CN216024500U - Anti-collision reagent oscillator for biological experiment research - Google Patents

Abstract

The utility model discloses an anti-collision reagent oscillator for biological experiment research, which relates to the technical field of reagent oscillators and comprises an oscillator host, wherein an oscillation chassis is arranged at the upper end of the oscillator host, a plurality of test tube sleeves are arranged at the top of the oscillation chassis, an anti-collision mechanism is arranged inside the test tube sleeves, and a protection mechanism is arranged at the top of the oscillation chassis.

Description

Anti-collision reagent oscillator for biological experiment research

Technical Field

The utility model relates to the technical field of reagent oscillators, in particular to an anti-collision reagent oscillator for biological experimental research.

Background

The reagent oscillator is commonly used in the research fields of medicine, bioengineering, chemistry, medicine and the like, and is a necessary conventional instrument for fixing, oscillating and uniformly mixing various reagents, solutions and chemical substances in a biological laboratory.

The prior patent (publication number CN213286616U) discloses a reagent oscillator, including first fixed plate, the second fixed plate, first bearing seat, first bolt, first nut, the second bearing, the second bolt, the second nut, first pivot, the shaft coupling, second pivot and work box, second fixed plate fixed mounting is on first fixed plate, first bolt and first nut assembly and with first bearing seat fixed mounting on the second fixed plate, the second bolt and the assembly of second nut and with second bearing fixed mounting on the second fixed plate, first pivot is rotatory to be installed on the second fixed plate through first bearing seat and second bearing, the top of first pivot is passed through the shaft coupling and is connected with the bottom of second pivot, the inside of work box is provided with the working chamber, the top of work box is provided with the opening, and the opening communicates with each other with the working chamber.

This reagent oscillator is when using, place the inside at the working chamber with the reagent bottle, and it is tight to the reagent bottle clamp to drive the squeeze roll through spring elasticity, though can fix the reagent bottle but inconvenient fixed glass reagent pipe, the pipe wall is thin and the outer wall is smooth because of glass reagent pipe, when this reagent oscillator drives the squeeze roll through spring elasticity and is great to the tight dynamics of glass reagent pipe clamp, easily lead to glass reagent pipe to break, when tight dynamics is less, glass reagent pipe slippage and with the inner wall of working chamber bump or the problem that breaks away from the working chamber easily appear, and then the broken problem after glass reagent pipe collision easily appears, influence experimental study's effect, certain adverse effect has, therefore this reagent oscillator has great limitation in the use.

Therefore, it is necessary to provide an anti-collision reagent oscillator for biological experimental research to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides an anti-collision reagent oscillator for biological experimental research, which solves the technical problem that an existing reagent oscillator does not have an anti-collision function and is easy to break after collision of a reagent tube.

In order to solve the technical problems, the anti-collision reagent oscillator for biological experiment research provided by the utility model comprises an oscillator host, wherein an oscillation chassis is arranged at the upper end of the oscillator host, a control panel is arranged on the oscillator host, the control panel is positioned on the front side of the oscillator host, a plurality of test tube sleeves are arranged at the top of the oscillation chassis, an anti-collision mechanism is arranged inside the test tube sleeves, and a protection mechanism is arranged at the top of the oscillation chassis.

Preferably, the anti-collision mechanism comprises an air bag, a U-shaped air groove, a first air pipe and a plurality of silica gel elastic covers, the air bag is connected with the inner bottom wall of the test tube sleeve, a first compression spring is arranged on the inner wall of the air bag, the U-shaped air groove is formed in the test tube sleeve, the first air pipe is connected with the inner wall of the test tube sleeve, two ends of the first air pipe respectively extend into the air bag and the U-shaped air groove, the silica gel elastic covers are connected with the inner wall of the test tube sleeve, a second air pipe is arranged between the U-shaped air groove and the silica gel elastic covers, the inner part of the silica gel elastic covers is communicated with the inner part of the U-shaped air groove through the second air pipe, the test tubes inserted into the test tube sleeve are pressed downwards and are made to extrude the air bag, gas in the air bag enters the U-shaped air groove through the first air pipe and then enters the silica gel elastic covers through the second air pipe, so that the silica gel elastic covers expand, and then stabilize the test tube in the test tube sleeve to elasticity through utilizing gasbag and silica gel elasticity cover prevents its and the telescopic inner wall collision of test tube when making the test tube oscillation, through setting up and utilizing first compression spring's elasticity principle that resets, makes things convenient for the gasbag to withdraw the gas in the silica gel elasticity cover, and then is convenient for extract the test tube in the test tube sleeve.

