CN205146269U - Test -tube - Google Patents

Abstract

The utility model relates to the field of medical equipment, especially, relate to one kind and be used for depositing liquid, test -tube like body fluid or blood. The utility model discloses a test -tube, including annular lateral wall and underseal board, test -tube upper portion is equipped with the opening, and test -tube upper portion is used for with the cooperation of other equipment and is connected, and in the middle part of the test -tube and test -tube lower part is used for saving liquid, being equipped with between test -tube upper portion and the test -tube lower part and bending, test -tube upper portion pipe diameter is greater than test -tube lower part pipe diameter, aim at when gathering equal high liquid, reducible liquid storage part's stock solution volume. The utility model has the advantages of reduce the test -tube volume, reducing the quantity of raw and other materials to reduce cost by a wide margin, the liquid of being convenient for simultaneously pour into, and test -tube and test -tube frame or detecting instrument are difficult for rocking when fixed.

Description

A kind of test tube

Technical field

The utility model relates to medical instruments field, particularly relates to a kind of for depositing liquid, as the test tube of body fluid or blood.

Background technology

In prior art, collection and the memory device of body fluid mostly are test tube.When can detect body fluid, require the body fluid in test tube must reach certain volume could realize detect object.When detecting as used examination bar, examination bar must reach certain depth when inserting test tube just can make whole detecting portion of examination bar immerse in liquid, namely require the liquid in test tube have higher liquid level (from the mouth of pipe more close to) liquid just can be made to contact with whole detecting portion of examination bar, thus only have the liquid level of the liquid in test tube close to the mouth of pipe, be just convenient to the detection of dropper draw liquid and examination bar.Can humor collecting to the specific group such as children, old man time, giving and seldom, often can not reach and detect necessary cubical content due to body fluid such as children old men.

As shown in Figure 1, the test tube 100 of prior art routine, wall thickness is B1, and the internal diameter of test tube is D5, and the external diameter of test tube is d, and the pipe radius of test tube is the distance of R(axis to test tube annular sidewall outer surface).

Solve the problem that children's humor collecting amount is few, settling mode is the collecting amount reducing body fluid, namely reduces the volume of test tube, makes less body fluid can reach the requirement of detection.

Reduce the volume of test tube, when not changing test tube outside diameter d:

As shown in Figure 2, prior art reaches the object reducing test tube volume by the internal diameter D1 reducing test tube tube chamber, D1 is less than D5, but the wall thickness B2 that the drawback of the method is test tube 100 adds, B2 is greater than B1, this method increases the raw-material use amount of test tube, cost is significantly improved.As shown in Figure 4, the external diameter of test tube 100 is constant, but wall thickness B3 comparatively B1 increase, and internal diameter D2 comparatively D5 reduces, but liquid storage amount reduces limited.

As shown in Figure 3, if reduce test tube outside diameter d 1 while the internal diameter D3 reducing test tube, namely D3 is less than D5, d1 is less than d, although solve the problem by material amount and cost, test tube 100 can be made again to be uprightly positioned on rack for test tube or on rack for test tube rock, cause the test tube be positioned on rack for test tube to tilt, even cause in vitro liquid to spill.On the other hand, because the opening diameter of test tube reduces, test tube opening portion is caused to be good at and other part fits, as test tube plug, connector etc. cause perfusion fluid difficulty, other dependent interaction is difficult to embody as leakproof, convenient connection etc., moreover, reduce external diameter test tube cannot on detecting instrument normally use (general detection device cannot clamp the test tube decreasing external diameter, the internal diameter at checkout equipment rack for test tube holding test tubes place is similar all larger, test tube external diameter is little put the inside can rock), be not easy to use instrument to the liquid direct-detection in test tube.

Thus how when meeting detection demand, both the volume of test tube can be reduced, cost can not be increased again, test tube not easily tilts or rocks when being positioned over rack for test tube, test tube opening portion is convenient to the cooperation of other parts as leakage preventing plug, connector etc., simultaneously also easy during perfusion fluid, and test tube can directly use detecting instrument to detect wherein liquid, above situation becomes industry technical barrier urgently to be resolved hurrily.

