CN221131962U - Numerical control vacuum blood sampling tube mixing device - Google Patents
Numerical control vacuum blood sampling tube mixing device Download PDFInfo
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- CN221131962U CN221131962U CN202322725180.7U CN202322725180U CN221131962U CN 221131962 U CN221131962 U CN 221131962U CN 202322725180 U CN202322725180 U CN 202322725180U CN 221131962 U CN221131962 U CN 221131962U
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- flat plate
- groups
- vacuum blood
- fixed
- blood collection
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- 238000010241 blood sampling Methods 0.000 title claims description 7
- 210000004369 blood Anatomy 0.000 claims abstract description 47
- 239000008280 blood Substances 0.000 claims abstract description 47
- 241000252254 Catostomidae Species 0.000 claims description 5
- 230000000149 penetrating effect Effects 0.000 claims description 3
- 230000000712 assembly Effects 0.000 abstract 2
- 238000000429 assembly Methods 0.000 abstract 2
- HTTJABKRGRZYRN-UHFFFAOYSA-N Heparin Chemical compound OC1C(NC(=O)C)C(O)OC(COS(O)(=O)=O)C1OC1C(OS(O)(=O)=O)C(O)C(OC2C(C(OS(O)(=O)=O)C(OC3C(C(O)C(O)C(O3)C(O)=O)OS(O)(=O)=O)C(CO)O2)NS(O)(=O)=O)C(C(O)=O)O1 HTTJABKRGRZYRN-UHFFFAOYSA-N 0.000 description 8
- 230000005489 elastic deformation Effects 0.000 description 8
- 229960002897 heparin Drugs 0.000 description 8
- 229920000669 heparin Polymers 0.000 description 8
- 230000001360 synchronised effect Effects 0.000 description 8
- 238000001514 detection method Methods 0.000 description 5
- 230000000694 effects Effects 0.000 description 4
- 238000004519 manufacturing process Methods 0.000 description 3
- 208000028571 Occupational disease Diseases 0.000 description 2
- 238000004159 blood analysis Methods 0.000 description 2
- 238000000034 method Methods 0.000 description 2
- 230000009286 beneficial effect Effects 0.000 description 1
- 230000007423 decrease Effects 0.000 description 1
- 201000010099 disease Diseases 0.000 description 1
- 208000037265 diseases, disorders, signs and symptoms Diseases 0.000 description 1
- 210000003743 erythrocyte Anatomy 0.000 description 1
- 238000007689 inspection Methods 0.000 description 1
- 239000000203 mixture Substances 0.000 description 1
- 238000003466 welding Methods 0.000 description 1
Landscapes
- Measurement Of The Respiration, Hearing Ability, Form, And Blood Characteristics Of Living Organisms (AREA)
Abstract
The application discloses a numerical control vacuum blood collection tube mixing device, which relates to the technical field of vacuum blood collection tube mixing and comprises a second flat plate, wherein a plurality of groups of air cylinders and traction assemblies are uniformly fixed at the top wall positions of the second flat plate respectively, a first flat plate is arranged at the end positions of vertical output shafts of the plurality of groups of air cylinders, the bottom wall of the first flat plate is fixed with the top positions of the plurality of groups of traction assemblies, a plurality of groups of vertical limiting plates are arranged at the outer edge of the top wall of the first flat plate, a third flat plate is movably sleeved outside the plurality of groups of vertical limiting plates, and a plurality of groups of placing through holes are formed in the third flat plate. According to the application, the cylinders at different positions are synchronously and alternately started to stretch, so that the different positions of the first flat plate can be pushed to tilt upwards and drive the blood sample in the vacuum blood collection tube to be uniformly mixed, and the traction components at corresponding positions can be driven to elastically deform when the different positions of the first flat plate tilt upwards, so that the moving path of the first flat plate can be limited, and the overturning of the vacuum blood collection tube is avoided.
Description
Technical Field
The application relates to the technical field of vacuum blood collection tube mixing, in particular to a numerical control vacuum blood collection tube mixing device.
