CN220361076U - Oscillating device for pathogen rapid inspection - Google Patents
Oscillating device for pathogen rapid inspection Download PDFInfo
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- CN220361076U CN220361076U CN202321916537.3U CN202321916537U CN220361076U CN 220361076 U CN220361076 U CN 220361076U CN 202321916537 U CN202321916537 U CN 202321916537U CN 220361076 U CN220361076 U CN 220361076U
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- 244000052769 pathogen Species 0.000 title claims abstract description 14
- 230000001717 pathogenic effect Effects 0.000 title claims description 9
- 238000007689 inspection Methods 0.000 title description 2
- 230000008878 coupling Effects 0.000 claims description 6
- 238000010168 coupling process Methods 0.000 claims description 6
- 238000005859 coupling reaction Methods 0.000 claims description 6
- 238000001514 detection method Methods 0.000 claims 5
- 230000001105 regulatory effect Effects 0.000 claims 3
- 230000010355 oscillation Effects 0.000 abstract description 32
- 239000000523 sample Substances 0.000 abstract description 17
- 230000000694 effects Effects 0.000 abstract description 7
- 239000012488 sample solution Substances 0.000 abstract description 4
- 230000033001 locomotion Effects 0.000 description 3
- 238000005070 sampling Methods 0.000 description 3
- 230000001580 bacterial effect Effects 0.000 description 1
- 230000009286 beneficial effect Effects 0.000 description 1
- 238000005119 centrifugation Methods 0.000 description 1
- 238000012864 cross contamination Methods 0.000 description 1
- 238000010586 diagram Methods 0.000 description 1
- 239000003814 drug Substances 0.000 description 1
- 208000015181 infectious disease Diseases 0.000 description 1
- 230000002458 infectious effect Effects 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000000405 serological effect Effects 0.000 description 1
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- Mixers With Rotating Receptacles And Mixers With Vibration Mechanisms (AREA)
Abstract
The utility model discloses an oscillating device for rapidly inspecting pathogens, which comprises a box body and an oscillator, wherein two groups of sliding grooves are formed in the oscillator, guide blocks are arranged on two sides of the two groups of sliding grooves, sliding blocks are arranged in the sliding grooves in a sliding manner, guide grooves are formed in two sides of the sliding blocks, the guide blocks are arranged in the guide grooves in a clamping manner, an oscillating box is arranged between the two groups of guide blocks, connecting plates are arranged on two sides of the oscillating box, one side shaft of each connecting plate is connected with a telescopic rod, the free end shaft of each telescopic rod is connected with a connecting shaft, the connecting shafts are rotatably arranged in the oscillator through bearings, a plurality of groups of oscillating frames are arranged in the oscillating box, and a plurality of groups of sample tubes are arranged on each group of oscillating frames. When the device is used, the oscillation amplitude of the oscillator in the adjusting device can be shortened by adjusting the extension of the telescopic rod, and when various types of test samples need to be oscillated, the inspector can respectively select proper oscillation amplitude according to sample solutions, so that the oscillation effect of the device and the working efficiency of the inspector are effectively improved.
Description
Technical Field
The utility model relates to the technical field of oscillating devices, in particular to an oscillating device for rapidly detecting pathogens.
Background
Pathogen examination, i.e. medical examination to ascertain the type of infectious microbe by different laboratory examination methods, generally includes bacterial culture, serological examination and microscopic examination, requiring the sampling tube to be oscillated after sampling the pathogen.
As in the chinese patent of patent No. 202220914853.6, there is provided a clinical medicine examination oscillation device comprising a case, an oscillation section and a horizontal oscillation driving structure, the oscillation section being installed in the case through the horizontal oscillation driving structure. The device can enable the sample to horizontally oscillate through the horizontal oscillation structure, so that the problem of sample centrifugation caused by the traditional oscillation device is improved to a certain extent.