Preferably, the protection mechanism comprises a protection cover and a hinge, the protection cover is arranged above the oscillation chassis, the hinge is arranged between the oscillation chassis and the protection cover, the protection cover is hinged to the top of the oscillation chassis through the hinge, a plurality of second compression springs are installed on the inner top wall of the protection cover, the bottom ends of the second compression springs are connected with a touch panel, two first permanent magnetic strips which are symmetrical to each other are installed at the bottom of the protection cover, two second permanent magnetic strips matched with the first permanent magnetic strips are installed at the top of the oscillation chassis, an oscillator host is started through a control panel, the oscillation chassis oscillates test tubes placed in the test tube sleeve, the protection cover is turned over, through setting and utilizing the elasticity of the second compression springs, a touch pad at the bottom of the touch panel is enabled to be collided with the top of the test tubes, and then the test tubes are stabilized in the test tube sleeve through matching with the first permanent magnetic strips and the second permanent magnetic strips, and then avoid the test tube break away from behind the test tube sleeve when the oscillation and the broken problem of collision appears, its in-process, the protective cover prevents the injury of external thing to the test tube.

Preferably, the lower surface mounting of touch panel has the touch pad, the last surface mounting cushion on vibration chassis, run through on the cushion and offer through-hole and the notch with test tube sleeve internal diameter and second permanent magnetism strip looks adaptation, through setting up and utilizing the elasticity of touch pad and cushion, reduced the impact force at the test tube top of conflict board pegging graft in to test tube sleeve and the impact force between vibration chassis and the protective cover, avoid inserting the test tube in the test tube sleeve simultaneously often with the top on vibration chassis directly bump.

Preferably, the front side of protective cover is opened and is equipped with the catching groove, through setting up the catching groove, is convenient for open and shut the protective cover.

Preferably, the inner wall of the catching groove is integrally formed with anti-slip particles, and friction between hands and the catching groove is increased by the aid of the anti-slip particles.

Preferably, cushion pads are arranged at four corners of the bottom of the oscillator host, and certain damping function is achieved when the oscillator host operates by setting and utilizing the elasticity of the cushion pads.

Preferably, the sucking disc is installed to the bottom of blotter, through setting up the sucking disc, stability when having promoted the operation of oscillator host computer.

Compared with the related art, the anti-collision reagent oscillator for biological experiment research provided by the utility model has the following beneficial effects:

1. in the utility model, a user starts the oscillator host through the control panel, the oscillation chassis oscillates a test tube placed in the test tube sleeve, the protective cover is turned over, elasticity of the second compression spring is set and utilized, the touch pad at the bottom of the touch pad is enabled to be in touch with the top of the test tube, the test tube is stabilized in the test tube sleeve through matching with the first permanent magnetic strip and the second permanent magnetic strip, and then the problem that the test tube is broken due to collision after being separated from the test tube sleeve during oscillation is avoided.

2. According to the utility model, a test tube inserted into a test tube sleeve is pressed downwards by a protection mechanism and is made to extrude an air bag, so that gas in the air bag enters a U-shaped air groove through a first air pipe and then enters a silica gel elastic cover through a second air pipe, the silica gel elastic cover is expanded, the test tube is further stabilized in the test tube sleeve, the test tube is prevented from colliding with the inner wall of the test tube sleeve when oscillating by utilizing the elasticity of the air bag and the silica gel elastic cover, and the air bag is made to withdraw the gas in the silica gel elastic cover when a protective cover is far away from an oscillating chassis by setting and utilizing the elastic resetting principle of a first compression spring, so that the test tube in the test tube sleeve can be conveniently extracted.

Drawings

FIG. 1 is a schematic diagram of an overall structure of an anti-collision reagent oscillator for biological experimental research;

FIG. 2 is a schematic cross-sectional view of a tube sleeve of an anti-collision reagent oscillator for biological experimental research;

fig. 3 is a schematic structural diagram of a protective cover in an anti-collision reagent oscillator for biological experimental research;

FIG. 4 is an enlarged view of the structure at A in FIG. 1;

fig. 5 is an enlarged view of the structure at B in fig. 2.