Background
In the inspection or laboratory of medical institutions such as hospitals and disease control centers, after a certain time of blood sample collection and placement, red blood cells in blood naturally decline under the influence of the gravitational force. In order to obtain accurate blood analysis and detection results, it is often necessary to mix the blood sample thoroughly prior to blood analysis.
The current common method for mixing blood is that medical staff adopts a manual method to invert the blood for several times, so as to achieve the effect of mixing blood. However, the detection quantity is large, the uniformity of the blood sample can be influenced, the difference of detection results can be caused, the body of medical staff can be damaged, occupational diseases are easy to generate, and therefore, the application provides a numerical control vacuum blood sampling tube mixing device different from the prior art to solve the technical problems.
Disclosure of utility model
In order to solve the problems that the detection quantity is large, the uniformity of a blood sample is affected, the detection results are different, the body of medical staff is damaged, and occupational diseases are easy to generate, the application provides a numerical control vacuum blood sampling tube mixing device.
The application provides a numerical control vacuum blood collection tube mixing device, which adopts the following technical scheme:
The utility model provides a numerical control vacuum blood sampling tube mixing arrangement, includes the second is dull and stereotyped, the roof position of second is dull and stereotyped evenly is fixed with multiunit cylinder and tractive subassembly respectively, multiunit the tip position of the vertical output shaft of cylinder is provided with first dull and stereotyped, first dull and stereotyped diapire is fixed with multiunit tractive subassembly's top position mutually, the vertical limiting plate of multiunit is installed to the outward flange department of first dull and stereotyped roof, multiunit the outside movable sleeve of vertical limiting plate is equipped with the third dull and stereotyped, the through-hole is placed to the multiunit has been seted up to the inside of third dull and stereotyped.
Optionally, the pulling assembly comprises a vertical pipe, the vertical pipe is fixed in the top wall position of the second flat plate, a first spring is fixed in the bottom wall position of the inner cavity of the vertical pipe, a connecting plate is fixed in the top wall position of the first spring, a connecting rope penetrating through the top wall of the vertical pipe is fixed on the top wall of the connecting plate, and the top wall of the connecting rope is fixed with the bottom wall position of the first flat plate.
Through adopting above-mentioned technical scheme, synchronous cylinder flexible of starting different positions in turn to can promote the different positions of first flat board upward perk and drive the inside blood sample mixing of vacuum heparin tube, can drive the connecting rope synchronous movement of corresponding position when the different positions of first flat board upward perk, can drive the connecting plate and move in the inner chamber of vertical pipe synchronous movement and then can drive first spring flexible production elastic deformation under the effect of connecting rope, and then can restrict the travel path of first flat board, avoid the vacuum heparin tube to take place to topple.
Optionally, the roof position of third flat board is provided with multiunit second spring, multiunit second spring's both ends all install the centre gripping strip.
Optionally, the outer wall of vertical limiting plate has evenly offered multiunit screw, the dull and stereotyped diapire position of third is fixed with the mounting panel, the mounting panel outer wall wear to be equipped with screw threaded connection's bolt.
Through adopting above-mentioned technical scheme, reciprocate the position of third dull and stereotyped to suitable position department, thereby twist the bolt and make threaded connection between its and the screw follow can adjust the vertical height between third dull and stereotyped and the first dull and stereotyped, promote the grip bar and compress the second spring to produce elastic deformation to the outside, insert the multiunit vacuum blood collection tube in proper order into the through-hole of placing of corresponding position, loosen the grip bar, promote the grip bar automatically under the elasticity effect of second spring and remove to placing through-hole one side, and then can the fixed vacuum blood collection tube of different specifications of centre gripping.
Optionally, a plurality of groups of sliding grooves are uniformly formed in the two sides of the top wall of the third flat plate, and a plurality of groups of sliding blocks fixed with the bottom wall of the clamping strip are arranged in the inner cavity of each sliding groove in a sliding manner.
Through adopting above-mentioned technical scheme, the centre gripping strip can drive the slider and remove in the inner chamber of spout synchronization when removing to can restrict the travel path of centre gripping strip.
Optionally, an elastic pad is fixed at the middle position of the top wall of the first flat plate.