Summary of the invention

One of goal of the invention of the present utility model is that open one can reduce raw-material consumption, and significantly reduce costs, when meeting testing requirement, test tube opening portion (ensuring certain internal-and external diameter) is convenient to the cooperation of other parts as leakage preventing plug, connector etc., reduce test tube volume, and be convenient to rack for test tube or detecting instrument is fixed and is convenient to pouring liquid, the test tube not easily rocked when coordinating with rack for test tube simultaneously.

The technical solution of the utility model is as follows:

A kind of test tube, comprise annular sidewall and bottom sealing plate, test tube top is provided with opening, and test tube top is used for the cooperation of other equipment and is connected, and in the middle part of test tube and test tube bottom is used for storage of liquids; Be provided with bending between described test tube top and test tube bottom, bending can be only be positioned on the outer surface of annular sidewall, may also be and is only positioned on the medial surface of annular sidewall, also simultaneously on the outer surface and annular sidewall medial surface of annular sidewall.As described in have in the middle part of test tube bending or as described in have with junction, test tube top in the middle part of test tube bending or as described in have bending with the junction of test tube bottom in the middle part of test tube; Wherein bending can be 1,2 etc., and test tube top caliber is greater than test tube bottom caliber, and object is, when gathering equal height liquid, can reduce the liquid storage amount of liquid storing part.But due to because of production and processing reason, as in knockout course, there is Small Taper in caliber, makes test tube bottom caliber be slightly less than except the caliber of test tube top.

In such scheme, the annular sidewall outer surface on test tube top is the first radius to the ultimate range of test tube axis, and the annular sidewall outer surface in the middle part of test tube is the second radius to the ultimate range of test tube axis, and the first radius is greater than the second radius.Also the annular sidewall outer surface in the middle part of test tube can be provided with stator, described stator and described annular sidewall can be one, may also be split and coordinate.Stator can longitudinally be arranged on the annular sidewall outer surface in the middle part of test tube, may also be on the annular sidewall outer surface that is horizontally set in the middle part of test tube.The number of stator does not limit, and can be 1,2,3,4,5,6,7,8,9,10 etc.Owing to reducing with the test tube caliber of rack for test tube cooperation place, test tube easily tilts in rack for test tube, the liquid in test tube can be caused to trickle down and pollute.When described stator puts into rack for test tube for test tube, increase the diameter with rack for test tube cooperation place, test tube is not easily rocked in rack for test tube.So described stator outer surface is the 3rd radius to the ultimate range of test tube axis, and described 3rd radius is greater than described second radius, and described 3rd radius can be less than or equal to described first radius, also can slightly larger than described first radius.

In such scheme, the cross section in the middle part of test tube is external tooth ring-type.As being provided with axial groove in the middle part of test tube, test tube tube chamber volume reducing, but the diameter of test tube and rack for test tube cooperation place does not reduce.May also be and establish axial projection on the annular sidewall of test tube.

In such scheme, the caliber in the middle part of test tube is identical with test tube top caliber at least partly.In the middle part of test tube, caliber can be identical with test tube top caliber, may also be part identical.When caliber in the middle part of test tube is identical with test tube top caliber, bending is positioned at the junction with test tube bottom in the middle part of test tube.When test tube central tube path portion is identical with test tube top, when near namely connecting with test tube top in the middle part of test tube, caliber is identical, bending is positioned in the middle part of test tube.In the middle part of test tube, caliber also can be consistent with test tube bottom caliber, also can be less than test tube top caliber by caliber in the middle part of test tube, and in the middle part of test tube, caliber can be greater than test tube bottom caliber etc.

In such scheme, the caliber in the middle part of test tube is identical with test tube bottom caliber, and is less than test tube top caliber.Also the annular sidewall outer surface in the middle part of test tube can be provided with stator, described stator and described annular sidewall can be one, may also be split and coordinate.Stator can longitudinally be arranged on the annular sidewall outer surface in the middle part of test tube, may also be on the annular sidewall outer surface that is horizontally set in the middle part of test tube.The number of stator does not limit, and can be 1,2,3,4,5,6,7,8,9,10 etc.Stator can be 360 ° of ring-types, can be C shape, may also be sheet.Described stator outer surface is the 3rd radius to the ultimate range of test tube axis, and described 3rd radius is greater than described second radius, and described 3rd radius can be less than or equal to described first radius, also can slightly larger than described first radius.