However, most of the existing oscillating devices cannot adjust the oscillation amplitude when oscillating samples, and for different samples, the viscosity of the sample solution is different due to the fact that the solutions adopted in sampling are different, and the uniform amplitude is adopted for oscillation, so that longer oscillation time can be spent, and further the oscillation effect of the device and the working efficiency of the inspector are reduced.
Disclosure of Invention
The utility model provides an oscillating device for rapidly inspecting pathogens, which solves the problems that most oscillating devices in the prior art cannot adjust the oscillating amplitude, so that the oscillating effect of the device and the working efficiency of inspectors are reduced.
In order to achieve the above purpose, the present utility model provides the following technical solutions:
the utility model provides an oscillating device for rapidly inspecting pathogens, which comprises a box body and an oscillator, wherein two groups of sliding grooves are formed in the oscillator, guide blocks are arranged on two sides of each sliding groove, sliding blocks are arranged in the sliding grooves in a sliding manner, guide grooves are formed in two sides of each sliding block, the guide blocks are clamped in the guide grooves, an oscillating box in rotary connection is arranged between the two groups of the guide blocks, connecting plates are arranged on two sides of the oscillating box, one side of each connecting plate is connected with a telescopic rod through a shaft, the free end of each telescopic rod is connected with a connecting shaft, the connecting shafts are rotatably arranged in the oscillator through bearings, a plurality of groups of oscillating frames are arranged in the oscillating box, and a plurality of groups of sample tubes are arranged on each oscillating frame.
Preferably, the vibration frame is further provided with a splash-proof component, the splash-proof component comprises inclined grooves formed in two sides of the vibration frame, a plurality of groups of inclined blocks and layering plates are arranged in the vibration box, the inclined blocks are clamped in the inclined grooves, the bottom end of the vibration frame is provided with a bottom plate connected through a plurality of groups of springs, the bottom plate is in contact with the bottom of the sample tube, and a door plate connected in a rotating mode is arranged on one side of the vibration box.
Preferably, a diversion slope is arranged on one side of each group of layered plates, which is close to the door plate.
Preferably, a first rotating shaft connected through a coupling is coaxially arranged at the free end of the connecting shaft close to the side of the box body, the first rotating shaft is rotatably arranged in the box body, a first gear, a second gear and a third gear are sequentially arranged on the first rotating shaft from one end close to the box body to one end far away from the box body, a motor is arranged in the box body, a second rotating shaft connected through the coupling is arranged at the output shaft end of the motor, and a fourth gear, a fifth gear and a sixth gear are sequentially arranged on one end of the second rotating shaft from one end close to the box body to one end far away from the box body.
Preferably, the first rotating shaft is further provided with an adjusting component, the adjusting component comprises a control board coaxially arranged at the free end of the first rotating shaft, two groups of clamping blocks in sliding connection are arranged on one side of the box body, one end of each clamping block is clamped on one side of the control board, the other end of each clamping block is provided with a clamping plate, an adjusting plate is clamped on the clamping plate, a grab handle is arranged on one side of the adjusting plate, a positioning block is arranged at the bottom end of the adjusting plate, three groups of positioning grooves are formed in one side of the box body, and the positioning blocks are clamped in the positioning grooves.
The technical scheme provided by the utility model has the beneficial effects that:
(1) When the telescopic rod is extended, the oscillating box is connected with the connecting plate through the telescopic rod, and the sliding blocks arranged at the top end and the top end of the oscillating box are slidably clamped in the oscillator, so that the radius of the motion track at the two ends of the oscillating box can be increased, and the oscillating amplitude of the oscillator is increased; when the telescopic rod is shortened, the oscillation amplitude of the oscillator is reduced by the same principle, and the inspector can select proper oscillation amplitude according to the specific attribute of the sample solution, so that the oscillation effect of the device and the working efficiency of the inspector are effectively improved.
