CN107854863A - A kind of device that extractable material is extracted from polymerized biomedical device - Google Patents
A kind of device that extractable material is extracted from polymerized biomedical device Download PDFInfo
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- CN107854863A CN107854863A CN201711441652.9A CN201711441652A CN107854863A CN 107854863 A CN107854863 A CN 107854863A CN 201711441652 A CN201711441652 A CN 201711441652A CN 107854863 A CN107854863 A CN 107854863A
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- biomedical device
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- B—PERFORMING OPERATIONS; TRANSPORTING
- B01—PHYSICAL OR CHEMICAL PROCESSES OR APPARATUS IN GENERAL
- B01D—SEPARATION
- B01D11/00—Solvent extraction
- B01D11/02—Solvent extraction of solids
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Abstract
The invention discloses a kind of device that extractable material is extracted from polymerized biomedical device, including framework, four slide bars are vertically installed with the framework, and four slide bar bottoms are respectively and fixedly installed on the corner location of framework bottom side inwall, multiple biomedical device carriers are placed with the framework, the corner location of the biomedical device carriers offers slide opening, and four slide openings are connected with four sliding bars respectively, the bottom side of the biomedical device carriers is provided with the placement plate being slidably mounted in framework, the top side corner location for placing plate offers first through hole, four first through hole are connected with four sliding bars respectively.The present invention can be easy to firm placement biomedical device carriers, prevent biomedical device carriers from being damaged caused by extruding, meanwhile, it is easy to be defined the position of biomedical device carriers, prevents biomedical device carriers from dropping.
Description
Technical field
The present invention relates to field of biomedicine technology, more particularly to one kind to extract from polymerized biomedical device and can extract
The device and application method of material.
Background technology
Polymerized biomedical device, or it is used as the polymerizable chemistry such as monomer, oligomer, macromonomer and prepolymer
The bio-medical instrument of the polymerizate of agent usually contains such as unreacted monomer, linear oligomers, macromonomer, prepolymer
Or the extractable material of its combination, it can be associated with the adverse reaction of the patient using bio-medical instrument.Therefore, it is polymerizeing
Even if these extractable materials are extracted to reduce or prevent the adverse reaction of patient not from it during the manufacture of bio-medical instrument
To be necessary or desirable.For example, in the manufacture of the eye lens such as contact lenses, polymerizable lens are by may include water
The liquid extraction matchmaker of property composition (such as water, salt solution, cushioning liquid etc.) or organic solvent composition (such as containing alcohol composition)
Interface with tactile.Extraction procedures can perform before encapsulating eye lens in platform is extracted, or can be before hermetically sealed in ophthalmically acceptable mirror
Performed in piece encapsulation.Including the polymerized biomedical device of the eye lens such as hydrogel and silicone hydrogel contact lenses
Business manufacture in, it is necessary to Persisting exploitation coming of new component, system, method etc. with especially reduce the production time, reduce be produced into
This simultaneously increases productivity.
Application No. CN200880012281.5 patent discloses a kind of biomedical device carriers, the biomedicine
Device medium includes being used to hold the more of multiple polymerized biomedical devices such as polymerized ophthalmic lenses during extraction procedures
Individual recess.The present invention provides a kind of biomedical device extraction sub-assembly, and the biomedical device extraction sub-assembly includes more
Individual biomedical device carriers.The arrangement of the structure of individual carriers and the carrier in the sub-assembly is provided in extraction procedures
Period is fully extracted and can extracted from the bio-medical instrument using relative small amount of extraction media to each bio-medical instrument
Component.The present invention provides a kind of method for extracting bio-medical instrument, and methods described includes providing polymerized biomedical device
In the carrier and sub-assembly of the present invention and described device is set to be contacted with extracts composition.However, existing device is operating
In be not easy to it is firm place biomedical device carriers, meanwhile, easily cause biomedical device carriers damage.
The content of the invention
Based on technical problem existing for background technology, the present invention proposes one kind, and extraction can from polymerized biomedical device
The device of fiber material.
