CN105388310A - Automatic excrement sample analysis system and analysis method - Google Patents

Abstract

The invention discloses an automatic excrement sample analysis system and analysis method. The analysis system comprises an analysis device and a sampling container. The sampling container comprises a base plate and a container body. A partition wall is arranged in the container body. A hole part that communicates two accommodation spaces is arranged in the partition wall. The hole part is provided with a sealing film. An iron block is adhered on the sealing film. The container body is provided with a cover part, a sampling rod and a plug part. A stirring block made of iron is also arranged in the sampling container. The analysis device comprises a delivering part. The delivering part is sequentially provided with a sample placing position, an overturn position, a membrane breaking position, a stirring position, and a sample sucking position from the upstream to the downstream. The provided system can process a sample in an enclosed space, and can also achieve automatic analysis.

Description

A kind of Full-automatic dejecta sample analysis system and analytical approach

Technical field

The present invention relates to medical instruments field, be specifically related to a kind of fecal sample analytic system and analytical approach.

Background technology

The analysis of body fluid is the common analysis project of medical field, in the majority with blood analysis, urinalysis, because the sample of both is more prone to when processing relative to semi-solid fecal sample for liquid, but the analysis of fecal sample has, and some are blood, urine specimen analysis cannot replace.But existing fecal sample sampling difficulty, sometimes processes fecal sample in the space opened wide, is easy to pollute, process inconvenience.

Summary of the invention

Goal of the invention: the present invention is intended to the defect overcoming prior art, provides a kind of fecal sample analytic system and analytical approach.

Technical scheme: a kind of fecal sample analytic system, comprises analytical equipment and sampling container; Described sampling container comprises base plate and one end vessel by articulated mounting and base plate hinged, be provided with partition wall in described container basis and vessel be divided into dilution spatial accommodation and thief rod spatial accommodation, dilution is full of in described dilution spatial accommodation, described partition wall is provided with the hole portion of Shi Liangge spatial accommodation UNICOM, described hole portion is provided with sealing film, and described sealing film is bonded with iron block; Described vessel is provided with upper shed, described upper shed is sealed with cap, and described cap lower end is connected with thief rod, is provided with under shed bottom described vessel, described under shed is sealed with piston part, and described upper shed and under shed are the openings of thief rod spatial accommodation; Described thief rod spatial accommodation also has the stirring block of irony; Described analytical equipment comprises delivery section, and described delivery section is from upstream to downstream and is provided with setting-out position, upturned position, rupture of membranes position, mixing position and suction sample position successively; Described setting-out position is for placing through the sampling container of sampling; Described upturned position place is provided with mechanical arm, for by sampling container 90-degree rotation on base plate; Described rupture of membranes position is provided with the first electromagnet portion, and the iron block on film can be attracted to make film breaks; Described mixing position place is provided with the installing plate that can move up and down, described installing plate is provided with the second electromagnet portion and the 3rd electromagnet portion, and the both sides that second and third electromagnet portion described can move to sampling container make stirring block, in vessel, shift reciprocately occur; Described suction sample position is provided with analytic unit, and described analytic unit is provided with suction tube road, and there is suction needle the one end on suction tube road, and described suction needle can pierce through the sample in piston part absorption vessel; Described analytical equipment also comprises the controller of control analysis device.

Further, described stirring block is provided with burr, and described stirring block and burr surface are provided with inert coatings.

Further, described thief rod end is provided with burr.

Further, described delivery section is linear pattern delivery section.

Further, described delivery section is positioned at suction downstream, sample position and is also provided with lower sample position, for taking off the sampling container completing and inhale sample.

Further, described mechanical arm is arranged on the first installation base plate; Described first electromagnet portion is connected on the second installation base plate by connecting link; Described installing plate is connected on the 3rd installation base plate by expansion link.

Use a method of sample analysis for above-mentioned fecal sample analytic system, comprise the steps:

1) utilize thief rod to sample, and cap is covered on vessel, afterwards sampling container is placed on setting-out position;

2) sampling container is delivered to upturned position place by delivery section, utilizes mechanical arm to be turned over by sampling container and turn 90 degrees;

3) sampling container is delivered to rupture of membranes position, utilizes the first electromagnet portion that sealing film is broken;

4) sampling container is delivered to mixing position place, makes second and third electromagnet subordinate drop to sampling container both sides, make second and third electromagnet portion replace power on/off drive stir block in vessel back and forth displacement stir sample liquid;

5) sampling container is delivered to suction sample position, utilizes suction needle to draw sample liquid and analyze to analytic unit.

Beneficial effect: analytic system of the present invention and method, can realize the operation such as dilution, stirring, suction sample realized in the space of sealing sample after sampling, be not easy to pollute, and can realize the automatic analysis to fecal sample, very convenient.

Accompanying drawing explanation

Fig. 1 is sampling container schematic diagram of the present invention

Fig. 2 analytic system schematic diagram of the present invention,

Embodiment

Reference numeral:

1 base plate; 2.1 vessel; 2.2 cap; 2.3 thief rod; 2.4 partition wall; 2.5 sealing film; 2.6 iron block; 2.7 piston part; 2.8 stir block; 2.9 stir the burr on block; 3 articulated mountings; 10 delivery section; 11 setting-out positions; 12 upturned positions; 13 rupture of membranes positions; 14 mixing positions; 15 inhale sample position; 12.1 the first installation base plate; 12.2 mechanical arms; 13.1 the second installation base plate; 13.2 connecting links; 13.3 first electromagnet portions; 14.1 the 3rd installation base plates; 14.2 expansion links; 14.3 installing plates; 14.3.1 the second electromagnet portion; 14.3.2 the 3rd electromagnet portion; 15.1 analytic units; 15.2 suction tube road; 15.3 suction needles.