(2) The device can adjust oscillation speed of oscillation device at the inside adjusting part that sets up of box, can drive the clamp splice that its bottom card was established through sliding adjusting plate on the horizontal direction and remove, and then make the control panel that the clamp splice pressed from both sides and establish move in the horizontal direction to adjust first pivot in the position on the horizontal direction, change the mesh relation of first pivot epaxial gear and second pivot epaxial gear, realize the regulation to oscillation speed, and then strengthened the practicality of device.
Drawings
FIG. 1 is a schematic view of an assembled structure of the present utility model;
FIG. 2 is a schematic diagram of the split structure of the present utility model;
FIG. 3 is an enlarged schematic view of the area A in FIG. 2;
FIG. 4 is an enlarged schematic view of the area B in FIG. 2;
FIG. 5 is a schematic view of a part of the structure of the present utility model after being cut away;
reference numerals in the drawings of the specification include: 1. a case; 2. a slide block; 3. a guide block; 4. a chute; 5. an oscillator; 6. a buckle; 7. a door panel; 8. a telescopic rod; 9. a bearing; 10. a connecting shaft; 11. a connecting plate; 12. a laminated plate; 13. a guide groove; 14. a connection hole; 15. clamping blocks; 16. a clamping plate; 17. a positioning block; 18. a grab handle; 19. an adjusting plate; 20. a clamping block; 21. a positioning groove; 22. an oscillating frame; 23. a sample tube; 24. a chute; 25. a spring; 26. a bottom plate; 27. an oscillating box; 28. an oblique block; 29. diversion slope; 31. a first gear; 32. a first rotating shaft; 33. a second gear; 34. a third gear; 35. a control board; 37. a motor; 38. a second rotating shaft; 39. a sixth gear; 40. a fifth gear; 41. and a fourth gear.
Detailed Description
The utility model is described in further detail below with reference to the attached drawings and embodiments:
examples:
as shown in fig. 1 to 5, the utility model provides an oscillating device for rapidly inspecting pathogens, which comprises a box body 1 and an oscillator 5, wherein two groups of sliding grooves 4 are formed in the oscillator 5, guide blocks 3 are arranged on two sides of each of the two groups of sliding grooves 4, a sliding block 2 is arranged in the sliding groove 4 in a sliding manner, guide grooves 13 are formed on two sides of the sliding block 2, the guide blocks 3 are clamped in the guide grooves 13, an oscillating box 27 in rotary connection is arranged between the two groups of the guide blocks 3, connecting plates 11 are arranged on two sides of the oscillating box 27, one side of each connecting plate 11 is connected with a telescopic rod 8 in a shaft manner, the free end of each telescopic rod 8 is connected with a connecting shaft 10 in a rotary manner through a bearing 9, a plurality of groups of oscillating frames 22 are arranged in the oscillating box 27, and a plurality of groups of sample tubes 23 are arranged on each oscillating frame 22.
As shown in fig. 2, fig. 4 and fig. 5, the vibration frame 22 is further provided with a splash-proof component, the splash-proof component comprises inclined slots 24 formed in two sides of the vibration frame 22, a plurality of groups of inclined blocks 28 and layering plates 12 are arranged in the vibration box 27, the inclined blocks 28 are clamped in the inclined slots 24, a bottom plate 26 connected through the plurality of groups of springs 25 is arranged at the bottom end of the vibration frame 22, the bottom plate 26 is contacted with the bottom of the sample tube 23, one side of the vibration box 27 is provided with a door 7 in rotary connection, when a inspector needs to vibrate a sample, the sample is firstly placed in the vibration frame 22, and because the inclined blocks 28 arranged in the vibration box 27 are clamped in the inclined slots 24 on two sides of the vibration frame 22, when the vibration frame 22 is placed in the vibration box 27, the top end of the sample tube 23 is gradually contacted with the inner wall of the vibration box 27 or the bottom end of the layering plates 12, and meanwhile, the bottom plate 26 connected through the plurality of groups of springs 25 is pressed down until the vibration frame 22 is completely placed in the vibration box 27, and the bottom plate 26 compresses the sample tube 23 under the action of the spring 25, so that the sample is prevented from being spilled when the device vibrates the sample.