In such scheme, annular sidewall medial surface comprises middle and lower part ring-type medial surface and top ring-type medial surface, and described middle and lower part ring-type medial surface internal diameter reduces from top to bottom gradually.Described top ring-type medial surface internal diameter reduces from top to bottom gradually.Wherein, described top ring-type medial surface tapering is less than or equal to described middle and lower part ring-type medial surface tapering.Described middle and lower part ring-type medial surface tapering is greater than 2 ° and is less than or equal to 6 °.Middle and lower part ring-type medial surface tapering can be 2 °, 3 °, 4 ° etc.Annular sidewall medial surface also comprises the loop connecting face connecting described middle and lower part ring-type medial surface and described top ring-type medial surface.Can there be bending middle and lower part ring-type medial surface and ring-type medial surface junction, top, also can not have bending.Bending can be 1,2,3 etc.

In such scheme, top ring-type medial surface is provided with groove.Sealing when described groove is used for coordinating with miscellaneous part.

In such scheme, the lower annular wall outer surface of test tube is provided with anti-skid structure.Described anti-skid structure can be anti-skidding projection; The bottom of can be described anti-skid structure be test tube is polygon; Can be described anti-skid structure be taper.

Beneficial effect achieved by the utility model is:

1) the utility model significantly decreases raw-material use, and raw-material use amount is only the half of prior art;

2) the utility model cost significantly lowers, and alleviates the use cost of user;

3) the utility model does not affect the fixing of rack for test tube or detecting instrument while the volume reducing test tube.

4) the utility model effectively reduces humor collecting amount.

5) the utility model does not reduce, so perfusion fluid is easy due to the test tube mouth of pipe.

Accompanying drawing explanation

Below in conjunction with accompanying drawing, the utility model is described further.

Fig. 1 is the schematic diagram-1 of prior art test tube.

Fig. 2 is the schematic diagram-2 of prior art test tube.

Fig. 3 is the schematic diagram-3 of prior art test tube.

Fig. 4 is the schematic diagram-4 of prior art test tube.

Fig. 5 is the utility model one embodiment generalized section-1.

Fig. 6 is that the utility model establishes an embodiment generalized section-2.

Fig. 7 is the utility model one embodiment schematic diagram.

Fig. 8 is the A-A schematic diagram of Fig. 5.

Fig. 9 is the utility model one embodiment ring-type stator schematic diagram-1.

Figure 10 is the utility model one embodiment ring-type stator schematic diagram-2.

Figure 11 is the longitudinal stator schematic diagram-1 of the utility model one embodiment.

Figure 12 is the longitudinal stator schematic diagram-2 of the utility model one embodiment.

Figure 13 is that the test tube that the utility model one embodiment has a ring-type stator is placed in fixed mount schematic diagram.

Figure 14 is that the test tube that the utility model one embodiment has longitudinal stator is placed in fixed mount schematic diagram.

Figure 15 is the utility model one embodiment schematic diagram-1.

Figure 16 is the utility model one embodiment schematic diagram-2.

Wherein, in figure:

100 test tubes,

B1 wall thickness, B2 wall thickness, B3 wall thickness,

D internal diameter, D1 internal diameter, D2 internal diameter, D3 internal diameter, D5 internal diameter,

D external diameter, d1 external diameter, d2 test tube top external diameter, external diameter in the middle part of d3 test tube, d4 test tube lower outer diameter,

R pipe radius,

21 test tube tops, in the middle part of 22 test tubes, 23 test tube bottoms, 24 liquid storing parts

31 annular sidewalls, 32 bottom sealing plates, 33 openings, 34 bendings,

50 annular sidewall medial surfaces, 51 middle and lower part ring-type medial surfaces, 52 top ring-type medial surfaces, 53 loop connecting faces,

R1 first radius, R2 second radius, R3 the 3rd radius, R4 the 4th radius

4 stators, 41 stator outer surfaces

5 grooves, 6 anti-skid structures

7 fixed mounts.

Detailed description of the invention

In order to the beneficial effect more properly describing the utility model and bring, below in conjunction with accompanying drawing, the utility model is described further, but protection domain of the present utility model is not limited to the content that detailed description of the invention is stated.

Embodiment 1: the utility model is described further below in conjunction with accompanying drawing 1, Fig. 4, Fig. 5, Fig. 6, Fig. 7.

A kind of test tube 100, comprises annular sidewall 31 and bottom sealing plate 32.Annular sidewall 31 and bottom sealing plate 32 enclose and form liquid storing part 24.