Reference numbers in the figures: 1. an oscillator host; 2. oscillating the chassis; 3. a control panel; 4. a test tube cartridge; 5. an air bag; 6. a first compression spring; 7. a U-shaped gas tank; 8. a first air pipe; 9. a silica gel elastic cover; 10. a second air pipe; 11. a protective cover; 12. a hinge; 13. a second compression spring; 14. a touch plate; 15. a first permanent magnet strip; 16. a second permanent magnet strip; 17. a touch pad; 18. an elastic pad; 19. buckling grooves; 20. a cushion pad; 21. and (4) sucking discs.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments; all other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the first embodiment, as shown in fig. 1 to 5, an anti-collision reagent oscillator for biological experimental research includes an oscillator main machine 1, an oscillation chassis 2 is disposed at an upper end of the oscillator main machine 1, a control panel 3 is disposed on the oscillator main machine 1, the control panel 3 is located at a front side of the oscillator main machine 1, a plurality of test tube sleeves 4 are disposed at a top of the oscillation chassis 2, an anti-collision mechanism is disposed inside the test tube sleeves 4, a protection mechanism is disposed at a top of the oscillation chassis 2, the anti-collision mechanism includes an airbag 5, a U-shaped air groove 7, a first air tube 8 and a plurality of silica gel elastic covers 9, the airbag 5 is connected to an inner bottom wall of the test tube sleeves 4, a first compression spring 6 is disposed on an inner wall of the airbag 5, the U-shaped air groove 7 is opened inside the test tube sleeves 4, the first air tube 8 is connected to an inner wall of the test tube sleeves 4, two ends of the first air tube 8 extend to the inside of the airbag 5 and the U-shaped air groove 7 respectively, a plurality of silica gel elastic covers 9 are all connected with the inner wall of the test tube sleeve 4, a second air pipe 10 is arranged between the U-shaped air groove 7 and the silica gel elastic covers 9, the inner parts of the silica gel elastic covers 9 are communicated with the inner parts of the U-shaped air groove 7 through the second air pipe 10, the test tube inserted into the test tube sleeve 4 is pressed downwards and extrudes the air bag 5, so that the air in the air bag 5 enters the U-shaped air groove 7 through the first air tube 8 and then enters the silica gel elastic cover 9 through the second air tube 10 to expand the silica gel elastic cover 9, thereby stabilizing the test tube in the test tube sleeve 4, preventing the test tube from colliding with the inner wall of the test tube sleeve 4 when the test tube is oscillated by utilizing the elasticity of the air bag 5 and the silica gel elastic cover 9, through setting up and utilizing first compression spring 6's elasticity principle that resets, make things convenient for gasbag 5 to take out the gas in the silica gel elastic cover 9, and then be convenient for extract the test tube in the test tube sleeve 4.

Second embodiment, on the basis of the first embodiment, the protection mechanism includes a protection cover 11 and a hinge 12, the protection cover 11 is located above the oscillation chassis 2, the hinge 12 is disposed between the oscillation chassis 2 and the protection cover 11, the protection cover 11 is hinged on the top of the oscillation chassis 2 through the hinge 12, a plurality of second compression springs 13 are installed on the inner top wall of the protection cover 11, a touch panel 14 is connected to the bottom end of the second compression springs 13, two first permanent magnetic strips 15 that are symmetrical to each other are installed on the bottom of the protection cover 11, two second permanent magnetic strips 16 that are matched with the first permanent magnetic strips 15 are installed on the top of the oscillation chassis 2, the oscillator host 1 is started through the control panel 3, the oscillation chassis 2 oscillates test tubes placed in the test tube sleeves 4, the protection cover 11 is turned over, and by setting and utilizing the elasticity of the second compression springs 13, the touch pad 17 at the bottom of the touch panel 14 is touched with the top of the test tubes, use the test tube in test tube sleeve 4 through the cooperation with first permanent-magnet strip 15 and second permanent-magnet strip 16 again, and then avoid the test tube break away from behind test tube sleeve 4 when the oscillation and the broken problem of collision appears, its in-process, protective cover 11 prevents the injury of external thing to the test tube.

In the third embodiment, on the basis of the second embodiment, the lower surface of the contact plate 14 is provided with the contact pad 17, the upper surface of the oscillation chassis 2 is provided with the elastic pad 18, the elastic pad 18 is provided with the through hole and the notch which are matched with the inner diameter of the test tube sleeve 4 and the second permanent magnetic strip 16 in a penetrating manner, and by setting and utilizing the elasticity of the contact pad 17 and the elastic pad 18, when the protective cover 11 is opened and closed, the impact force of the contact plate 14 on the top of the test tube inserted in the test tube sleeve 4 is reduced, the impact force between the oscillation chassis 2 and the protective cover 11 is reduced, and the test tube is prevented from directly colliding with the top of the oscillation chassis 2 when inserted into the test tube sleeve 4, so that the anti-collision performance of the present invention is improved again, and the test tube is prevented from being collided and broken easily.

Fourth embodiment, on the basis of second embodiment, the front side of protective cover 11 is opened and is equipped with catching groove 19, and the inner wall integrated into one piece of catching groove 19 has anti-skidding granule, through setting up catching groove 19, is convenient for open and shut protective cover 11, through setting up anti-skidding granule, has increased the frictional force between staff and catching groove 19, and then has avoided taking place the phenomenon of taking off the hand.

Fifth, on the basis of the first embodiment, cushion pads 20 are disposed at four corners of the bottom of the oscillator main unit 1, suction cups 21 are mounted at the bottom of the cushion pads 20, and the cushion pads 20 are arranged and utilized to have a certain damping function when the oscillator main unit 1 operates, and the suction cups 21 are arranged to improve stability of the oscillator main unit 1 during operation.

