CN210090489U

CN210090489U - Dual-purpose excrement and urine collecting tube

Info

Publication number: CN210090489U
Application number: CN201920213025.8U
Authority: CN
Inventors: 林志铿; 陈杰裕; 吴明章; 周晓光; 李运涛; 刘元杰; 刘经州
Original assignee: Xiamen Zhengzhou Biotechnology Co Ltd
Current assignee: Xiamen Zhengzhou Biotechnology Co Ltd
Priority date: 2019-02-19
Filing date: 2019-02-19
Publication date: 2020-02-18
Anticipated expiration: 2029-02-19

Abstract

The utility model discloses a dual-purpose excrement collecting pipe, which comprises a pipe body, a pipe cover, a water dropper with a water dropper nozzle and a water dropper cover; the upper end and the lower end of the pipe body are open, the pipe body is hollow, and the side wall of the pipe body can deform; the tube cover covers the opening at the upper end of the tube body, and a sampling rod penetrating through the inner cavity of the tube body is arranged on the tube cover; the dripper is detachably matched with the opening at the lower end of the pipe body, and at least one through hole communicated with the inner cavity of the pipe body is arranged on the dripper; a partition piece used for sealing the through hole and allowing a sampling needle of the full-automatic fecal analyzer to pierce is arranged in the through hole; the water dropper cover covers the water dropper and is used for plugging a water dropper nozzle of the water dropper, and the water dropper cover is provided with through holes respectively opposite to the through holes. The utility model discloses be fit for the measurement personnel promptly and carry out manual excrement and urine and detect the use, also be fit for full-automatic excrement and urine analysis appearance and detect the use.

Description

Dual-purpose excrement and urine collecting tube

Technical Field

The utility model relates to an excrement and urine detects the field, especially indicates a dual-purpose excrement and urine collection pipe.

Background

In order to realize the quick automated inspection of faecal, there are a lot of detection mechanism to have all adopted full-automatic faecal analysis appearance at present, this kind of full-automatic faecal analysis appearance only needs the detector to put into full-automatic faecal analysis appearance with the excrement and urine collection pipe that holds excrement and urine sample solution, full-automatic faecal analysis appearance's sampling needle just can the intraductal excrement and urine sample solution of automatic extraction excrement and urine collection detect, but the excrement and urine collection pipe that this kind of full-automatic faecal analysis appearance adopted at present is unfavorable for the detector to carry out manual detection by the quick manual quantitative excrement and urine sample of drippage, there is the limitation in the use.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a dual-purpose excrement and urine collecting tube, it is fit for the measurement personnel promptly and carries out manual excrement and urine and detect the use, also is fit for full-automatic excrement and urine analysis appearance and detects the use.

In order to achieve the above purpose, the solution of the present invention is:

a dual-purpose excrement collecting tube comprises a tube body, a tube cover, a water dropper with a water dropper nozzle and a water dropper cover; the upper end and the lower end of the pipe body are open, the pipe body is hollow, and the side wall of the pipe body can deform; the tube cover covers the opening at the upper end of the tube body, and a sampling rod penetrating through the inner cavity of the tube body is arranged on the tube cover; the dripper is detachably matched with the opening at the lower end of the pipe body, and at least one through hole communicated with the inner cavity of the pipe body is arranged on the dripper; a partition piece used for sealing the through hole and allowing a sampling needle of the full-automatic fecal analyzer to pierce is arranged in the through hole; the water dropper cover covers the water dropper and is used for plugging a water dropper nozzle of the water dropper, and the water dropper cover is provided with through holes respectively opposite to the through holes.

The isolating piece is a thin sheet integrally formed with the dripper.

The isolating piece is made of aluminum foil paper or tin foil paper connected with the inner wall of the through hole.

The isolating piece is a rubber plug embedded in the through hole.

The center of the rubber stopper is provided with a valve.

The number of the through holes is two, and the through holes are formed in the vertical direction.

A quantitative pipe with openings at the upper end and the lower end is arranged in the top opening of the pipe body.