By adopting the technical scheme, the vacuum blood collection tube can be prevented from being directly contacted with the first flat plate to collide with the first flat plate under the action of the elastic pad, and damage is prevented as much as possible.
Optionally, a plurality of groups of suckers are fixed at the bottom wall of the second flat plate.
By adopting the technical scheme, the numerical control vacuum blood collection tube mixing device can be stably placed by utilizing a plurality of groups of suckers.
In summary, the present application includes at least one of the following beneficial effects:
the first plate moves up and down to a proper position, the clamping strip is pushed outwards and compressed by the second spring to generate elastic deformation, a plurality of groups of vacuum blood collection tubes are sequentially inserted into the placing through holes at the corresponding positions, the clamping strip is loosened, the clamping strip is automatically pushed to move towards one side of the placing through holes under the action of the elasticity of the second spring, and then the vacuum blood collection tubes with different specifications can be clamped and fixed;
Secondly, when carrying out the mixing to the inside blood sample of vacuum heparin tube, synchronous cylinder flexible of starting different positions in turn to can promote the different positions of first dull and stereotyped upward perk and drive the inside blood sample mixing of vacuum heparin tube, can drive connecting rope, the connecting plate synchronous motion of corresponding position and then can drive first spring flexible production elastic deformation when the different positions of first dull and stereotyped upward perk, and then can restrict the travel path of first dull and stereotyped, avoid the vacuum heparin tube to take place to topple.
Drawings
FIG. 1 is a schematic elevational cross-sectional view of the present application;
Fig. 2 is a schematic top view of the present application.
In the figure: 1. a slide block; 2. a bolt; 3. a connecting rope; 4. a vertical pipe; 5. a first spring; 6. a suction cup; 7. a first plate; 8. an elastic pad; 9. a cylinder; 10. a second plate; 11. a connecting plate; 12. a screw hole; 13. a mounting plate; 14. a vertical limiting plate; 15. a chute; 16. a third plate; 17. placing the through holes; 18. clamping the strip; 19. and a second spring.
Detailed Description
The application is described in further detail below with reference to fig. 1-2.
Referring to fig. 1 and 2 of the drawings, one embodiment of the present application is provided: the utility model provides a numerical control vacuum blood sampling tube mixing arrangement, including the dull and stereotyped 10 of second, the roof position of second dull and stereotyped 10 evenly is fixed with multiunit cylinder 9 and tractive subassembly respectively, the tip position of the vertical output shaft of multiunit cylinder 9 is provided with first dull and stereotyped 7, tractive subassembly includes vertical pipe 4, vertical pipe 4 is fixed in the roof position of second dull and stereotyped 10, vertical pipe 4 sets up in the outside position of cylinder 9, the inner chamber diapire position of vertical pipe 4 is fixed with first spring 5, the roof position of first spring 5 is fixed with connecting plate 11, connecting plate 11 roof is fixed with the connecting rope 3 that runs through vertical pipe 4 roof, connecting rope 3 roof is fixed mutually with the diapire position of first dull and stereotyped 7.
Referring to fig. 1 and 2 in the drawings, a plurality of groups of vertical limiting plates 14 are installed at the outer edge of the top wall of the first flat plate 7, the vertical sections of the vertical limiting plates 14 are T-shaped, a third flat plate 16 is movably sleeved outside the plurality of groups of vertical limiting plates 14, and a plurality of groups of placing through holes 17 are formed in the third flat plate 16.
When mixing the blood sample of vacuum heparin tube inside, synchronous cylinder 9 of starting different positions in turn stretches out and draws back to can promote the different positions of first dull and stereotyped 7 upward perk and drive the inside blood sample of vacuum heparin tube and mix, can drive the synchronous removal of connecting rope 3 of corresponding position when the different positions of first dull and stereotyped 7 upward perk, can drive connecting plate 11 synchronous movement and then can drive first spring 5 flexible production elastic deformation in the inner chamber of vertical pipe 4 under the effect of connecting rope 3, and then can restrict the travel path of first dull and stereotyped 7, avoid the vacuum heparin tube to take place to topple over.
