CN215103184U - Device for separating microorganisms in non-pure microorganism sample - Google Patents

Abstract

The utility model discloses a device for separating microorganisms in non-pure microorganism samples, which comprises a bottom plate, a dish groove, a pasting plate, a pipe groove, a bracket, a pipe hole, a clamping mechanism and a clamping mechanism, and has the advantages that the clamping mechanism is arranged, and then a knob is rotated to drive a rotating rod to rotate, the rotating rod is pulled to pull a clamping frame through a rotary drum and the rotating frame after moving outwards, so that the clamping frame can be contracted to clamp a test tube, the test tube can be conveniently moved out and fixed to be heated, no external appliance is needed, operation steps are reduced, the operation efficiency is improved, and the clamping mechanism is arranged, a push block pushes the slide block to drive the slide block to slide, the push block enables a rubber head to be tightly pasted on a culture dish through the elasticity of a spring, the aim of pasting culture dishes with different specifications and preventing the culture dish from being stressed and deviated, improving the stability of operation and placement.

Description

Device for separating microorganisms in non-pure microorganism sample

Technical Field

The utility model belongs to the technical field of the microorganism separation, in particular to a device for microorganism separation in the non-pure microorganism sample.

Background

The microorganism refers to various microorganisms researched on the level of molecules, cells or groups, beneficial microorganisms and harmful microorganisms exist, and during the separation of the microorganisms, a separation device is often used for carrying out placement experiments and observation on each separation vessel so as to carry out sampling and separation treatment on each sample, thereby improving the operational order and convenience;

along with the development of the times, little biological separation device has also obtained technological improvement, but current separator is when using, when the test tube sample preparation, often need fix the test tube with the help of outside test-tube rack, still shift out the operation repeatedly to the test tube during operation, the step is comparatively loaded down with trivial details when leading to the operation, still need with the help of outside utensil, it is long when increasing the operation easily, influence efficiency, and the cell groove is when placing the culture dish of difference, when pouring the culture medium, because the difficult adaptation laminating of carrying out with the cell groove of culture dish of different specifications, lead to making the culture dish take place the atress skew easily when pouring, form inconveniently easily, influence the operation and place stably.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In order to overcome prior art not enough, now propose a device that is arranged in non-pure microorganism sample microorganism to separate, step is comparatively loaded down with trivial details when solving the operation, still need be with the help of outside utensil, it is long when increasing the operation easily, influence efficiency, and make the culture dish take place the atress skew when pouring easily, form inconveniently easily, influence the operation and place stable problem, reach convenient shifting out fixed heating to the test tube, need not with the help of outside utensil, reduce operating procedure, improve operating efficiency, and laminate the application of force to the culture dish of different specifications, prevent culture dish atress skew, improve the operation and place stable effect.

(II) technical scheme

The utility model discloses a following technical scheme realizes: the utility model provides a device for separating microorganisms in non-pure microorganism samples, which comprises a bottom plate, a dish groove, a flitch, a pipe groove, a bracket, a pipe hole, a clamping mechanism and a clamping mechanism, wherein the dish groove is arranged at the front end of the top side of the bottom plate, the bottom end of the flitch is bolted on the bottom plate, the pipe groove is arranged at the middle part of the top side of the flitch, the bottom end of the bracket is adhered on the bottom plate through an adhesive, the pipe hole is arranged on the bracket, the bottom end of the clamping mechanism is fixed with the bracket through bolts, the bottom end of the clamping mechanism is slidably arranged on the bottom plate, the clamping mechanism consists of a shell, a clamping frame, a notch, a sliding column, a sliding rail, a rotating frame, a rotating cylinder, a rotating rod, a knob and a glass pad, the front end of the shell is slidably arranged with the clamping frame, the front end of the inner side of the clamping frame is provided with the notch, the bottom end of the sliding column is fixed with the clamping frame through an integral forming mode, and the top end of the sliding column is slidably arranged in the shell through the sliding rail, the clamping frame right-hand member passes through revolving rack and rotary drum normal running fit, rotary drum inner wall and bull stick normal running fit, the welding of bull stick rear end has the knob that is used for the application of force, the notch inner wall is equipped with the glass pad through powerful gluing, the casing bottom is fixed with the support through the bolt mounting mode, clamping mechanism comprises ejector pad, slider, push rod, spring and rubber head, ejector pad bottom and slider bolted connection, the slider bottom welds on the push rod, the push rod left end is contacted with the spring counterbalance to the push rod right-hand member is equipped with the rubber head through powerful gluing, slider and push rod outer wall and bottom plate sliding connection.

Furthermore, the left end and the right end of the rotating frame are respectively rotatably arranged on the clamping frame and the rotating drum.

Furthermore, the outer wall of the rotating rod is in threaded connection with the shell.

Furthermore, the outer side of the sliding column is integrally of a T-shaped structure.