A kind of device that extractable material is extracted from polymerized biomedical device proposed by the present invention, including framework, institute
State and four slide bars are vertically installed with framework, and four slide bar bottoms are respectively and fixedly installed to framework bottom side inwall
Corner location on, multiple biomedical device carriers, the corner of the biomedical device carriers are placed with the framework
Position offers slide opening, and four slide openings are connected with four sliding bars respectively, the bottom side of the biomedical device carriers
Provided with the placement plate being slidably mounted in framework, the top side corner location for placing plate offers first through hole, and four first logical
Hole is connected with four sliding bars respectively, and the center of underside position for placing plate is installed with buffer bar, the buffer bar
Bottom offer sliding recess, fix bar is slidably fitted with sliding recess, the bottom of fix bar is extended to outside sliding recess,
And be fixedly mounted on the bottom side inwall of framework, the both sides of the fix bar, which are equipped with, to be fixedly mounted on the inwall of framework top side
Buffer stopper, two buffer stopper sides close to each other offer loose slot, motion bar are slidably fitted with the loose slot, living
One end of lever is extended to outside loose slot, and is rotatablely equipped with connecting rod, and two connecting rods are respectively further from the one of two motion bars
End is rotatably installed on the bottom both sides of buffer bar respectively, and the top side of the biomedical device carriers, which is provided with, is slidably mounted on frame
Limiting plate in frame, the top side corner location of the limiting plate offer the second through hole, four the second through holes respectively with four
Sliding bar connects.
Preferably, the slide bar is provided with the L-shaped for being opened in limiting plate top side close to the side of limiting plate top side center
Chute, and L-shaped chute is connected with the second through hole, L-shaped slide bar is slidably fitted with L-shaped chute, and the both ends of L-shaped slide bar are prolonged
Extending outside L-shaped chute, slide bar offers multiple locating slots close to the side equidistant intervals of L-shaped chute, and the one of the L-shaped slide bar
End extends in the second through hole and is slidably connected with locating slot.
Preferably, the first chute is offered on the bottom side inwall of the L-shaped chute, first is slidably fitted with the first chute
Sliding block, the top side of the first sliding block is extended to outside the first chute, and is fixedly mounted on the bottom side of L-shaped slide bar.
Preferably, the first spring, the first spring and L are installed with side inwall of the L-shaped chute away from slide bar
The side of shape slide bar is fixedly connected.
Preferably, the second chute is offered on the both sides inwall of the loose slot, is slidably fitted with the second chute
Two sliding blocks, the side of the second sliding block is extended to outside the second chute, and is fixedly mounted on motion bar.
Preferably, second spring, second spring and work are installed with the side inwall that two loose slots are located remotely from each other
One end that lever is located in loose slot is fixedly connected.
Preferably, the 3rd chute is offered on the both sides inwall of the sliding recess, is slidably fitted with the 3rd chute
3rd sliding block, the side of the 3rd sliding block are fixedly mounted in fix bar along to outside the 3rd chute.
Preferably, the 3rd spring is installed with the top side inwall of the sliding recess, the bottom of the 3rd spring is fixed
On the top of fix bar, the bottom of buffer bar is installed with the 4th spring being socketed in fix bar, and the 4th bullet
The bottom of spring is fixedly mounted on the bottom side inwall of framework.
Preferably, the bottom side for placing plate is installed with the 5th spring being socketed on slide bar, and the 5th spring
Bottom is fixedly mounted on the bottom side inwall of framework.