The aperture of the upper end opening of the quantitative pipe is larger than that of the lower end opening of the quantitative pipe; the sampling rod is characterized in that an inwards concave thread groove is formed in the outer surface of the lower portion of the sampling rod, and the maximum outer diameter of the lower portion of the sampling rod is matched with the aperture of the lower end opening of the quantitative pipe.

The pipe body is in an annular runway shape, the side wall of the pipe body is divided into two opposite and parallel plane pipe body side walls and two opposite and axisymmetric arc-shaped pipe body side walls, and the maximum distance between the two arc-shaped pipe body side walls is larger than the distance between the two plane pipe body side walls; the top parts of the side walls of the two arc-shaped pipe bodies are respectively provided with an arc-shaped convex block; the outer wall of the arc-shaped convex block is provided with an arc-shaped inclined curved surface which inclines outwards from top to bottom; the maximum distance between the bottoms of the arc-shaped oblique curved surfaces of the two arc-shaped convex blocks is larger than the maximum distance between the tops of the arc-shaped oblique curved surfaces of the two arc-shaped convex blocks; the tube cover is provided with an annular tube cover peripheral wall surrounding the sampling rod, the annular tube cover peripheral wall is also in an annular runway shape, and the annular tube cover peripheral wall is divided into two opposite and parallel elastic plane tube cover side walls and two opposite and axisymmetric arc-shaped tube cover side walls; the maximum distance between the side walls of the two arc-shaped pipe covers is larger than the maximum distance between the bottoms of the arc-shaped oblique curved surfaces of the two arc-shaped convex blocks, and the distance between the side walls of the two elastic plane pipe covers is smaller than or equal to the maximum distance between the tops of the arc-shaped oblique curved surfaces of the two arc-shaped convex blocks; an embedded block embedded in an opening at the upper end of the quantitative tube is formed at the upper part of the sampling rod, and the maximum embedded height of the embedded block and the opening at the upper end of the quantitative tube is smaller than the height of the arc-shaped inclined curved surface of the arc-shaped bump; when the insert of the sampling rod is embedded in the opening at the upper end of the quantitative tube, the side walls of the two arc-shaped tube covers of the tube cover are respectively opposite to the two arc-shaped lugs.

An annular boss is formed on the side wall of a drip nozzle of the dripper, the lower end face of the annular bump is a circle of annular wavy concave-convex surface, and the concave-convex surface is provided with an upwardly concave part and a downwardly convex part; the dripper cover is provided with a plug embedded in the dripping nozzle and a bulge movably abutting against the concave-convex surface; the maximum embedding height of the plug and the drip nozzle is smaller than the maximum height difference between the convex part and the concave part of the concave-convex surface; when the dripper cover plug is embedded in the dripping nozzle of the dripper, the protrusion abuts against the top surface of the concave part of the concave-convex surface.

After the scheme is adopted, the utility model is suitable for the detection personnel to carry out manual excrement detection by arranging the water dropper; and the utility model discloses a set up the through-hole on the water dropper and cover at the water dropper and set up the perforation just to the through-hole for the sample needle of full-automatic faecal analysis appearance can be from passing perforation and through-hole and pierce the separator in the through-hole and enter into the body inner chamber, makes the excrement and urine sample solution of sample needle telescopic intracavity in the body detect, consequently the utility model discloses also be suitable for full-automatic faecal analysis appearance and detect the use.

Drawings

Fig. 1 is an exploded view of the present invention;

fig. 2 is a perspective view of the present invention;

fig. 3 is a top view of the tube body of the present invention;

fig. 4 is a perspective view of the tube cover of the present invention;

fig. 5 is a perspective view of the dripper of the present invention;

fig. 6 is a side view of the dripper of the present invention;

fig. 7 is a perspective view of the dripper cover of the present invention;

fig. 8 is a top view of the present invention;

FIG. 9 is a cross-sectional view A-A of FIG. 8;