Referring to fig. 1 and 2 in the drawings, a plurality of sets of second springs 19 are disposed on the top wall of the third plate 16, two ends of each set of second springs 19 are respectively provided with a clamping strip 18, and sponge strips are adhered to the clamping strips 18 near the side of the through holes 17. The outer wall of the vertical limiting plate 14 is uniformly provided with a plurality of groups of screw holes 12, the bottom wall of the third flat plate 16 is fixedly provided with a mounting plate 13, the longitudinal section of the mounting plate 13 is L-shaped, and the outer wall of the mounting plate 13 is provided with bolts 2 in a penetrating mode in threaded connection with the screw holes 12.
The third flat plate 16 is moved up and down to a proper position, then the bolt 2 is screwed to be in threaded connection with the screw hole 12, so that the vertical height between the third flat plate 16 and the first flat plate 7 can be adjusted, the clamping strip 18 is pushed outwards, the second spring 19 is compressed to generate elastic deformation, a plurality of groups of vacuum blood collection tubes are sequentially inserted into the placing through holes 17 at corresponding positions, the clamping strip 18 is loosened, the clamping strip 18 is automatically pushed to move towards the side of the placing through holes 17 under the elastic force of the second spring 19, and then the vacuum blood collection tubes with different specifications can be clamped and fixed.
Referring to fig. 1 and 2 in the drawings, a plurality of groups of sliding grooves 15 are uniformly formed in two sides of the top wall of the third flat plate 16, sliding blocks 1 fixed to the bottom wall of the clamping strip 18 are slidably arranged in the inner cavities of the plurality of groups of sliding grooves 15, the sliding grooves 15 and the sliding blocks 1 are arranged at the outer sides of the plurality of groups of placing through holes 17, and the longitudinal sections of the sliding grooves 15 and the sliding blocks 1 are in a T shape. The clamping bar 18 can drive the sliding block 1 to synchronously move in the inner cavity of the sliding groove 15 when moving, so that the moving path of the clamping bar 18 can be limited.
Referring to fig. 1 of the drawings, an elastic pad 8 is fixed at a middle position of a top wall of the first plate 7, and the elastic pad 8 is a rubber pad. Under the action of the elastic pad 8, the vacuum blood collection tube can be prevented from being directly contacted and collided with the first flat plate 7, and damage is prevented as much as possible.
Referring to fig. 1 of the drawings, a plurality of groups of suction cups 6 are fixed at the bottom wall of the second plate 10. The numerical control vacuum blood collection tube mixing device can be stably placed at a proper position by utilizing a plurality of groups of suckers 6.
Working principle: when the numerical control vacuum blood collection tube mixing device is used, the numerical control vacuum blood collection tube mixing device can be stably placed at a proper position by utilizing the plurality of groups of suckers 6, the position of the third flat plate 16 is moved up and down to the proper position, then the bolt 2 is screwed to enable the third flat plate 16 to be in threaded connection with the screw hole 12, so that the vertical height between the third flat plate 16 and the first flat plate 7 can be adjusted, the clamping strip 18 is pushed outwards, the second spring 19 is compressed to generate elastic deformation, the plurality of groups of vacuum blood collection tubes are sequentially inserted into the placing through holes 17 at corresponding positions, the clamping strip 18 is loosened, the clamping strip 18 is automatically pushed to move towards the side of the placing through holes 17 under the elastic force of the second spring 19, and then the vacuum blood collection tubes with different specifications can be clamped and fixed.
The clamping strip 18 can drive the sliding block 1 to synchronously move in the inner cavity of the sliding groove 15 when moving, so that the moving path of the clamping strip 18 can be limited, the vacuum blood collection tube can be prevented from being directly contacted with the first flat plate 7 under the action of the elastic pad 8, damage is prevented as much as possible, when the blood sample in the vacuum blood collection tube is uniformly mixed, the cylinders 9 at different positions are synchronously and alternately started to stretch and retract, and therefore the different positions of the first flat plate 7 can be pushed to tilt upwards and the blood sample in the vacuum blood collection tube is driven to be uniformly mixed.