A kind of application method that extractable material device is extracted from polymerized biomedical device, comprises the following steps:
S1:Biomedical device carriers are placed in framework, biomedical device carriers drive four slide openings to exist respectively
Slided on four slide bars, plate is placed in biomedical device carriers extruding, is placed the dynamic buffer bar of strip and is moved down;
S11:Buffer bar drives fix bar to be slided in sliding recess, and fix bar drives the 3rd sliding block sliding in the 3rd chute
Dynamic, fix bar and buffer bar extrude the 3rd spring and the 4th spring;
S12:Buffer bar drives connecting rod to rotate, and connecting rod drives motion bar to be slided in loose slot, and motion bar drives the
Two sliding blocks slide in the second chute, motion bar extruding second spring;
S2:After the completion of biomedical device carriers are placed, mobile limiting plate, limiting plate drives four the second through holes at four
Slided on slide bar, limiting plate extruding biomedical device carriers;
S21:After limiting plate is moved to required position, mobile L-shaped slide bar, L-shaped slide bar drives the first sliding block in the first chute
Interior slip, one end of L-shaped slide bar is driven to be moved in locating slot under the first acting force of the spring.
In the present invention, a kind of device that extractable material is extracted from polymerized biomedical device, pass through framework, cunning
Bar, biomedical device carriers, slide opening, placement plate, first through hole, the 5th spring, buffer stopper, loose slot, motion bar, connection
Bar, second spring, the second chute, the second sliding block, buffer bar, sliding recess, fix bar, the 3rd spring, the 4th spring, the 3rd are slided
Groove is used cooperatively, and biomedical device carriers are placed in framework, and biomedical device carriers drive four slide openings to exist respectively
Slided on four slide bars, plate is placed in biomedical device carriers extruding, is placed the dynamic buffer bar of strip and is moved down, buffer bar drives
Fix bar is slided in sliding recess, and fix bar drives the 3rd sliding block to be slided in the 3rd chute, fix bar and buffer bar extruding
3rd spring and the 4th spring, buffer bar drive connecting rod to rotate, and connecting rod drives motion bar to be slided in loose slot, motion bar
Drive the second sliding block to be slided in the second chute, motion bar extruding second spring, can be easy to placing bio-medical instrument load
During body, there is effective buffering effect;By the 3rd sliding block, limiting plate, the second through hole, L-shaped chute, L-shaped slide bar, locating slot,
First spring, the first chute, the first sliding block are used cooperatively, and after the completion of biomedical device carriers are placed, mobile limiting plate is spacing
Strip is moved four the second through holes and slided on four slide bars, and limiting plate extruding biomedical device carriers, limiting plate is moved to institute
After needing position, mobile L-shaped slide bar, L-shaped slide bar drives the first sliding block to be slided in the first chute, driven under the first acting force of the spring
One end of L-shaped slide bar is moved in locating slot, the position that can be easy to after firm biomedical device carriers placement;Energy of the present invention
It is enough be easy to it is firm place biomedical device carriers, prevent biomedical device carriers from being damaged caused by extruding, meanwhile, be easy to pair
The position of biomedical device carriers is defined, and prevents biomedical device carriers from dropping.
Brief description of the drawings
Fig. 1 is that a kind of structure of device that extractable material is extracted from polymerized biomedical device proposed by the present invention is shown
It is intended to;
Fig. 2 is A in a kind of Fig. 1 for the device that extractable material is extracted from polymerized biomedical device proposed by the present invention
Part-structure schematic diagram;
Fig. 3 is B in a kind of Fig. 1 for the device that extractable material is extracted from polymerized biomedical device proposed by the present invention
Part-structure schematic diagram;
Fig. 4 is in a kind of Fig. 3 of device that extractable material is extracted from polymerized biomedical device proposed by the present invention
B1 part-structure schematic diagrams;
Fig. 5 is C in a kind of Fig. 1 for the device that extractable material is extracted from polymerized biomedical device proposed by the present invention
Part-structure schematic diagram.
In figure:1 framework, 2 slide bars, 3 biomedical device carriers, 4 slide openings, 5 place plates, 6 first through hole, 7 the 5th springs,
8 buffer stoppers, 9 loose slots, 10 motion bars, 11 connecting rods, 12 second springs, 13 second chutes, 14 second sliding blocks, 15 buffer bars,
16 sliding recess, 17 fix bars, 18 the 3rd springs, 19 the 4th springs, 20 the 3rd chutes, 21 the 3rd sliding blocks, 22 limiting plates, 23
Two through holes, 24L shapes chute, 25L shapes slide bar, 26 locating slots, 27 first springs, 28 first chutes, 29 first sliding blocks.