As shown in fig. 2 and 5, a diversion slope 29 is disposed on one side of each component layer 12 close to the door panel 7, and if the oscillating frame 22 is placed in the oscillating box 27 and a part of solution is spilled due to improper operation, the diversion slope 29 disposed on one side of each component layer 12 can prevent cross contamination of samples between different layers.
As shown in fig. 2 and 5, a first rotating shaft 32 connected by a coupling is coaxially arranged at the free end of the connecting shaft 10 near one side of the box body 1, the first rotating shaft 32 is rotatably arranged in the box body 1, a first gear 31, a second gear 33 and a third gear 34 are sequentially arranged on the first rotating shaft 32 from one end near the box body 1 to one end far from the box body 1, a motor 37 is arranged in the box body 1, a second rotating shaft 38 connected by a coupling is arranged at the output shaft end of the motor 37, and a fourth gear 41, a fifth gear 40 and a sixth gear 39 are sequentially arranged on the second rotating shaft 38 from one end near the box body 1 to one end far from the box body 1.
As shown in fig. 3 and 5, an adjusting component is further disposed on the first rotating shaft 32, the adjusting component includes a control board 35 coaxially disposed at a free end of the first rotating shaft 32, two sets of clamping blocks 15 in sliding connection are disposed on one side of the box 1, one end of each clamping block 15 is clamped on one side of the control board 35, a clamping plate 16 is disposed on the other end of each clamping block 15, an adjusting plate 19 is clamped on the clamping plate 16, a grab handle 18 is disposed on one side of the adjusting plate 19, a positioning block 17 is disposed at a bottom end of the adjusting plate 19, three sets of positioning slots 21 are disposed on one side of the box 1, and the positioning blocks 17 are clamped in the positioning slots 21.
When the inspector needs to adjust the oscillating speed of the oscillating device through the adjusting component, the positioning block 17 arranged at the bottom end of the adjusting plate 19 can be separated from the positioning groove 21 where the adjusting plate 19 is currently positioned, then the adjusting plate 19 is slid in the horizontal direction to drive the clamping block 15 clamped at the bottom end of the adjusting plate to move in the horizontal direction, and then the control plate 35 clamped by the clamping block 15 moves in the horizontal direction, as the control plate 35 is arranged at the free end of the first rotating shaft 32, the position of the first rotating shaft 32 in the horizontal direction can be adjusted by adjusting the control plate 35, the meshing relationship between the gear on the first rotating shaft 32 and the gear on the second rotating shaft 38 is changed, and the oscillating speed can be adjusted, so that the practicability of the device is enhanced.
The specific use mode and effect of the embodiment are as follows:
before using, a inspector firstly puts a sample to be oscillated into the sample tube 23, puts the sample into the oscillation frame 22, puts the oscillation frame 22 into the oscillation box 27, closes the door plate 7, and shortens the oscillation amplitude of the oscillator 5 in the adjusting device by adjusting the extension of the telescopic rod 8, when the telescopic rod 8 extends, the oscillation box 27 is connected with the connecting plate 11 through the telescopic rod 8, and the sliding blocks 2 arranged at the top end and the top end of the oscillation box 27 are slidably clamped in the oscillator 5, so that the movement tracks at the two ends of the oscillation box 27 are in a circular shape, and the movement track radius at the two ends of the oscillation box 27 is increased when the telescopic rod 8 extends, thereby increasing the oscillation amplitude of the oscillator 5; when the telescopic rod 8 is shortened, the oscillation amplitude of the oscillator 5 is reduced by the same principle, and the inspector can select proper oscillation amplitude according to the specific attribute of the sample solution, so that the oscillation effect of the device and the working efficiency of the inspector are effectively improved.