Further, the peripheral part of the outer wall of the knob is provided with a strip-shaped anti-slip groove in an arrayed manner.

Furthermore, the left end of the spring is abutted to the bottom plate.

Further, the bottom side of the push block is in sliding contact with the bottom plate.

(III) advantageous effects

Compared with the prior art, the utility model, following beneficial effect has:

1) step is comparatively loaded down with trivial details when solving the operation, still need be with the help of outside utensil, it is long when increasing the operation easily, influence efficiency's problem, through having set up fixture, the knob is rotated to the rethread, make the knob drive the bull stick and rotate the back, make the bull stick pass through rotary drum and revolving rack pulling clamping frame after moving outward, make clamping frame can contract and carry out the centre gripping to the test tube, reach convenient shifting out fixed heating to the test tube, need not with the help of outside utensil, reduce operating procedure, improve operating efficiency's advantage.

2) The atress skew takes place for solving to make the culture dish when pouring easily, forms inconveniently easily, influences the operation and places stable problem, holds the mechanism through having set up the card, and rethread ejector pad promotes the slider, makes the slider can drive the push rod and slides to make the push rod make the rubber head paste tight culture dish through the elasticity of spring, reach the culture dish to different specifications and laminate the application of force, prevent the culture dish atress skew, improve the operation and place stable advantage.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic structural view of the clamping mechanism of the present invention;

FIG. 3 is a schematic view of the internal structure of the housing of the present invention;

FIG. 4 is a schematic view of the structure of the clamping mechanism of the present invention;

in the figure: the device comprises a bottom plate-1, a dish groove-2, a flitch-3, a pipe groove-4, a bracket-5, a pipe hole-6, a clamping mechanism-7, a clamping mechanism-8, a shell-71, a clamping frame-72, a notch-73, a sliding column-74, a sliding rail-75, a rotating frame-76, a rotating drum-77, a rotating rod-78, a knob-79, a glass pad-710, a push block-81, a sliding block-82, a push rod-83, a spring-84 and a rubber head-85.

Detailed Description

Referring to fig. 1, 2, 3 and 4, the present invention provides an apparatus for separating microorganisms from a non-pure microorganism sample: the clamping mechanism 7 comprises a shell 71, a clamping frame 72, a notch 73, a sliding column 74, a sliding rail 75, a rotating frame 76, a rotating rod 78, a knob 79 and a glass pad 710, wherein the clamping frame 72 is slidably mounted at the front end of the shell 71, the notch 73 is formed at the front end of the inner side of the clamping frame 72, the bottom end of the sliding column 74 is fixed with the clamping frame 72 in an integrated forming mode, and the top end of the sliding column 74 is slidably mounted in the shell 71 through the sliding rail 75, clamping frame 72 right-hand member is through revolving rack 76 and 77 normal running fit of rotary drum, 77 inner wall of rotary drum and the normal running fit of bull stick 78, the welding of bull stick 78 rear end has the knob 79 that is used for the application of force, notch 73 inner wall is equipped with glass pad 710 through powerful gluing, glass pad 710 can choose the rubber of high temperature resistance when the production installation, casing 71 bottom is fixed with support 5 through the bolt mounting mode, card holding mechanism 8 is by ejector pad 81, slider 82, push rod 83, spring 84 and rubber head 85 are constituteed, ejector pad 81 bottom and slider 82 bolted connection, slider 82 bottom welds on push rod 83, the push rod 83 left end offsets with spring 84 and contacts, and the push rod 83 right-hand member is equipped with rubber head 85 through powerful gluing, slider 82 and push rod 83 outer wall and bottom plate 1 sliding connection.

The left end and the right end of the rotating frame 76 are respectively rotatably mounted on the clamping frame 72 and the rotating drum 77, so that force application on the clamping frame 72 is facilitated, and the force application stability is improved.

Wherein, the outer wall of the rotating rod 78 is in threaded connection with the shell 71, so that the rotating rod 78 can rotate and be fixed stably, and the use requirement is met.

The outer side of the sliding column 74 is integrally formed in a T-shaped structure, so that the sliding column 74 can be conveniently embedded and slide in the sliding rail 75.

The peripheral part of the outer wall of the knob 79 is provided with strip-shaped anti-skidding grooves in an arrayed mode, and hand force application is facilitated.

Wherein, the left end of the spring 84 is contacted with the bottom plate 1 to provide convenient pushing support for the push rod 83.

The bottom side of the push block 81 is in sliding contact with the bottom plate 1, so that the push block 81 can stably slide after being stressed, and the force application stability is improved.