Embodiment
Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out clear, complete
Site preparation describes, it is clear that described embodiment is only part of the embodiment of the present invention, rather than whole embodiments.
Embodiment
Reference picture 1-5, a kind of device that extractable material is extracted from polymerized biomedical device, including framework 1, framework
Four slide bars 2 are vertically installed with 1, and four bottoms of slide bar 2 are respectively and fixedly installed to the bottom side inwall of framework 1
On corner location, multiple biomedical device carriers 3 are placed with framework 1, the corner location of biomedical device carriers 3 is opened
Provided with slide opening 4, and four slide openings 4 are slidably connected with four slide bars 2 respectively, and the bottom side of biomedical device carriers 3, which is provided with, to be slided
Placement plate 5 in framework 1, the top side corner location for placing plate 5 offer first through hole 6, and four first through hole 6 are divided
It is not slidably connected with four slide bars 2, the center of underside position for placing plate 5 is installed with buffer bar 15, the bottom of buffer bar 15
Sliding recess 16 is offered, fix bar 17 is slidably fitted with sliding recess 16, the bottom of fix bar 17 extends to sliding recess
Outside 16, and it is fixedly mounted on the bottom side inwall of framework 1, the both sides of fix bar 17, which are equipped with, to be fixedly mounted in the top side of framework 1
Buffer stopper 8 on wall, two buffer stoppers 8 side close to each other offer loose slot 9, work are slidably fitted with loose slot 9
Lever 10, one end of motion bar 10 is extended to outside loose slot 9, and is rotatablely equipped with connecting rod 11, and two connecting rods 11 are remote respectively
One end from two motion bars 10 is rotatably installed on the bottom both sides of buffer bar 15 respectively, the top of biomedical device carriers 3
Side, which is provided with, is slidably mounted on limiting plate 22 in framework 1, and the top side corner location of limiting plate 22 offers the second through hole 23, and four
Individual second through hole 23 is slidably connected with four slide bars 2 respectively, by framework 1, slide bar 2, biomedical device carriers 3, slide opening 4,
Place plate 5, first through hole 6, the 5th spring 7, buffer stopper 8, loose slot 9, motion bar 10, connecting rod 11, second spring 12, second
Chute 13, the second sliding block 14, buffer bar 15, sliding recess 16, fix bar 17, the 3rd spring 18, the 4th spring 19, the 3rd chute
20 are used cooperatively, and biomedical device carriers 3 are placed in framework 1, and biomedical device carriers 3 drive four slide openings 4 to divide
Not slided on four slide bars 2, plate 5 is placed in the extruding of biomedical device carriers 3, is placed plate 5 and is driven buffer bar 15 to move down,
Buffer bar 15 drives fix bar 17 to be slided in sliding recess 16, and fix bar 17 drives the 3rd sliding block 21 sliding in the 3rd chute 22
Dynamic, fix bar 17 and buffer bar 15 extrude the 3rd spring 18 and the 4th spring 19, and buffer bar 15 drives connecting rod 11 to rotate, and connects
Bar 11 drives motion bar 10 to be slided in loose slot 9, and motion bar 10 drives the second sliding block 14 to be slided in the second chute 13, activity
Bar 10 extrudes second spring 12, can be easy to when placing biomedical device carriers 3, have effective buffering effect;Pass through
3rd sliding block 21, limiting plate 22, the second through hole 23, L-shaped chute 24, L-shaped slide bar 25, locating slot 26, the first spring 27, first are slided
Groove 28, the first sliding block 29 are used cooperatively, and after the completion of biomedical device carriers 3 are placed, mobile limiting plate 22, limiting plate 22 drives
Four the second through holes 23 are slided on four slide bars 2, and limiting plate 22 extrudes biomedical device carriers 3, and limiting plate 22 is moved to
Behind required position, mobile L-shaped slide bar 25, L-shaped slide bar 25 drives the first sliding block 29 to be slided in the first chute 28, the first spring 27
Drive one end of L-shaped slide bar 25 to be moved in locating slot 26 under active force, firm biomedical device carriers 3 can be easy to place
Position afterwards;The present invention can be easy to firm placement biomedical device carriers 3, prevent biomedical device carriers 3 because of extruding
Cause to damage, meanwhile, it is easy to be defined the position of biomedical device carriers 3, prevents biomedical device carriers 3 from falling
Fall.