Test tube 100 to comprise in the middle part of test tube top 21, test tube 22 and test tube bottom 23.Test tube top 21 is provided with opening 33, and opening 33 is communicated with liquid storing part 24.Test tube top 21 for being connected with liquid taking device, to make liquid be flow in liquid storing part 24 by opening 33.In the middle part of test tube 22 and test tube bottom 23 for storage of liquids.

The internal diameter of liquid storing part 24 is D.The internal diameter D of liquid storing part 24 is less than the lumen diameter D5 of conventional test tube, and the volume of liquid storing part 24 is also little compared with the volume of the conventional test tube of energy.

In the middle part of test tube top 21 and test tube, 22 junctions are provided with bending 34, and in the middle part of test tube, the outer surface of 22 is provided with 10 stators 4.The ultimate range of stator outer surface 41 to test tube axis is the 3rd radius R 3, the annular sidewall outer surface on test tube top 21 is the first radius R 1 to the ultimate range of test tube axis, in the middle part of test tube, annular sidewall outer surface to the ultimate range of axis of 22 is the second radius R 2, first radius R 1 is greater than the second radius R the 2, three radius R 3 and is slightly less than the first radius R 1.

Test tube top outside diameter d 2 is greater than outside diameter d 3 in the middle part of test tube lower outer diameter d4 and test tube simultaneously.

In the middle part of test tube, the cross section of 22 is that external tooth is circular.

Annular sidewall medial surface 50 comprises middle and lower part ring-type medial surface 51, top ring-type medial surface 52 and loop connecting face 53, and the top ring-type medial surface 52 being positioned at test tube top 21 is provided with groove 5.Top ring-type medial surface 52 internal diameter reduces from top to bottom gradually, and the tapering of top ring-type medial surface 52 is 1 °.Middle and lower part ring-type medial surface 51 internal diameter reduces from top to bottom gradually, and the tapering of middle and lower part ring-type medial surface 51 is 3 °.Be connected by loop connecting face 53 between middle and lower part ring-type medial surface 51 with top ring-type medial surface 52.

The annular sidewall of test tube bottom 23 is provided with anti-skid structure 6.Anti-skid structure 6 is the projection of ring-type.

When the utility model test tube height is consistent with the height of prior art test tube, and the internal diameter on test tube top and external diameter consistent with prior art test tube when:

Prior art test tube internal diameter is D5, and test tube annular sidewall outer surface is pipe radius R to the ultimate range of test tube axis.

The internal diameter on the utility model test tube top is identical with the test tube internal diameter D5 of prior art, and the internal diameter D of in the middle part of test tube and bottom is less than D5.First radius R 1 on test tube top is identical with the pipe radius R of prior art test tube, and the second radius R 2 in the middle part of test tube is less than the pipe radius R of prior art test tube; The second radius R 2 in the middle part of test tube is less than the pipe radius R of prior art test tube; So the volume reducing of liquid storing part 24, as long as a little liquid can make the liquid levels in test tube be positioned at a high position, easily meet the demand of the examination bar detection detected.Because R2 is less than R, the raw material usage of test tube is significantly reduced.But stator outer surface is suitable with the pipe radius R of conventional test tube to the distance R3 of test tube axis, makes test tube 100 not easily rock when coordinating with fixed mount 7 and tilt.

Prior art tube weight is 6g, and tube weight of the present utility model is only 3g.

Embodiment 2: the utility model is described further below in conjunction with accompanying drawing 1, Fig. 9, Figure 10, Figure 13.

A kind of test tube 100, comprises annular sidewall 31 and bottom sealing plate 32.Annular sidewall 31 and bottom sealing plate 32 enclose and form liquid storing part 24.

Test tube 100 to comprise in the middle part of test tube top 21, test tube 22 and test tube bottom 23.Test tube top 21 is provided with opening 33, and opening 33 is communicated with liquid storing part 24.Test tube top 21 for being connected with liquid taking device, to make liquid be flow in liquid storing part 24 by opening 33.In the middle part of test tube 22 and test tube bottom 23 for storage of liquids.