FIG. 10 is a cross-sectional view B-B of FIG. 8;

description of reference numerals:

a pipe body 1, a plane pipe body side wall 11, an arc pipe body side wall 12, an arc convex block 121, an arc inclined curved surface 1211,

tube cap 2, sampling rod 21, thread groove 211, insert 212, annular tube cap peripheral wall 22, elastic plane tube cap side wall 221, two arc tube cap side walls 222,

the dripper 3, the nozzle 31, the through hole 32, the spacer 33, the sheet 331, the annular boss 34, the concave-convex surface 341, the concave portion 3411, and the convex portion 3412;

the drip cup lid 4, the through hole 41, the stopper 42, the projection 43,

the quantitative tube (5) is provided with a quantitative tube,

and a connecting piece 6.

Detailed Description

In order to further explain the technical solution of the present invention, the present invention is explained in detail by the following embodiments.

As shown in fig. 1 to 10, the present invention discloses a dual-purpose feces collection tube, which comprises a tube body 1, a tube cap 2, a dropper 3 with a dropper nozzle 31, and a dropper cap 4.

As shown in fig. 1, fig. 3, fig. 9 and fig. 10, the tube body 1 has openings at the upper and lower ends and is hollow inside, and the side wall of the tube body 1 can be deformed; the tube cover 2 covers the opening at the upper end of the tube body 1, and the tube cover 2 is provided with a sampling rod 21 penetrating in the inner cavity of the tube body; the dripper 3 is detachably matched with the opening at the lower end of the pipe body 1, two through holes 32 communicated with the inner cavity of the pipe body 1 are formed in the dripper 3, and the through holes 32 are formed in the vertical direction; a partition 33 which is used for closing the through hole 32 and is pierced by a sampling needle of the full-automatic fecal analyzer is arranged in the through hole 32; as shown in fig. 9, the spacer 33 may be a sheet 331 formed integrally with the dripper 3. The dripper cover 4 covers the dripper 3 and is used for plugging a dripping nozzle 31 of the dripper 3, and the dripper cover 4 is provided with through holes 41 respectively opposite to the through holes 32. The spacer 33 is not limited to the sheet 331 formed integrally with the dripper 3, and the spacer 33 may be aluminum-foil paper or tin-foil paper attached to the inner wall of the through hole 32; the isolating piece 3 can also be a rubber plug embedded in the through hole 32, and is blocked by scraps of the rubber plug when the sampling needle of the full-automatic fecal analyzer pierces the rubber plug, and the center of the rubber plug can be provided with a valve.

The utility model discloses when carrying out fecal sample collection, the testing personnel take off tube cap 2 earlier, then utilize the sampling stick 21 of tube cap 2 to dip in and get fecal sample, and then the testing personnel closes tube cap 2 lid on 1 open-top of body so that sampling stick 21 alternates in 1 intracavity of body to make fecal sample holding preserve in 1 intracavity of body. When excrement detection is needed, a detector inverts the utility model and takes off the dripper 3 and the dripper cover 4, then adds a test solution into the pipe body 1 to mix the test solution with an excrement sample to form an excrement sample solution, and then installs the dripper 3 and the dripper cover 4 on the pipe body 1; after that, the utility model can be sent into a full-automatic feces analyzer for detection, and can also be used for manual feces detection by detection personnel; when the utility model discloses send into full-automatic faecal analysis appearance and examine time measuring, full-automatic faecal analysis appearance's sampling needle just penetrates in the through-hole 32 just right with this perforation 41 and impales the separator 33 in this through-hole 32 and enters into body 1 intracavity from a perforation 41 of dripper lid 4, this moment the sampling needle alright detect with the faecal sample solution of extraction body 1 intracavity, and be used for on the full-automatic faecal analysis appearance that inflatable air needle then can follow another perforation 41 of dripper lid 4 and penetrate in the through-hole 32 just right with this perforation 41 and impale the separator 33 in this through-hole 32 and enter into body 1 intracavity, gas is aerifyd so that the faecal sample solution of body 1 intracavity is extracted fast to body 1 inner chamber to the sampling needle. When the measurement personnel need carry out manual excrement and urine and examine time measuring, measurement personnel take off dropper lid 4, press 1 lateral wall of body and make 3 drip mouth 31 ration of dropper drip out excrement and urine sample solution and detect, through-hole 32 this moment is owing to by the shutoff of spacer 33, and excrement and urine sample solution can not follow through-hole 32 and flow.