Slide bar 2 is provided with the L-shaped chute 24 for being opened in the top side of limiting plate 22 close to the side of the top side center of limiting plate 22,
And L-shaped chute 24 is connected with the second through hole 23, L-shaped slide bar 25, and the two of L-shaped slide bar 25 are slidably fitted with L-shaped chute 24
End is all extended to outside L-shaped chute 24, and slide bar 2 offers multiple locating slots 26, L close to the side equidistant intervals of L-shaped chute 24
One end of shape slide bar 25 extends in the second through hole 23 and is slidably connected with locating slot 26, is opened on the bottom side inwall of L-shaped chute 24
Provided with the first chute 28, the first sliding block 29 is slidably fitted with the first chute 28, the top side of the first sliding block 29 extends to the first cunning
Outside groove 28, and it is fixedly mounted on the bottom side of L-shaped slide bar 25, L-shaped chute 24 is installed with the side inwall away from slide bar 2
First spring 27, the first spring 27 are fixedly connected with the side of L-shaped slide bar 25, and is offered on the both sides inwall of loose slot 9
Two chutes 13, the second sliding block 14 is slidably fitted with the second chute 13, the side of the second sliding block 14 is extended to outside the second chute 13,
And be fixedly mounted on motion bar 10, second spring 12 is installed with the side inwall that two loose slots 9 are located remotely from each other, the
Two springs 12 are located at one end in loose slot 9 with motion bar 10 and are fixedly connected, and are offered on the both sides inwall of sliding recess 16
3rd chute 20, is slidably fitted with the 3rd sliding block 21 in the 3rd chute 20, the side of the 3rd sliding block 21 along to outside the 3rd chute 20,
And be fixedly mounted in fix bar 17, the 3rd spring 18, the 3rd spring 18 are installed with the top side inwall of sliding recess 16
Bottom be fixedly mounted on the top of fix bar 17, the bottom of buffer bar 15 is installed be socketed in fix bar 17
Four springs 19, and the bottom of the 4th spring 19 is fixedly mounted on the bottom side inwall of framework 1, the bottom side for placing plate 5 is fixedly mounted
There is the 5th spring 7 being socketed on slide bar 2, and the bottom of the 5th spring 7 is fixedly mounted on the bottom side inwall of framework 1, is passed through
Framework 1, slide bar 2, biomedical device carriers 3, slide opening 4, placement plate 5, first through hole 6, the 5th spring 7, buffer stopper 8, activity
It is groove 9, motion bar 10, connecting rod 11, second spring 12, the second chute 13, the second sliding block 14, buffer bar 15, sliding recess 16, solid
Fixed pole 17, the 3rd spring 18, the 4th spring 19, the 3rd chute 20 are used cooperatively, and biomedical device carriers 3 are placed on into framework
In 1, biomedical device carriers 3 drive four slide openings 4 to be slided respectively on four slide bars 2, and biomedical device carriers 3 extrude
Plate 5 to be placed, plate 5 is placed and drives buffer bar 15 to move down, buffer bar 15 drives fix bar 17 to be slided in sliding recess 16, Gu
Fixed pole 17 drives the 3rd sliding block 21 to be slided in the 3rd chute 22, and fix bar 17 and buffer bar 15 extrude the 3rd spring 18 and the 4th
Spring 19, buffer bar 15 drive connecting rod 11 to rotate, and connecting rod 11 drives motion bar 10 to be slided in loose slot 9, motion bar 10
The second sliding block 14 is driven to be slided in the second chute 13, motion bar 10 extrudes second spring 12, can be easy to placing biology doctor
When learning device medium 3, there is effective buffering effect;Pass through the 3rd sliding block 21, limiting plate 22, the second through hole 23, L-shaped chute
