (2-3), fan-shaped driving plate (2-
4), sliding rack (2-5), rack sliding groove (2-6), block sliding groove (2-7), driving gear (2-8), drive shaft (2-9)
With rotation circular hole (2-10), driving motor (2-1) is fixedly connected in motor fixing hole (1-5), and the lower end of bull stick (2-2) is fixed
It is connected on the transmission shaft of driving motor (2-1), the rear side of the upper end of bull stick (2-2) is hinged the right end of hinge bar (2-3), hinged
The left end of bar (2-3) is hinged on the middle-end of fan-shaped driving plate (2-4) front end face, and rack sliding groove (2-6) is front and back to be driven through fan-shaped
The lower end of the upper end of movable plate (2-4), sliding rack (2-5) is slidably connected in rack sliding groove (2-6), block sliding groove (2-
7) setting is in the upper end of fan-shaped driving plate (2-4), and block sliding groove (2-7) setting is in the rear end of rack sliding groove (2-6), driving
The front end of shaft (2-9) is fixedly connected on the rear end of support riser (1-2), and driving gear (2-8) is fixedly connected on drive shaft
On (2-9), the lower end of driving gear (2-8) is meshed with sliding rack (2-5), and rotation circular hole (2-10) is arranged to be driven in sector
The lower end of plate (2-4), rotation circular hole (2-10) is front and back through fan-shaped driving plate (2-4), and the front end of rotation axis (1-4) is fixedly connected
In rotation circular hole (2-10), fan-shaped driving plate (2-4) is arranged at two between hinged fixed block (1-3).
4. a kind of preparation of samples device for laser scanning co-focusing fluorescence microscope according to claim 3, special
Sign is:The oscillating control device (3) include fan-shaped moving block (3-1), sliding groove (3-2), multiple fixing grooves (3-3),
Lower fixed circular hole (3-4) and adjusting fixing device (3-5), the front and back upper end for running through fan-shaped moving block (3-1) of sliding groove (3-2),
Multiple fixing grooves (3-3) are uniformly arranged on the rear end of fan-shaped moving block (3-1), multiple fixing grooves (3-3) with sliding groove (3-2)
Connection, in the lower end of fan-shaped moving block (3-1), lower fixed circular hole (3-4) is front and back to be turned through fan-shaped for lower fixed circular hole (3-4) setting
The rear end of motion block (3-1), rotation axis (1-4) is fixedly connected in lower fixed circular hole (3-4), is adjusted fixing device (3-5) and is arranged
There are two, two middle-ends for adjusting fixing device (3-5) are slidably connected in sliding groove (3-2), two adjusting fixing devices
The front end of (3-5) is slidably connected in block sliding groove (2-7).
5. a kind of preparation of samples device for laser scanning co-focusing fluorescence microscope according to claim 4, special
Sign is:The adjusting fixing device (3-5) includes sliding block (3-5-1), connection slide-bar (3-5-2), blocking fixed block
(3-5-3), pull lever (3-5-4), block (3-5-5) and spring (3-5-6), the lower end of sliding block (3-5-1) are slidably connected
In block sliding groove (2-7), the rear end of sliding block (3-5-1) is fixedly connected with the left end of connection slide-bar (3-5-2), and connection is slided
Axis (3-5-2) is slidably connected in sliding groove (3-2), and blocking fixed block (3-5-3) is slidably connected at connection slide-bar (3-5-2)
On, for blocking fixed block (3-5-3) clearance fit in fixing groove (3-3), the front end of pull lever (3-5-4) is fixedly connected on blocking
On fixed block (3-5-3), pull lever (3-5-4) is slidably connected in block (3-5-5), block (3-5-5) company of being fixedly connected on
The rear end of slide-bar (3-5-2) is connect, spring (3-5-6) is socketed on connection slide-bar (3-5-2), and spring (3-5-6) setting is stopping
Between fixed block (3-5-3) and block (3-5-5).
