CN209685749U - Self-stabilization type vibrates bio-incubator - Google Patents
Self-stabilization type vibrates bio-incubator Download PDFInfo
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- CN209685749U CN209685749U CN201920065455.XU CN201920065455U CN209685749U CN 209685749 U CN209685749 U CN 209685749U CN 201920065455 U CN201920065455 U CN 201920065455U CN 209685749 U CN209685749 U CN 209685749U
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- lower rail
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A40/00—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production
- Y02A40/10—Adaptation technologies in agriculture, forestry, livestock or agroalimentary production in agriculture
- Y02A40/25—Greenhouse technology, e.g. cooling systems therefor
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Abstract
The utility model discloses a kind of self-stabilization types to vibrate bio-incubator, belong to biological culture apparatus field, it is intended to be supported the sample bottle in vibration, its key points of the technical solution are that including cabinet, oscillating plate is provided in the cabinet, vibrating disk is connected on oscillating plate, the driving motor for driving vibrating disk eccentric rotary is connected on the vibrating disk, at least two layers position-limit mechanism for being in different height is connected on the oscillating plate, the position-limit mechanism includes lower rail, and the lower rail of the different height is not parallel;There are two lower rails for every layer of position-limit mechanism setting, guiding mechanism is placed in the lower rail, the lower beam moved along lower rail length direction is connected on guiding mechanism, the lower beam, at least provided with two, is installed with tension spring between the two neighboring lower beam along lower rail length direction.The utility model solves the problems, such as that sample bottle will appear sliding or even topple in oscillatory process.
Description
Technical field
The utility model relates to biological culture apparatus field, in particular to a kind of self-stabilization type vibrates bio-incubator.
Background technique
Shaken cultivation case is the culture device of laboratory biological sample, is water analysis and BOD measurement bacterium, microorganism
The Special constant temperature equipment of culture, preservation, cultivation of plants, breeding experiment.
Authorization Notice No. is that the Chinese utility model patent of CN203400736U discloses a kind of four laminar shaken cultivation casees,
Including four layers of shaken cultivation case being sequentially overlapped, respectively first layer shaken cultivation case, second layer shaken cultivation case, third layer vibration
Incubator and the 4th layer of shaken cultivation case are swung, the height of four layers of shaken cultivation case is different;With four layers of shaken cultivation case.
Shaken cultivation case in above scheme reduces the occupied area in laboratory, reduces experimental cost;But it uses
When sample being placed in incubator in the process, sample bottle will appear sliding or even topple in oscillatory process, it may appear that in sample bottle
Sample the case where scattering incubator.
Utility model content
The purpose of this utility model is to provide a kind of self-stabilization types to vibrate bio-incubator, has to the sample bottle in vibration
The advantages of being supported.
The above-mentioned technical purpose of the utility model has the technical scheme that a kind of self-stabilization type oscillation life
Object incubator, including cabinet are provided with oscillating plate in the cabinet, vibrating disk are connected on oscillating plate, is connected on the vibrating disk
It is connected to the driving motor for driving vibrating disk eccentric rotary, at least two layers limit for being in different height is connected on the oscillating plate
Mechanism, the position-limit mechanism include lower rail, and the lower rail of the different height is not parallel;There are two every layer of position-limit mechanism settings
Lower rail is placed with guiding mechanism in the lower rail, the lower beam moved along lower rail length direction is connected on guiding mechanism, under described
Bar, at least provided with two, is installed with tension spring between the two neighboring lower beam along lower rail length direction.
By using above-mentioned technical proposal, sample bottle is put in cabinet, sample bottle is sequentially located at upper layer and lower layer and adjacent
In the square grids of two lower beams composition, tension spring lower beam applies pulling force, and the side of the side and sample bottle that make lower beam compresses, Guiding machine
Structure can limit the position of lower beam, and after opening driving motor, driving motor drives vibrating disk eccentric rotary, and vibrating disk rotation drives vibration
Movable plate rotation makes the sample bottle on oscillating plate generate vibration, and lower beam provides sample bottle in sample bottle vibration processes stable
Limited support.
The utility model is further arranged to: the guiding mechanism includes the guide plate being fixed in lower rail, the guiding
Offer the slotted hole through lower beam axis direction both ends on plate, the length direction of the length direction of the slotted hole along lower rail.