24th, L-shaped slide bar 25, locating slot 26, the first spring 27, the first chute 28, the first sliding block 29 are used cooperatively, and bio-medical instrument carries
After the completion of body 3 is placed, mobile limiting plate 22, limiting plate 22 drives four the second through holes 23 to be slided on four slide bars 2, limiting plate
22 extruding biomedical device carriers 3, after limiting plate 22 is moved to required position, mobile L-shaped slide bar 25, L-shaped slide bar 25 drives
First sliding block 29 slides in the first chute 28, drives one end of L-shaped slide bar 25 to be moved to positioning under the active force of the first spring 27
In groove 26, it can be easy to consolidate the position after biomedical device carriers 3 are placed;The present invention can be easy to firm biology of placing to cure
Device medium 3 is learned, prevents biomedical device carriers 3 from being damaged caused by extruding, meanwhile, it is easy to biomedical device carriers 3
Position be defined, prevent biomedical device carriers 3 from dropping.
A kind of application method that extractable material device is extracted from polymerized biomedical device, comprises the following steps:
S1:Biomedical device carriers 3 are placed in framework 1, biomedical device carriers 3 drive four slide openings 4 to divide
Do not slided on four slide bars 2, plate 5 is placed in the extruding of biomedical device carriers 3, is placed plate 5 and is driven buffer bar 15 to move down;
S11:Buffer bar 15 drives fix bar 17 to slide in the sliding recess 16, and fix bar 17 drives the 3rd sliding block 21 the
Slided in three chutes 20, fix bar 17 and buffer bar 15 extrude the 3rd spring 18 and the 4th spring 19;
S12:Buffer bar 15 drives connecting rod 11 to rotate, and connecting rod 11 drives motion bar 10 to be slided in loose slot 9, activity
Bar 10 drives the second sliding block 14 to be slided in the second chute 13, and motion bar 10 extrudes second spring 12;
S2:After the completion of biomedical device carriers 3 are placed, mobile limiting plate 22, limiting plate 22 drives four the second through holes
23 slide on four slide bars 2, and limiting plate 22 extrudes biomedical device carriers 3;
S21:After limiting plate 22 is moved to required position, mobile L-shaped slide bar 25, L-shaped slide bar 25 drives the first sliding block 29 to exist
Slided in first chute 28, drive one end of L-shaped slide bar 25 to be moved in locating slot 26 under the active force of the first spring 27.
The present invention:Biomedical device carriers 3 are placed in framework 1, biomedical device carriers 3 drive four slide openings
4 are slided on four slide bars 2 respectively, and plate 5 is placed in the extruding of biomedical device carriers 3, are placed plate 5 and are driven buffer bar 15 to moving down
Dynamic, buffer bar 15 drives fix bar 17 to be slided in sliding recess 16, and fix bar 17 drives the 3rd sliding block 21 in the 3rd chute 22
Interior slip, fix bar 17 and buffer bar 15 extrude the 3rd spring 18 and the 4th spring 19, and buffer bar 15 drives connecting rod 11 to rotate,
Connecting rod 11 drives motion bar 10 to be slided in loose slot 9, and motion bar 10 drives the second sliding block 14 to be slided in the second chute 13,
Motion bar 10 extrudes second spring 12, and after the completion of biomedical device carriers 3 are placed, mobile limiting plate 22, limiting plate 22 drives
Four the second through holes 23 are slided on four slide bars 2, and limiting plate 22 extrudes biomedical device carriers 3, and limiting plate 22 is moved to
Behind required position, mobile L-shaped slide bar 25, L-shaped slide bar 25 drives the first sliding block 29 to be slided in the first chute 28, the first spring 27
One end of L-shaped slide bar 25 is driven to be moved in locating slot 26 under active force.