In the middle part of test tube top 21 and test tube, 22 junctions are provided with bending 34, and in the middle part of test tube, the outer surface of 22 is provided with the stator 4 of ring-type.Stator with annular sidewall 31 for split coordinates.The ultimate range of stator outer surface 41 to test tube axis is the 3rd radius R 3, the annular sidewall outer surface on test tube top 21 is the first radius R 1 to the ultimate range of test tube axis, in the middle part of test tube, annular sidewall outer surface to the ultimate range of axis of 2 is the second radius R 2, it is identical with the first radius R 1 that first radius R 1 is greater than the second radius R the 2, three radius R 3.The annular sidewall outer surface of test tube bottom 23 to axis ultimate range with in the middle part of test tube 2 annular sidewall outer surface identical to the ultimate range of axis.The internal diameter of liquid storing part 24 is D.Test tube top outside diameter d 2 is greater than outside diameter d 3 in the middle part of test tube lower outer diameter d4 and test tube simultaneously.Test tube lower outer diameter d4 is identical with outside diameter d in the middle part of test tube 3.

When the utility model test tube height is consistent with the height of prior art test tube, and the internal diameter on test tube top and external diameter consistent with prior art test tube when:

Prior art test tube internal diameter is D5, and test tube annular sidewall outer surface is pipe radius R to the ultimate range of test tube axis.

The internal diameter on the utility model test tube top is identical with the test tube internal diameter D5 of prior art, and the internal diameter D of in the middle part of test tube and bottom is less than D5.First radius R 1 on test tube top is identical with the pipe radius R of prior art test tube, and the second radius R 2 in the middle part of test tube is less than the pipe radius R of prior art test tube; The second radius R 2 in the middle part of test tube is less than the pipe radius R of prior art test tube; The internal diameter D of liquid storing part 24 is less than the lumen diameter D5 of conventional test tube, and the volume of liquid storing part 24 is also little compared with the volume of the conventional test tube of energy.As long as a little liquid can make the liquid levels in test tube be positioned at a high position, easily meet the demand of the examination bar detection detected.Because R2 is less than R, the raw material usage of test tube is significantly reduced.But stator outer surface is suitable with the pipe radius R of conventional test tube to the distance R3 of test tube axis, makes test tube 100 not easily rock when coordinating with fixed mount 7 and tilt.

Known in conjunction with Figure 11, Figure 12, Figure 14, all the other as above,

In the middle part of test tube top 21 and test tube, 22 junctions are provided with bending 34, and in the middle part of test tube, the outer surface of 22 is provided with longitudinal stator 4.Stator and annular sidewall 31 are integrated.The ultimate range of stator outer surface 41 to test tube axis is the 3rd radius R 3, the annular sidewall outer surface on test tube top 21 is the first radius R 1 to the ultimate range of test tube axis, in the middle part of test tube, annular sidewall outer surface to the ultimate range of axis of 2 is the second radius R 2, it is identical with the first radius R 1 that first radius R 1 is greater than the second radius R the 2, three radius R 3.The annular sidewall outer surface of test tube bottom 23 to axis ultimate range with in the middle part of test tube 2 annular sidewall outer surface identical to the ultimate range of axis.The internal diameter of liquid storing part 24 is D.Test tube top outside diameter d 2 is greater than outside diameter d 3 in the middle part of test tube lower outer diameter d4 and test tube simultaneously.Test tube lower outer diameter d4 is identical with outside diameter d in the middle part of test tube 3.

Embodiment 3: the utility model is described further below in conjunction with accompanying drawing 1, Figure 15, Figure 16.

A kind of test tube 100, comprises annular sidewall 31 and bottom sealing plate 32.Annular sidewall 31 and bottom sealing plate 32 enclose and form liquid storing part 24.

Test tube 100 to comprise in the middle part of test tube top 21, test tube 22 and test tube bottom 23.Test tube top 21 is provided with opening 33, and opening 33 is communicated with liquid storing part 24.Test tube top 21 for being connected with liquid taking device, to make liquid be flow in liquid storing part 24 by opening 33.In the middle part of test tube 22 and test tube bottom 23 for storage of liquids.

In the middle part of test tube top 21 and test tube, the internal diameter of 22 is D5, consistent with prior art test tube internal diameter.The internal diameter D of test tube bottom 24 is less than the lumen diameter D5 of conventional test tube, and the volume of liquid storing part is also little compared with the volume of conventional test tube.