In conclusion, the utility model is suitable for the detection personnel to detect the excrement manually by arranging the water dropper 3; and the utility model discloses a set up through-hole 32 on dripper 3 and cover 4 at the dripper and set up the perforation 41 just to through-hole 32 for the sample needle of full-automatic faecal analysis appearance can follow the separator 33 that passes perforation 41 and through-hole 32 and puncture in the through-hole 32 and enter into body 1 intracavity, makes the excrement and urine sample solution of sample needle telescopic body 1 intracavity detect, consequently the utility model discloses also be suitable for full-automatic faecal analysis appearance to detect and use. It should be noted that the utility model is not limited to the dripper 3 having two through holes 32, the dripper 3 may have only one through hole 2, and the sampling needle can enter the pipe body 1 through the through hole 32 to extract the fecal sample solution through one through hole 32; the utility model discloses water dropper 3 can also be equipped with three through-hole 32 or four through-holes 32 and above.

Further, as shown in fig. 1, fig. 3, fig. 4, fig. 9 and fig. 10, a quantitative tube 5 with openings at upper and lower ends may be disposed in the opening at the top of the tube body 1, the quantitative tube 5 is connected to the opening at the top of the tube body 1 through a connecting sheet 6, an outer edge of the connecting sheet 6 is connected to an inner wall of the opening at the top of the tube body 1, and an inner edge of the connecting sheet 6 is connected to an outer wall of the quantitative tube 5; the aperture of the upper end opening of the quantifying pipe 5 is larger than that of the lower end opening of the quantifying pipe 6; sampling stick 21 lower part surface is equipped with the thread groove 211 of indent, the biggest external diameter of sampling stick 21 lower part and 5 lower extreme opening aperture adaptations of ration pipe, like this through ration pipe 5 alright scrape unnecessary excrement and urine on the sampling stick 21.

Further, as shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 9 and fig. 10, the pipe body 1 is in a shape of an annular runway, the side wall of the pipe body 1 is divided into two opposite and parallel planar pipe body side walls 11 and two opposite and axisymmetric arc-shaped pipe body side walls 12, and a maximum distance L1 between the two arc-shaped pipe body side walls 12 is greater than a distance L2 between the two planar pipe body side walls 11; an arc-shaped bump 121 is formed on the top of each of the two arc-shaped tube side walls 12; the outer wall of the arc-shaped convex block 121 is provided with arc-shaped inclined curved surfaces 1211 inclining outwards from top to bottom, and the maximum distance S1 between the bottoms of the arc-shaped inclined curved surfaces 1211 of the two arc-shaped convex blocks 121 is larger than the maximum distance S2 between the tops of the arc-shaped inclined curved surfaces 1211 of the two arc-shaped convex blocks 121; the tube cover 2 is provided with an annular tube cover peripheral wall 22 surrounding the sampling rod 21, the annular tube cover peripheral wall 22 is also in an annular runway shape, and the annular tube cover peripheral wall 22 is divided into two opposite and parallel elastic plane tube cover side walls 221 and two opposite and axisymmetric arc-shaped tube cover side walls 222; the maximum distance G1 between the two arc-shaped tube cover side walls 222 is greater than the maximum distance S1 between the bottoms of the arc-shaped inclined curved surfaces 1211 of the two arc-shaped bumps 121, and the distance G2 between the two elastic plane tube cover side walls 221 is less than or equal to the maximum distance S2 between the tops of the arc-shaped inclined curved surfaces 121 of the two arc-shaped bumps 121; an insert block 212 embedded in the upper end opening of the quantitative tube 5 is formed at the upper part of the sampling rod 21 so that the tube cover 2 covers the upper end opening of the tube body 1, and the maximum embedding height H1 of the insert block 212 and the upper end opening of the quantitative tube 5 is smaller than the height H2 of the arc inclined curved surface 1211 of the arc bump 121; when the insert 212 of the sampling rod 21 is engaged in the opening of the upper end of the quantitative tube 5, the two arc-shaped tube cover side walls 222 of the tube cover 2 are respectively opposite to the two arc-shaped protrusions 121. When the tube cap 2 is to be separated from the tube body 1, the tube cap 2 is rotated to make the two elastic plane tube cap sidewalls 221 of the tube cap 2 opposite to the two arc-shaped protrusions 121, respectively, in the process of rotating the tube cap 2, the arc-shaped protrusions 121 drive the two elastic plane tube cap sidewalls 221 of the tube cap 2 to expand outwardly, and when the two elastic plane tube cap sidewalls 221 of the tube cap 2 are opposite to the two arc-shaped protrusions 121, respectively, the two elastic plane tube cap sidewalls 221 of the tube cap 2 can be retracted inwardly along the arc-shaped inclined surfaces 1211 due to the arc-shaped inclined surfaces 1211 of the arc-shaped protrusions 121 inclining outwardly from top to bottom, so that the tube cap 2 moves upwardly, and the insert 212 of the rod 21 is separated from the engaging state with the upper end opening of the quantitative tube 5 because the engaging height H1 of the upper end opening of the quantitative tube 5 is smaller than the height H2 of the arc-shaped inclined surfaces 1211 of the arc-shaped protrusions 121 when the tube cap 2 moves upwardly, make the tube cap 2 and the separation of body 1, alright this moment with taking off the tube cap 2 from body 1, whole process with tube cap 2 and the separation of body 1 is very convenient quick.