The foregoing is only a preferred embodiment of the present invention, but protection scope of the present invention be not limited thereto,
Any one skilled in the art the invention discloses technical scope in, technique according to the invention scheme and its
Inventive concept is subject to equivalent substitution or change, should all be included within the scope of the present invention.
Claims (10)
1. a kind of device that extractable material is extracted from polymerized biomedical device, including framework (1), it is characterised in that institute
State in framework (1) and be vertically installed with four slide bars (2), and four slide bar (2) bottoms are respectively and fixedly installed to frame
On the corner location of frame (1) bottom side inwall, multiple biomedical device carriers (3), the biology are placed with the framework (1)
The corner location of biomedical device carriers (3) offers slide opening (4), and four slide openings (4) are slided with four slide bars (2) connect respectively
Connect, the bottom side of the biomedical device carriers (3) is provided with the placement plate (5) being slidably mounted in framework (1), places plate (5)
Top side corner location offer first through hole (6), four first through hole (6) are slidably connected with four slide bars (2) respectively, institute
The center of underside position for stating placement plate (5) is installed with buffer bar (15), and the bottom of the buffer bar (15) offers slip
Groove (16), sliding recess (16) is interior to be slidably fitted with fix bar (17), and the bottom of fix bar (17) extends to sliding recess
(16) outside, and it is fixedly mounted on the bottom side inwall of framework (1), the both sides of the fix bar (17), which are equipped with, is fixedly mounted on frame
Buffer stopper (8) on the inwall of frame (1) top side, two buffer stopper (8) sides close to each other offer loose slot (9), described
Motion bar (10) is slidably fitted with loose slot (9), one end of motion bar (10) extends to loose slot (9) outside, and is rotatablely installed
There is connecting rod (11), one end that two connecting rods (11) are respectively further from two motion bars (10) is rotatably installed in buffer bar respectively
(15) on bottom both sides, the top side of the biomedical device carriers (3) is provided with the limiting plate being slidably mounted in framework (1)
(22), the top side corner location of the limiting plate (22) offers the second through hole (23), four the second through holes (23) respectively with
Four slide bars (2) are slidably connected.
2. a kind of device that extractable material is extracted from polymerized biomedical device according to claim 1, its feature
It is, the slide bar (2) is provided with the L-shaped for being opened in limiting plate (22) top side close to the side of limiting plate (22) top side center
Chute (24), and L-shaped chute (24) is connected with the second through hole (23), and L-shaped slide bar is slidably fitted with L-shaped chute (24)
(25), and the both ends of L-shaped slide bar (25) all extend to L-shaped chute (24) outside, and slide bar (2) is close to side of L-shaped chute (24) etc.
Distance, which is spaced apart, is provided with multiple locating slots (26), and one end of the L-shaped slide bar (25) is extended in the second through hole (23) and with determining
Position groove (26) is slidably connected.
3. a kind of device that extractable material is extracted from polymerized biomedical device according to claim 2, its feature
It is, offers the first chute (28) on the bottom side inwall of the L-shaped chute (24), the is slidably fitted with the first chute (28)
One sliding block (29), the top side of the first sliding block (29) extends to the first chute (28) outside, and is fixedly mounted on the bottom of L-shaped slide bar (25)
On side.
4. a kind of device that extractable material is extracted from polymerized biomedical device according to claim 2, its feature
It is, the L-shaped chute (24) is installed with the first spring (27), the first spring on the side inwall away from slide bar (2)
(27) side with L-shaped slide bar (25) is fixedly connected.
5. a kind of device that extractable material is extracted from polymerized biomedical device according to claim 1, its feature
It is, offers the second chute (13) on the both sides inwall of the loose slot (9), the is slidably fitted with the second chute (13)
Two sliding blocks (14), the side of the second sliding block (14) extends to the second chute (13) outside, and is fixedly mounted on motion bar (10).