The connecting ropes 3 at corresponding positions can be driven to synchronously move when different positions of the first flat plate 7 are tilted upwards, the connecting plates 11 can be driven to synchronously move in the inner cavity of the vertical tube 4 under the action of the connecting ropes 3, the first springs 5 can be driven to stretch and retract to generate elastic deformation, the moving path of the first flat plate 7 can be further limited, and the vacuum blood collection tube is prevented from overturning.
Standard parts used in the document of the application can be purchased from market, all parts in the document of the application can be customized according to the description of the specification and the drawings, the specific connection modes of all parts adopt conventional means such as mature bolts, rivets, welding and the like in the prior art, the machinery, the parts and the equipment adopt conventional models in the prior art, and the circuit connection adopts conventional connection modes in the prior art, so that the specific description is not made.
The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.
Claims (7)
1. The utility model provides a numerical control vacuum blood sampling tube mixing device, includes second flat board (10), its characterized in that: the top wall position of the second flat plate (10) is uniformly fixed with a plurality of groups of air cylinders (9) and traction components respectively, a plurality of groups of end positions of vertical output shafts of the air cylinders (9) are provided with a first flat plate (7), the bottom wall of the first flat plate (7) is fixed with the top position of the plurality of groups of traction components, a plurality of groups of vertical limiting plates (14) are arranged at the outer edge of the top wall of the first flat plate (7), a plurality of groups of vertical limiting plates (14) are sleeved with a third flat plate (16) in an outside movable mode, and a plurality of groups of placing through holes (17) are formed in the third flat plate (16).
2. The numerical control vacuum blood collection tube mixing device according to claim 1, wherein: the traction assembly comprises a vertical pipe (4), the vertical pipe (4) is fixed at the top wall position of a second flat plate (10), a first spring (5) is fixed at the bottom wall position of an inner cavity of the vertical pipe (4), a connecting plate (11) is fixed at the top wall position of the first spring (5), a connecting rope (3) penetrating through the top wall of the vertical pipe (4) is fixed at the top wall of the connecting plate (11), and the top wall of the connecting rope (3) is fixed with the bottom wall position of a first flat plate (7).
3. The numerical control vacuum blood collection tube mixing device according to claim 1, wherein: the top wall of the third flat plate (16) is provided with a plurality of groups of second springs (19), and clamping strips (18) are arranged at two ends of the second springs (19).
4. The numerical control vacuum blood collection tube mixing device according to claim 3, wherein: a plurality of groups of sliding grooves (15) are uniformly formed in the two sides of the top wall of the third flat plate (16), and a plurality of groups of sliding blocks (1) fixed with the bottom wall of the clamping strip (18) are arranged in the inner cavities of the sliding grooves (15) in a sliding manner.
5. The numerical control vacuum blood collection tube mixing device according to claim 1, wherein: the outer wall of the vertical limiting plate (14) is uniformly provided with a plurality of groups of screw holes (12), the bottom wall of the third flat plate (16) is fixedly provided with a mounting plate (13), and the outer wall of the mounting plate (13) is provided with bolts (2) in threaded connection with the screw holes (12).
6. The numerical control vacuum blood collection tube mixing device according to claim 1, wherein: an elastic pad (8) is fixed at the middle position of the top wall of the first flat plate (7).
7. The numerical control vacuum blood collection tube mixing device according to claim 1, wherein: a plurality of groups of suckers (6) are fixed at the bottom wall of the second flat plate (10).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322725180.7U CN221131962U (en) | 2023-10-11 | 2023-10-11 | Numerical control vacuum blood sampling tube mixing device |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN202322725180.7U CN221131962U (en) | 2023-10-11 | 2023-10-11 | Numerical control vacuum blood sampling tube mixing device |
Publications (1)
| Publication Number | Publication Date |
|---|---|
| CN221131962U true CN221131962U (en) | 2024-06-14 |
Family
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN202322725180.7U Active CN221131962U (en) | 2023-10-11 | 2023-10-11 | Numerical control vacuum blood sampling tube mixing device |
Country Status (1)
| Country | Link |
|---|---|
| CN (1) | CN221131962U (en) |
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2023
- 2023-10-11 CN CN202322725180.7U patent/CN221131962U/en active Active
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