Further, as shown in fig. 1, fig. 2, and fig. 5 to fig. 10, an annular boss 34 is formed on the side wall of the drip nozzle 31 of the dripper 3, the lower end surface of the annular boss is a ring of annular wavy concave-convex surface 341, and the concave-convex surface 341 has an upwardly concave part 3411 and a downwardly convex part 3412; the dripper cover 4 is provided with a plug 42 embedded in the dripper nozzle 31 so as to detachably connect the dripper cover 4 with the dripper 2, and the dripper cover 4 is also provided with a bulge 43 movably abutting against the concave-convex surface 341; the maximum fitting height H3 between the plug 42 and the spout 31 is smaller than the maximum height difference H4 between the convex portion 3412 and the concave portion 3411 of the concave-convex surface 341; when the plug 42 of the dripper cover 4 is fitted in the nozzle 31 of the dripper 3, the protrusion 43 abuts against the top surface of the concave 3411 of the concave 341. When needs are with dripper lid 4 and dripper 3 separation, the utility model discloses only need to cover dripper 4 rotatory to dripper lid 4 protruding 43 conflict convex part 3412's tip, because the biggest gomphosis height H3 of end cap 42 and drip nozzle 31 is less than convex part 3412 and the concave part 3411's of convex part 341 maximum altitude difference H4, at this moment the 4 end cap 42 of dripper lid just breaks away from with the gomphosis state of drip nozzle 31 for dripper lid 4 separates with dripper 3, alright tak away the dripper lid 4 away from this moment, it is whole very convenient quick with dripper lid 4 and dripper 3 separation process.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be construed as departing from the scope of the present invention.

Claims

1. A dual-purpose excrement collection tube is characterized in that: comprises a tube body, a tube cover, a water dropper with a water dropper nozzle and a water dropper cover; the upper end and the lower end of the pipe body are open, the pipe body is hollow, and the side wall of the pipe body can deform; the tube cover covers the opening at the upper end of the tube body, and a sampling rod penetrating through the inner cavity of the tube body is arranged on the tube cover; the dripper is detachably matched with the opening at the lower end of the pipe body, and at least one through hole communicated with the inner cavity of the pipe body is arranged on the dripper; a partition piece used for sealing the through hole and allowing a sampling needle of the full-automatic fecal analyzer to pierce is arranged in the through hole; the water dropper cover covers the water dropper and is used for plugging a water dropper nozzle of the water dropper, and the water dropper cover is provided with through holes respectively opposite to the through holes.