The foregoing is merely exemplary of the present utility model, and specific technical solutions and/or features that are well known in the art have not been described in detail herein. It should be noted that, for those skilled in the art, several variations and modifications can be made without departing from the technical solution of the present utility model, and these should also be regarded as the protection scope of the present utility model, which does not affect the effect of the implementation of the present utility model and the practical applicability of the patent. The protection scope of the present application shall be subject to the content of the claims, and the description of the specific embodiments and the like in the specification can be used for explaining the content of the claims.
Claims (5)
1. An oscillating device for rapid pathogen detection, characterized by: including box (1) and oscillator (5), two sets of spout (4) have been seted up in oscillator (5), two sets of spout (4) both sides all are provided with guide block (3), slide in spout (4) is provided with slider (2), guide slot (13) have all been seted up to slider (2) both sides, guide block (3) card is established in guide slot (13), two sets of be provided with between guide block (3) oscillating box (27) of swivelling joint, oscillating box (27) both sides all are provided with connecting plate (11), connecting plate (11) one side hub connection has telescopic link (8), telescopic link (8) free end hub connection has connecting axle (10), connecting axle (10) are in through bearing (9) rotation setting in oscillator (5), be provided with multiunit oscillating frame (22) in oscillating box (27), set up multiunit sample pipe (23) on oscillating frame (22).
2. An oscillating device for rapid pathogen detection according to claim 1, wherein: the anti-splash device is characterized in that an anti-splash component is further arranged on the oscillating frame (22), the anti-splash component comprises inclined grooves (24) formed in two sides of the oscillating frame (22), a plurality of groups of inclined blocks (28) and layering plates (12) are arranged in the oscillating box (27), the inclined blocks (28) are clamped in the inclined grooves (24), a bottom plate (26) connected through a plurality of groups of springs (25) is arranged at the bottom end of the oscillating frame (22), the bottom plate (26) is in contact with the bottom of the sample tube (23), and a door plate (7) connected in a rotating mode is arranged on one side of the oscillating box (27).
3. An oscillating device for rapid pathogen detection according to claim 2, wherein: and a diversion slope (29) is arranged on one side of each group of laminated plates (12) close to the door plate (7).
4. A vibrating device for rapid pathogen detection according to claim 3, wherein: be close to the coaxial first pivot (32) that are provided with through coupling joint of free end of connecting axle (10) of box (1) one side, first pivot (32) rotate and set up in box (1), on first pivot (32) from being close to box (1) one end to keeping away from box (1) one end has set gradually first gear (31), second gear (33) and third gear (34), be provided with motor (37) in box (1), motor (37) output axle head is provided with second pivot (38) through coupling joint, second pivot (38) are close to box (1) one end to keeping away from box (1) one end has set gradually fourth gear (41), fifth gear (40) and sixth gear (39).
5. An oscillating device for rapid pathogen detection according to claim 4, wherein: still be provided with adjusting part on first pivot (32), adjusting part is including coaxial setting control panel (35) of first pivot (32) free end, box (1) one side is provided with two sets of clamp splice (15) of sliding connection, clamp splice (15) one end card is established control panel (35) one side, the clamp splice (15) other end is provided with cardboard (16), the card is equipped with regulating plate (19) on cardboard (16), regulating plate (19) one side is provided with grab handle (18), regulating plate (19) bottom is provided with locating piece (17), three sets of constant head tanks (21) have been seted up to box (1) one side, locating piece (17) card is established in constant head tank (21).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202321916537.3U CN220361076U (en) | 2023-07-20 | 2023-07-20 | Oscillating device for pathogen rapid inspection |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202321916537.3U CN220361076U (en) | 2023-07-20 | 2023-07-20 | Oscillating device for pathogen rapid inspection |
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Publication Number | Publication Date |
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CN220361076U true CN220361076U (en) | 2024-01-19 |
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CN202321916537.3U Active CN220361076U (en) | 2023-07-20 | 2023-07-20 | Oscillating device for pathogen rapid inspection |
Country Status (1)
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CN (1) | CN220361076U (en) |
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2023
- 2023-07-20 CN CN202321916537.3U patent/CN220361076U/en active Active
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