By using above-mentioned technical proposal, it is only capable of moving along slotted hole length direction positioned at the lower beam of slotted hole, to limit
The moving direction of lower rail processed, guide plate are preferable to the guiding stability of lower beam.
The utility model is further arranged to: the guiding mechanism includes the guide rod being fixed in lower rail, the guiding
For the axis of bar along the length direction of lower rail, the guide rod sequentially passes through lower beam.
By using above-mentioned technical proposal, lower beam is able to guide across the guide rod of lower beam and is slided along guide rod axis direction,
It is simple to be oriented to rod structure, it is smaller to occupy the intracorporal space of case.
The utility model is further arranged to: the lower rail is installed with respectively along the both ends in length direction is located at guiding
The limit plate at bar both ends.
By using above-mentioned technical proposal, limit plate can limit the moving range of lower beam, prevent lower beam from taking off from guide rod
From.
The utility model is further arranged to: the guide rod is located at the inside of tension spring.
By using above-mentioned technical proposal, guide rod can improve the stability of tension spring, reduce tension spring and radially generate along itself
Deformation, improve tension spring service life.
The utility model is further arranged to: being installed with positioner on the oscillating plate;The positioner includes solid
Due to the positioning bar on oscillating plate, the positioning bar center line is installed with and will adjust along vibration plate thickness direction, the positioning bar
Position bar and lower rail compress the retaining mechanism of connection.
By using above-mentioned technical proposal, after releasing retaining mechanism to the compression of lower rail, moved along positioning rod axis direction
Lower rail and positioning bar after lower rail is moved near sample bottle middle position, is compressed and are connected using retaining mechanism, just can by lower rail
Realize the adjusting of lower rail position.
The utility model is further arranged to: the retaining mechanism includes the clamping screw that spiral is connected to lower rail, described
One end that clamping screw penetrates lower rail presses on positioning bar.
By using above-mentioned technical proposal, after unscrewing clamping screw, just can along positioning rod axis direction move lower rail, will under
After rail is moved to suitable position, clamping screw is rotated, clamping screw one end is compressed with positioning bar side face, realizes lower rail and positioning
The locking of bar connects.
The utility model is further arranged to: the locking nut compressed with lower track surface is installed on the clamping screw.
By using above-mentioned technical proposal, locking nut can improve the stability that lower rail is connect with clamping screw, to mention
The stability that high lower rail is connect with positioning bar reduces clamping screw and occurs with the case where positioning bar accidental separation.
In conclusion the utility model has the following beneficial effects:
1, sample bottle is put in cabinet, sample bottle is sequentially located at the square grids of upper layer and lower layer and two neighboring lower beam composition
Interior, tension spring lower beam applies pulling force, and the side of the side and sample bottle that make lower beam compresses, and guiding mechanism can limit the position of lower beam,
After opening driving motor, driving motor drives vibrating disk eccentric rotary, and vibrating disk rotation drives oscillating plate rotation, makes on oscillating plate
Sample bottle generate vibration, lower beam provides in sample bottle vibration processes sample bottle stable limited support;
2, it is able to guide lower beam across the guide rod of lower beam to slide along guide rod axis direction, guiding rod structure is simple, occupies
The intracorporal space of case is smaller;
3, locking nut can improve the stability that lower rail is connect with clamping screw, to improve what lower rail was connect with positioning bar
Stability reduces clamping screw and occurs with the case where positioning bar accidental separation.
Detailed description of the invention
Fig. 1 is the overall structure diagram of embodiment 1;
Fig. 2 is the structure and position view of lower rail in embodiment 1;
Fig. 3 is the structural schematic diagram of single layer lower rail in embodiment 1;
Fig. 4 is the structural schematic diagram of guiding mechanism in embodiment 2.
In figure, 1, cabinet;11, oscillating plate;12, partition;13, vibrating disk;2, lower rail;21, limit plate;3, lower beam;4, it draws
Spring;5, guiding mechanism;51, guide plate;511, slotted hole;52, guide rod;53, connecting rod;6, positioner;61, positioning bar;
62, retaining mechanism;621, clamping screw;622, locking nut.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.The wherein identical attached drawing of identical components
Label indicates.