The working principle is as follows:

when protecting the test tube and promoting its stability:

the user starts oscillator host computer 1 through control panel 3, make the oscillation chassis 2 to the test tube oscillation of placing in test tube sleeve 4, upset protective cover 11, through setting up and utilizing second compression spring 13's elasticity, make the conflict pad 17 and the conflict of contact plate 14 bottom contradict at the test tube top, use the test tube through the cooperation with first permanent-magnet strip 15 and second permanent-magnet strip 16 again and stabilize in test tube sleeve 4, and then avoid the test tube to break away from behind test tube sleeve 4 and the broken problem of collision appears when the oscillation, its in-process, protective cover 11 prevents the injury of outside thing to the test tube.

When the test tube is anti-collision in the process of using the utility model:

push down and make its extrusion gasbag 5 through the test tube of protection machanism in to inserting test tube sleeve 4, make the gas in the gasbag 5 get into U type gas tank 7 through first trachea 8, get into in silica gel elasticity cover 9 by second trachea 10 again, make silica gel elasticity cover 9 inflation, and then stabilize the test tube in test tube sleeve 4, and prevent its and test tube sleeve 4's inner wall collision when making the test tube vibration through the elasticity that utilizes gasbag 5 and silica gel elasticity cover 9, through setting up and utilizing the elasticity principle that resets of first compression spring 6, when keeping away from vibration chassis 2 with protective cover 11, make gasbag 5 take out the gas in the silica gel elasticity cover 9, and then be convenient for extract the test tube in the test tube sleeve 4.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. The utility model provides an anticollision reagent oscillator for biological assay research, its characterized in that, includes oscillator host computer (1), the upper end of oscillator host computer (1) is provided with vibration chassis (2), be provided with control panel (3) on oscillator host computer (1), control panel (3) are located the front side of oscillator host computer (1), the top of vibration chassis (2) is provided with a plurality of test tube sleeve (4), the inside of test tube sleeve (4) is provided with anticollision mechanism, the top of vibration chassis (2) is provided with protection machanism.

2. The anti-collision reagent oscillator for biological experimental research according to claim 1, wherein the anti-collision mechanism comprises an air bag (5), a U-shaped air groove (7), a first air pipe (8) and a plurality of silica gel elastic covers (9), the air bag (5) is connected with the inner bottom wall of the test tube sleeve (4), the inner wall of the air bag (5) is provided with a first compression spring (6), the U-shaped air groove (7) is arranged inside the test tube sleeve (4), the first air pipe (8) is connected with the inner wall of the test tube sleeve (4), two ends of the first air pipe (8) respectively extend to the inside of the air bag (5) and the U-shaped air groove (7), the plurality of silica gel elastic covers (9) are connected with the inner wall of the test tube sleeve (4), and a second air pipe (10) is arranged between the U-shaped air groove (7) and the silica gel elastic covers (9), the interior of the silica gel elastic cover (9) is communicated with the interior of the U-shaped air groove (7) through a second air pipe (10).

3. The anti-collision reagent oscillator for biological experimental research according to claim 1, wherein the protection mechanism comprises a protection cover (11) and a hinge (12), the protection cover (11) is located above the oscillation chassis (2), the hinge (12) is arranged between the oscillation chassis (2) and the protection cover (11), the protection cover (11) is hinged to the top of the oscillation chassis (2) through the hinge (12), a plurality of second compression springs (13) are installed on the inner top wall of the protection cover (11), the bottom ends of the second compression springs (13) are connected with a touch plate (14), two first permanent magnetic strips (15) which are symmetrical to each other are installed at the bottom of the protection cover (11), and two second permanent magnetic strips (16) which are matched with the first permanent magnetic strips (15) are installed at the top of the oscillation chassis (2).

4. The anti-collision reagent oscillator for biological experimental research according to claim 3, wherein a contact pad (17) is installed on the lower surface of the contact plate (14), an elastic pad (18) is installed on the upper surface of the oscillation chassis (2), and a through hole and a notch matched with the inner diameter of the test tube sleeve (4) and the second permanent magnet strip (16) are formed in the elastic pad (18) in a penetrating manner.

5. The oscillator as claimed in claim 3, wherein the protective cover (11) has a slot (19) at the front side.

6. The oscillator as claimed in claim 5, wherein the inner wall of the catching groove (19) is integrally formed with anti-slip particles.

7. The anti-collision reagent oscillator for biological experimental research according to claim 1, wherein cushions (20) are disposed at four corners of the bottom of the oscillator main body (1).

8. The collision-proof reagent oscillator for biological experimental research according to claim 7, wherein the bottom of the buffer pad (20) is installed with a suction cup (21).

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