2. A dual use fecal collection tube according to claim 1 wherein: the isolating piece is a thin sheet integrally formed with the dripper.

3. A dual use fecal collection tube according to claim 1 wherein: the isolating piece is made of aluminum foil paper or tin foil paper connected with the inner wall of the through hole.

4. A dual use fecal collection tube according to claim 1 wherein: the isolating piece is a rubber plug embedded in the through hole.

5. A dual use fecal collection tube according to claim 4 wherein: the center of the rubber stopper is provided with a valve.

6. A dual use fecal collection tube according to any of the claims 1 to 5 characterized in that: the number of the through holes is two, and the through holes are formed in the vertical direction.

7. A dual use fecal collection tube according to claim 1 wherein: a quantitative pipe with openings at the upper end and the lower end is arranged in the top opening of the pipe body.

8. A dual use fecal collection tube according to claim 7 wherein: the aperture of the upper end opening of the quantitative pipe is larger than that of the lower end opening of the quantitative pipe; the sampling rod is characterized in that an inwards concave thread groove is formed in the outer surface of the lower portion of the sampling rod, and the maximum outer diameter of the lower portion of the sampling rod is matched with the aperture of the lower end opening of the quantitative pipe.

9. A dual use fecal collection tube according to claim 7 wherein: the pipe body is in an annular runway shape, the side wall of the pipe body is divided into two opposite and parallel plane pipe body side walls and two opposite and axisymmetric arc-shaped pipe body side walls, and the maximum distance between the two arc-shaped pipe body side walls is larger than the distance between the two plane pipe body side walls; the top parts of the side walls of the two arc-shaped pipe bodies are respectively provided with an arc-shaped convex block; the outer wall of the arc-shaped convex block is provided with an arc-shaped inclined curved surface which inclines outwards from top to bottom; the maximum distance between the bottoms of the arc-shaped oblique curved surfaces of the two arc-shaped convex blocks is larger than the maximum distance between the tops of the arc-shaped oblique curved surfaces of the two arc-shaped convex blocks;

the tube cover is provided with an annular tube cover peripheral wall surrounding the sampling rod, the annular tube cover peripheral wall is also in an annular runway shape, and the annular tube cover peripheral wall is divided into two opposite and parallel elastic plane tube cover side walls and two opposite and axisymmetric arc-shaped tube cover side walls; the maximum distance between the side walls of the two arc-shaped pipe covers is larger than the maximum distance between the bottoms of the arc-shaped oblique curved surfaces of the two arc-shaped convex blocks, and the distance between the side walls of the two elastic plane pipe covers is smaller than or equal to the maximum distance between the tops of the arc-shaped oblique curved surfaces of the two arc-shaped convex blocks;

an embedded block embedded in an opening at the upper end of the quantitative tube is formed at the upper part of the sampling rod, and the maximum embedded height of the embedded block and the opening at the upper end of the quantitative tube is smaller than the height of the arc-shaped inclined curved surface of the arc-shaped bump; when the insert of the sampling rod is embedded in the opening at the upper end of the quantitative tube, the side walls of the two arc-shaped tube covers of the tube cover are respectively opposite to the two arc-shaped lugs.

10. A dual use fecal collection tube according to claim 1 or 9 wherein: an annular boss is formed on the side wall of a drip nozzle of the dripper, the lower end face of the annular bump is a circle of annular wavy concave-convex surface, and the concave-convex surface is provided with an upwardly concave part and a downwardly convex part;

the dripper cover is provided with a plug embedded in the dripping nozzle and a bulge movably abutting against the concave-convex surface; the maximum embedding height of the plug and the drip nozzle is smaller than the maximum height difference between the convex part and the concave part of the concave-convex surface; when the dripper cover plug is embedded in the dripping nozzle of the dripper, the protrusion abuts against the top surface of the concave part of the concave-convex surface.