The working principle is as follows: when the device is used, the device is placed at a proper position, then test tubes to be sampled can be placed through the tube grooves 4 and the tube holes 6 respectively, when a culture dish is placed, the push block 81 can be pushed by outward pushing force firstly, the push block 81 is enabled to drive the sliding block 82 and the push rod 83 to slide inwards on the bottom plate 1 after being stressed, the tail end of the push rod 83 is retracted in the dish groove 2, after the culture dish is placed, the force application to the push block 81 can be cancelled, the push rod 83 is enabled to reset through the elastic force of the spring 84, the rubber head 85 is enabled to be attached to the culture dish for force application, therefore, when the culture dishes of different specifications are placed, adaptation is carried out through different push lengths of the push rod 83, the culture dishes of different sizes are applied for force fixation, when the test tubes are required to be heated, the test tubes in the tube holes 6 can be pulled through upward pulling force, the test tubes move upwards along the tube holes 6, make its bottom move up the back and can have the usage space of alcohol burner, then, alright with can be through anticlockwise power of turning knob 79 that revolves, make knob 79 atress back drive bull stick 78 carry out outside spiral and release in casing 71, and make bull stick 78 move outward the back, make revolving drum 77 outwards spur revolving rack 76 thereupon, make revolving rack 76 inwards spur the holder 72 at both ends, make holder 72 drive traveller 74 and remove and combine, make glass pad 710 and test tube outer wall offset, until fixed, then alright place the alcohol burner in the support 72 below directly, heat the test tube bottom, when reseing, alright in order to revolve knob 79 through clockwise power, through the same principle, make holder 72 reseed, and reset the test tube, accomplish the use.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (7)

1. A device for separating microorganisms in a non-pure microorganism sample comprises a bottom plate (1), a dish groove (2), a pasting plate (3), a pipe groove (4), a support (5) and a pipe hole (6), wherein the dish groove (2) is formed in the front end of the top side of the bottom plate (1), a bolt at the bottom end of the pasting plate (3) is installed on the bottom plate (1), the pipe groove (4) is formed in the middle of the top side of the pasting plate (3), the bottom end of the support (5) is adhered to the bottom plate (1) through an adhesive, and the pipe hole (6) is formed in the support (5);

the method is characterized in that: the clamping device is characterized by further comprising a clamping mechanism (7) and a clamping mechanism (8), the bottom end of the clamping mechanism (7) is fixed with the support (5) through a bolt, the bottom end of the clamping mechanism (8) is slidably mounted on the bottom plate (1), the clamping mechanism (7) is composed of a shell (71), a clamping frame (72), a notch (73), a sliding column (74), a sliding rail (75), a rotating frame (76), a rotating drum (77), a rotating rod (78), a knob (79) and a glass pad (710), the front end of the shell (71) is slidably mounted with the clamping frame (72), the notch (73) is formed in the front end of the inner side of the clamping frame (72), the bottom end of the sliding column (74) is fixed with the clamping frame (72) in an integrated forming mode, the top end of the sliding column (74) is slidably mounted in the shell (71) through the sliding rail (75), and the right end of the clamping frame (72) is rotatably matched with the rotating drum (77) through the rotating frame (76), the utility model discloses a glass card holder, including rotary drum (77), notch (73), casing (71), support (5), spring (84), rotating rod (78), revolving drum (77) inner wall and rotating rod (78), the welding of rotating rod (78) rear end has knob (79) that are used for the application of force, notch (73) inner wall is equipped with glass pad (710) through powerful gluing, casing (71) bottom is fixed through bolt installation mode and support (5), card holding mechanism (8) comprise ejector pad (81), slider (82), push rod (83), spring (84) and rubber head (85), ejector pad (81) bottom and slider (82) bolted connection, slider (82) bottom welds on push rod (83), push rod (83) left end and spring (84) butt contact to push rod (83) right-hand member is equipped with rubber head (85) through powerful gluing, slider (82) and push rod (83) outer wall and bottom plate (1) sliding connection.

2. An apparatus for the separation of microorganisms in a non-pure microorganism sample according to claim 1, wherein: the left end and the right end of the rotating frame (76) are respectively and rotatably arranged on the clamping frame (72) and the rotating drum (77).

3. An apparatus for the separation of microorganisms in a non-pure microorganism sample according to claim 1, wherein: the outer wall of the rotating rod (78) is in threaded connection with the shell (71).

4. An apparatus for the separation of microorganisms in a non-pure microorganism sample according to claim 1, wherein: the outer side of the sliding column (74) is integrally in a T-shaped structure.

5. An apparatus for the separation of microorganisms in a non-pure microorganism sample according to claim 1, wherein: the periphery of the outer wall of the knob (79) is provided with strip-shaped anti-skidding grooves in an arrayed mode.

6. An apparatus for the separation of microorganisms in a non-pure microorganism sample according to claim 1, wherein: the left end of the spring (84) is in contact with the bottom plate (1) in an abutting mode.

7. An apparatus for the separation of microorganisms in a non-pure microorganism sample according to claim 1, wherein: the bottom side of the push block (81) is in sliding contact with the bottom plate (1).

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