6. a kind of preparation of samples device for laser scanning co-focusing fluorescence microscope according to claim 5, special
Sign is:The sample shake carrier (4) include sample carrier shell (4-1), overhead gage (4-2), sliding fixed block (4-3),
Slide notch (4-4), shell inside groove (4-5), two connection circular holes (4-6), manual control lever (4-7), two control lever shafts (4-8),
Two resetting springs (4-9) insert plate washer (4-10), sliding pushing block (4-11), rectangle port (4-12), sample carry glass platform
(4-13), two protection plate washers (4-14), push plate (4-15) and drop handle (4-16), the front end of sample carrier shell (4-1), which is fixed, to be connected
It is connected in drive shaft (2-9), overhead gage (4-2) is threadably secured the upper end for being connected to sample carrier shell (4-1), and sliding is solid
Determine block (4-3) to be fixedly connected in sample carrier shell (4-1), sliding notch (4-4) is arranged in sliding fixed block (4-3) and sample
On carrier shell (4-1), sliding notch (4-4) runs through sliding fixed block (4-3) up and down, and sliding notch (4-4) is front and back to run through sample
The rear side of carrier shell (4-1) shell, shell inside groove (4-5) are arranged in the shell on rear side of sample carrier shell (4-1), shell inside groove (4-
5) connection sliding notch (4-4), two connection circular holes (4-6) run through overhead gage (4-2), and two connection circular holes (4-6) connect
Logical shell inside groove (4-5), the upper end of two control lever shafts (4-8) is fixedly connected with the lower end of manual control lever (4-7), two control lever shafts
(4-8) clearance fit is connected at two in circular hole (4-6) respectively, and the upper end for inserting plate washer (4-10) is fixedly connected with two control lever shafts
On (4-8), inserts plate washer (4-10) and be slidably connected in shell inside groove (4-5), two resetting springs (4-9) are socketed in two behaviour respectively
On the longitudinal axis (4-8), two resetting springs (4-9) are arranged between the upper end and slotting plate washer (4-10) of shell inside groove (4-5) inner wall,
Sliding pushing block (4-11) is slidably connected on sliding fixed block (4-3), and rectangle port (4-12) runs through sliding pushing block up and down
(4-11), the right end of sample carry glass platform (4-13) are fixedly connected on the right end of rectangle port (4-12) inner wall, and sliding pushes
Setting is there are two elongated slot on block (4-11), and two elongated slots are connected to rectangle port (4-12), and two protection plate washers (4-14) are respectively
It is slidably connected in two elongated slots, two protection plate washers (4-14) are separately positioned on up and down the two of sample carry glass platform (4-13)
Side, push plate (4-15) are fixedly connected on the right end of two protection plate washers (4-14), and drop handle (4-16) is fixedly connected on push plate (4-
15) upper end.
Priority Applications (1)
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CN201810708285.2A CN108507861A (en) | 2018-07-02 | 2018-07-02 | A kind of preparation of samples device for laser scanning co-focusing fluorescence microscope |
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CN201810708285.2A CN108507861A (en) | 2018-07-02 | 2018-07-02 | A kind of preparation of samples device for laser scanning co-focusing fluorescence microscope |
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CN108507861A true CN108507861A (en) | 2018-09-07 |
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CN201810708285.2A Withdrawn CN108507861A (en) | 2018-07-02 | 2018-07-02 | A kind of preparation of samples device for laser scanning co-focusing fluorescence microscope |
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CN112693726A (en) * | 2021-01-04 | 2021-04-23 | 哈尔滨铭川运输有限公司 | Marine fresh food storage device and method |
CN116571124A (en) * | 2023-07-12 | 2023-08-11 | 云南潘祥记工贸有限公司 | Moon cake stuffing stirring process and device for moon cake processing |
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CN107261960A (en) * | 2017-08-01 | 2017-10-20 | 深圳市创星信息科技有限公司 | A kind of volumetric flask solution evenly mixing device of Food Inspection |
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CN107831059A (en) * | 2017-11-03 | 2018-03-23 | 中国石油化工股份有限公司 | Moving seesaw-type fluid sample is well mixed machine |
CN107894361A (en) * | 2017-12-26 | 2018-04-10 | 刘苗 | A kind of clinical laboratory blood sample mixed processing device |
CN207507378U (en) * | 2017-09-22 | 2018-06-19 | 李延年 | A kind of pesticide mixing stirring device |
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CN105116539A (en) * | 2015-09-18 | 2015-12-02 | 江苏师范大学 | Portable precision digital optical microscope |
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CN116571124A (en) * | 2023-07-12 | 2023-08-11 | 云南潘祥记工贸有限公司 | Moon cake stuffing stirring process and device for moon cake processing |
CN116571124B (en) * | 2023-07-12 | 2023-09-15 | 云南潘祥记工贸有限公司 | Moon cake stuffing stirring process and device for moon cake processing |
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