Embodiment 1
A kind of self-stabilization type oscillation bio-incubator, as shown in Figure 1, including cabinet 1, the intracavity bottom of cabinet 1 is connected with drive
Motivation structure, driving mechanism are not drawn into the accompanying drawings, and driving mechanism includes the driving electricity being fixed on 1 bottom wall of cabinet using screw
Machine, 1 inner cavity of cabinet are provided with partition 12, and cabinet 1 is separated into two relatively independent cavitys by partition 12, and two cavitys are used respectively
It is passed through in placement driving motor and sample bottle, the output end of driving motor from partition 12, spiral shell is used on the output end of driving motor
Nail, which compresses, is connected with vibrating disk 13, and vibrating disk 13 is disk, and the axis of vibrating disk 13 is not weighed with the axis of driving motor output end
It closes, when driving motor is opened, the output end of driving motor drives vibrating disk 13 to do eccentric rotary.
As shown in Figure 1, being connected with oscillating plate 11 using screw on vibrating disk 13, oscillating plate 11 is square plate, oscillating plate 11
Four ends angle at be respectively arranged with positioner 6.
As shown in Fig. 2, positioner 6 includes the positioning bar 61 being welded at 13 end angle of vibrating disk, 61 axis edge of bar of transposing
Vertical direction is arranged, and limited position mechanism is connected on bar 61 of transposing, and position-limit mechanism is provided with two layers along positioning 61 axis direction of bar.
As shown in Fig. 2, every layer of position-limit mechanism respectively includes the lower rail 2 being sheathed on adjusting rod 61, lower rail 2 is L-shaped structure,
Lower rail 2 is provided with opening relatively and backwards to two of oscillating plate 11, and lower rail 2 is connected to two positioning bars 61 of the same side
On.The lower rail 2 of different height is mutually perpendicular to.
As shown in Fig. 2, being respectively arranged with the retaining mechanism 62 for connecting bar 61 of transposing with lower rail 2 on positioning bar 61.
As shown in figure 3, retaining mechanism 62 includes that rotation sets the clamping screw 621 for pressing on positioning bar 61 after lower rail 2.
As shown in figure 3, being provided with guiding mechanism 5 in lower rail 2.Guiding mechanism 5 includes being respectively welded in the both ends of lower rail 2
Connecting rod 53, the both ends of connecting rod 53 are welded to connect with the lower rail 2 of 11 two sides of oscillating plate respectively, and connecting rod 53 is provided with position respectively
In two of 2 length direction both ends of lower rail.
As shown in figure 3, being welded with guide plate 51 in connecting rod 53, the both ends of guide plate 51 are respectively welded in sustained height
In two connecting rods 53, and it is located at connecting rod 53 along the middle position in length direction.Slotted hole is offered on guide plate 51
511, slotted hole 511 is through guide plate 51 along the both ends of 53 length direction of connecting rod, and the length direction of slotted hole 511 is along lower rail 2
Length direction setting.
As shown in figure 3, multiple lower beams 3 along the sliding of 511 length direction of slotted hole are equipped in slotted hole 511, lower beam 3
Both ends are located in the lower rail 2 of 11 two sides of oscillating plate, and the both ends of the surface of lower beam 3 contact at the opposite medial surface of lower rail 2 respectively.
As shown in figure 3, tension spring 4 is welded and connected between two neighboring lower beam 3, the drawing between every two adjacent lower beam 3
Spring 4 is provided with the both ends for being located at 3 length direction of lower beam and is located at 2 inside of lower rail.
A kind of self-stabilization type oscillation bio-incubator, the course of work are as follows:
The position that upper layer and lower layer lower rail 2 is adjusted according to the height of sample bottle, after unscrewing clamping screw 621, along positioning bar 61
Axis direction moves lower rail 2, after the lower rail 2 in two layers of position-limit mechanism is moved respectively near height samples bottle middle position,
The end face that rotation clamping screw 621 makes clamping screw 621 pass through lower rail 2 is compressed with 3 side of lower beam, compresses lower rail 2 and lower beam 3
Connection;
Sample bottle is put in cabinet 1, the square grids that sample bottle is sequentially located at upper layer and lower layer and two neighboring lower beam 3 forms
Interior, tension spring 4 applies pulling force to lower beam 3, and the side of the side and sample bottle that make lower beam 3 compresses, and guiding mechanism 5 can limit lower beam 3
Position, keep lower beam 3 stable position-limiting action is provided in sample bottle vibration processes sample bottle;
After opening driving motor, driving motor drives 13 eccentric rotary of vibrating disk, and the rotation of vibrating disk 13 drives oscillating plate 11
Rotation makes the sample bottle on oscillating plate 11 generate vibration.