In the middle part of test tube, 22 are provided with bending 34 with the outer surface of junction, test tube bottom 23 annular sidewall 31.The annular sidewall outer surface on test tube top 21 is the first radius R 1 to the ultimate range of test tube axis, in the middle part of test tube, annular sidewall outer surface to the ultimate range of test tube axis of 22 is the second radius R 2, the annular sidewall outer surface of test tube bottom 23 is the 4th radius R 4 to the ultimate range of axis, first radius R 1 is identical with the second radius R 2, and the 4th radius R 4 is less than the first radius R 1.

Test tube top outside diameter d 2 is identical with outside diameter d in the middle part of test tube 3, and test tube top outside diameter d 2 is greater than test tube lower outer diameter d4.

When the utility model test tube height is consistent with the height of prior art test tube, and internal diameter in the middle part of test tube top and test tube and external diameter consistent with prior art test tube when: when gathering the liquid of equal height, the volume reducing of liquid storing part, as long as a little liquid can make the liquid levels in test tube be positioned at a high position, easily meet the demand of the examination bar detection detected.Because R4 is less than R, the raw material usage of test tube is significantly reduced.And in test tube 100 and fixed mount 7 cooperation place, in the middle part of test tube, outside diameter d 3 is identical with the test tube outside diameter d of prior art, makes test tube 100 not easily rock when coordinating with fixed mount 7 and tilt.

Claims (18)

1. a test tube, comprises annular sidewall and bottom sealing plate, and test tube top is provided with opening, and test tube top is used for coordinating, connecting; In the middle part of test tube and test tube bottom is used for storage of liquids; It is characterized in that: be provided with bending between described test tube top and test tube bottom, test tube top caliber is greater than test tube bottom caliber, when its object is to gather equal height liquid, reduces the liquid storage amount of liquid storing part.

2. a kind of test tube according to claim 1, it is characterized in that: the annular sidewall outer surface on test tube top is the first radius to the ultimate range of test tube axis, annular sidewall outer surface in the middle part of test tube is the second radius to the ultimate range of axis, and the first radius is greater than the second radius.

3. a kind of test tube according to claim 2, is characterized in that: the annular sidewall outer surface in the middle part of test tube is provided with stator, and described stator and described annular sidewall are integrated.

4. a kind of test tube according to claim 3, is characterized in that: described stator outer surface is the 3rd radius to the ultimate range of test tube axis, and described 3rd radius is less than or equal to described first radius.

5. a kind of test tube according to claim 1, is characterized in that: the cross section in the middle part of test tube is external tooth ring-type.

6. a kind of test tube according to claim 1, is characterized in that: the caliber in the middle part of test tube is identical with test tube top caliber at least partly.

7. a kind of test tube according to claim 1, is characterized in that: the caliber in the middle part of test tube is less than test tube top caliber.

8. a kind of test tube according to claim 1, is characterized in that: the caliber in the middle part of test tube is identical with test tube bottom caliber, and is less than test tube top caliber.

9. a kind of test tube according to any one of claim 1 to 8, is characterized in that: annular sidewall medial surface comprises middle and lower part ring-type medial surface and top ring-type medial surface, and described middle and lower part ring-type medial surface internal diameter reduces from top to bottom gradually.

10. a kind of test tube according to claim 9, is characterized in that: described top ring-type medial surface internal diameter reduces from top to bottom gradually.

11. a kind of test tubes according to claim 10, is characterized in that: described top ring-type medial surface tapering is less than or equal to described middle and lower part ring-type medial surface tapering.

12. a kind of test tubes according to claim 11, is characterized in that: described middle and lower part ring-type medial surface tapering is greater than 2 ° and is less than or equal to 6 °.

13. a kind of test tubes according to claim 12, is characterized in that: annular sidewall medial surface also comprises the loop connecting face connecting described middle and lower part ring-type medial surface and described top ring-type medial surface.

14. a kind of test tubes according to claim 13, is characterized in that: top ring-type medial surface is provided with groove.

15. a kind of test tubes according to claim 13, is characterized in that: the lower annular wall outer surface of test tube is provided with anti-skid structure.

16. a kind of test tubes according to claim 15, is characterized in that: described anti-skid structure is anti-skidding projection.

17. a kind of test tubes according to claim 15, is characterized in that: described anti-skid structure is the bottom of test tube is polygon.

18. a kind of test tubes according to claim 15, is characterized in that: described anti-skid structure is taper.