6. a kind of device that extractable material is extracted from polymerized biomedical device according to claim 1, its feature
It is, second spring (12) is installed with the side inwall that two loose slots (9) are located remotely from each other, second spring (12) is with living
One end that lever (10) is located in loose slot (9) is fixedly connected.
7. a kind of device that extractable material is extracted from polymerized biomedical device according to claim 1, its feature
It is, the 3rd chute (20) is offered on the both sides inwall of the sliding recess (16), is slidably installed in the 3rd chute (20)
There is the 3rd sliding block (21), the side of the 3rd sliding block (21) outside, and is fixedly mounted in fix bar (17) along to the 3rd chute (20).
8. a kind of device that extractable material is extracted from polymerized biomedical device according to claim 1, its feature
It is, the 3rd spring (18) is installed with the top side inwall of the sliding recess (16), and the bottom of the 3rd spring (18) is consolidated
On the top of fix bar (17), the bottom of buffer bar (15) is installed with the 4th be socketed in fix bar (17) for Dingan County
Spring (19), and the bottom of the 4th spring (19) is fixedly mounted on the bottom side inwall of framework (1).
9. a kind of device that extractable material is extracted from polymerized biomedical device according to claim 1, its feature
It is, the bottom side for placing plate (5) is installed with the 5th spring (7) being socketed on slide bar (2), and the 5th spring (7)
Bottom be fixedly mounted on the bottom side inwall of framework (1).
10. it is a kind of from polymerized biomedical device extract extractable material device application method, it is characterised in that including with
Lower step:
S1:Biomedical device carriers (3) are placed in framework (1), biomedical device carriers (3) drive four slide openings
(4) slided respectively on four slide bars (2), plate (5) is placed in biomedical device carriers (3) extruding, is placed plate (5) and is driven buffering
Bar (15) moves down;
S11:Buffer bar (15) drives fix bar (17) to be slided in sliding recess (16), and fix bar (17) drives the 3rd sliding block
(21) slided in the 3rd chute (20), fix bar (17) and buffer bar (15) extrude the 3rd spring (18) and the 4th spring
(19);
S12:Buffer bar (15) drives connecting rod (11) to rotate, and connecting rod (11) drives motion bar (10) sliding in loose slot (9)
Dynamic, motion bar (10) drives the second sliding block (14) to be slided in the second chute (13), motion bar (10) extruding second spring (12);
S2:After the completion of biomedical device carriers (3) are placed, mobile limiting plate (22), limiting plate (22) drives four second to lead to
Hole (23) is slided on four slide bars (2), limiting plate (22) extruding biomedical device carriers (3);
S21:After limiting plate (22) is moved to required position, mobile L-shaped slide bar (25), L-shaped slide bar (25) drives the first sliding block
(29) slided in the first chute (28), drive one end of L-shaped slide bar (25) to be moved to positioning under the first spring (27) active force
In groove (26).
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Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
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CN101657220A (en) * | 2007-04-18 | 2010-02-24 | 库柏维景国际控股公司 | devices, assemblies, and methods for extracting extractable materials from polymerized biomedical devices |
CN206339578U (en) * | 2016-12-14 | 2017-07-18 | 河南师范大学 | A kind of shock-proof electronic electric meter |
CN206396634U (en) * | 2017-01-10 | 2017-08-11 | 中铁七局集团第三工程有限公司 | A kind of anti-collision wall of flexible supporting role |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN101657220A (en) * | 2007-04-18 | 2010-02-24 | 库柏维景国际控股公司 | devices, assemblies, and methods for extracting extractable materials from polymerized biomedical devices |
CN206339578U (en) * | 2016-12-14 | 2017-07-18 | 河南师范大学 | A kind of shock-proof electronic electric meter |
CN206396634U (en) * | 2017-01-10 | 2017-08-11 | 中铁七局集团第三工程有限公司 | A kind of anti-collision wall of flexible supporting role |
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