Embodiment 2
A kind of self-stabilization type oscillation bio-incubator, difference from Example 1 is, as shown in figure 4, clamping screw 621
On be installed with the locking nut 622 compressed with 2 side of lower rail, lower rail 2 is in the working condition of vibration, and locking nut 622 can mention
The stability that high clamping screw 621 is connect with lower rail 2 reduces the case where clamping screw 621 is separated with lower beam 3.
As shown in figure 4, lower rail 2 is respectively welded limit plate 21 along the both ends in length direction, guiding mechanism 5 includes weldering
The guide rod 52 being connected between two limit plates 21 at same 2 both ends of lower rail, guide rod 52 pass through lower beam along 3 radial direction of lower beam
3, it offers on lower beam 3 and accommodates the relief hole that guide rod 52 passes through, guide rod 52 is sheathed on 4 inside of tension spring.
This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability
Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but
As long as all by the protection of Patent Law in the scope of the claims of the utility model.
Claims (8)
1. a kind of self-stabilization type vibrates bio-incubator, including cabinet (1), it is provided with oscillating plate (11), vibrates in the cabinet (1)
It is connected on plate (11) vibrating disk (13), the driving electricity for driving vibrating disk (13) eccentric rotary is connected on the vibrating disk (13)
Machine, it is characterised in that: at least two layers position-limit mechanism for being in different height, the position restrainer are connected on the oscillating plate (11)
Structure includes lower rail (2), and the lower rail (2) of the different height is not parallel;
There are two every layer of position-limit mechanism settings lower rail (2), is placed with guiding mechanism (5), guiding mechanism on the lower rail (2)
(5) lower beam (3) mobile along lower rail (2) length direction is connected on, the lower beam (3) at least sets along lower rail (2) length direction
There are two setting, tension spring (4) are installed between the two neighboring lower beam (3).
2. self-stabilization type according to claim 1 vibrates bio-incubator, it is characterised in that: the guiding mechanism (5) includes
The guide plate (51) being fixed on lower rail (2) offers the length through lower beam (3) axis direction both ends on the guide plate (51)
Circular hole (511), the length direction of the length direction of the slotted hole (511) along lower rail (2).
3. self-stabilization type according to claim 1 vibrates bio-incubator, it is characterised in that: the guiding mechanism (5) includes
The guide rod (52) being fixed on lower rail (2), length direction of the axis of the guide rod (52) along lower rail (2), the guiding
Bar (52) sequentially passes through lower beam (3).
4. self-stabilization type according to claim 3 vibrates bio-incubator, it is characterised in that: the lower rail (2) is along from height
The both ends in degree direction are installed with the limit plate (21) positioned at guide rod (52) both ends respectively.
5. self-stabilization type according to claim 3 vibrates bio-incubator, it is characterised in that: the guide rod (52), which is located at, draws
The inside of spring (4).
6. self-stabilization type according to claim 1 vibrates bio-incubator, it is characterised in that: fixed on the oscillating plate (11)
There are positioner (6);The positioner (6) includes the positioning bar (61) being fixed on oscillating plate (11), the positioning bar
(61) center line is installed with along oscillating plate (11) thickness direction, the positioning bar (61) presses positioning bar (61) and lower rail (2)
The retaining mechanism (62) being tightly connected.
7. self-stabilization type according to claim 6 vibrates bio-incubator, it is characterised in that: the retaining mechanism (62) includes
Spiral is connected to the clamping screw (621) of lower rail (2), and one end that the clamping screw (621) penetrates lower rail (2) presses on positioning
Bar (61).
8. self-stabilization type according to claim 7 vibrates bio-incubator, it is characterised in that: on the clamping screw (621)
It is installed with the locking nut (622) compressed with lower rail (2) surface.
Priority Applications (1)
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CN201920065455.XU CN209685749U (en) | 2019-01-15 | 2019-01-15 | Self-stabilization type vibrates bio-incubator |
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CN201920065455.XU CN209685749U (en) | 2019-01-15 | 2019-01-15 | Self-stabilization type vibrates bio-incubator |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113769617A (en) * | 2021-08-25 | 2021-12-10 | 广东省人民医院 | Oscillator for passage of stem cell scale amplification |
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2019
- 2019-01-15 CN CN201920065455.XU patent/CN209685749U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113769617A (en) * | 2021-08-25 | 2021-12-10 | 广东省人民医院 | Oscillator for passage of stem cell scale amplification |
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