A kind of fecal sample analytic system, comprises analytical equipment and sampling container; Described sampling container comprises base plate 1 and one end by the vessel 2.1 of articulated mounting 3 with base plate hinged, be provided with partition wall 2.4 in described container basis and vessel be divided into dilution spatial accommodation and thief rod spatial accommodation, dilution is full of in described dilution spatial accommodation, described partition wall is provided with the hole portion of Shi Liangge spatial accommodation UNICOM, described hole portion is provided with sealing film 2.5, described sealing film is bonded with iron block 2.6; Described vessel is provided with upper shed, described upper shed is sealed with cap 2.2, and described cap lower end is connected with thief rod 2.3, is provided with under shed bottom described vessel, described under shed is sealed with piston part 2.7, and described upper shed and under shed are the openings of thief rod spatial accommodation; Described thief rod spatial accommodation also has the stirring block 2.8 of irony; Described analytical equipment comprises delivery section 10, and described delivery section is from upstream to downstream and is provided with setting-out position 11, upturned position 12, rupture of membranes position 13, mixing position 14 successively and inhales sample position 15; Described setting-out position is for placing through the sampling container of sampling; Described upturned position place is provided with mechanical arm 12.2, for by sampling container 90-degree rotation on base plate; Described rupture of membranes position is provided with the first electromagnet portion 13.3, and the iron block on film can be attracted to make film breaks; Described mixing position place is provided with the installing plate 14.3 that can move up and down, described installing plate is provided with the second electromagnet portion 14.3.1 and the 3rd electromagnet portion 14.3.2, and the both sides that described second and third electromagnet portion 14.3.1,14.3.2 can move to sampling container make stirring block 2.8, in vessel, shift reciprocately occur; Described suction sample position is provided with analytic unit 15.1, and described analytic unit 15.1 is provided with suction tube road 15.2, and there is suction needle 15.3 one end on suction tube road, and described suction needle 15.3 can pierce through the sample in piston part absorption vessel 2.1; Described analytical equipment also comprises the controller of control analysis device.

Described stirring block 2.8 is provided with burr 2.9, and described stirring block and burr surface are provided with inert coatings, so more can agitated liquid, and stirs block and burr not easily chemical reaction occurs, and brings interference to analysis.Described thief rod 2.3 end is provided with burr, is so more convenient to sampling; Described delivery section is linear pattern delivery section; Delivery section is positioned at suction downstream, sample position and is also provided with lower sample position, for taking off the sampling container completing and inhale sample, such analytic system can complete places sample to the complete set operation of taking off sample.Mechanical arm 12.2 to be arranged on the first installation base plate 12.1; Described first electromagnet portion 13.3 is connected on the second installation base plate 13.1 by connecting link 13.2; Described installing plate 14.3 is connected on the 3rd installation base plate 14.1 by expansion link 14.2.

Concrete method of sample analysis comprises the steps:

1) utilize thief rod to sample, and cap is covered on vessel, afterwards sampling container is placed on setting-out position;

2) sampling container is delivered to upturned position place by delivery section, utilizes mechanical arm to be turned over by sampling container and turn 90 degrees;

3) sampling container is delivered to rupture of membranes position, utilizes the first electromagnet portion that sealing film is broken; Because sealing film tears by the larger attractive force in electromagnet portion, sweep away the sample that the dilution come just in time washes away the end of thief rod;

4) sampling container is delivered to mixing position place, makes second and third electromagnet subordinate drop to sampling container both sides, make second and third electromagnet portion replace power on/off drive stir block in vessel back and forth displacement stir sample liquid; First make the energising of the second electromagnet portion particularly, the 3rd electromagnet portion power-off, then makes the second electromagnet portion power-off, the energising of the 3rd electromagnet portion; Then make the energising of the second electromagnet portion again, the 3rd electromagnet portion power-off, so circulation realizes stirring moving back and forth of block, thus realizes the stirring to sample liquid.After stirring terminates, installing plate rises.

5) sampling container is delivered to suction sample position, utilizes suction needle to draw sample liquid and analyze to analytic unit.Analytic unit just can use the analytic unit of prior art.

Although the present invention illustrates with regard to preferred implementation and describes, only it will be understood by those of skill in the art that otherwise exceed claim limited range of the present invention, variations and modifications can be carried out to the present invention.

Claims (7)

1. a fecal sample analytic system, is characterized in that, comprises analytical equipment and sampling container; Described sampling container comprises base plate and one end vessel by articulated mounting and base plate hinged, be provided with partition wall in described container basis and vessel be divided into dilution spatial accommodation and thief rod spatial accommodation, dilution is full of in described dilution spatial accommodation, described partition wall is provided with the hole portion of Shi Liangge spatial accommodation UNICOM, described hole portion is provided with sealing film, and described sealing film is bonded with iron block; Described vessel is provided with upper shed, described upper shed is sealed with cap, and described cap lower end is connected with thief rod, is provided with under shed bottom described vessel, described under shed is sealed with piston part, and described upper shed and under shed are the openings of thief rod spatial accommodation; Described thief rod spatial accommodation also has the stirring block of irony;

Described analytical equipment comprises delivery section, and described delivery section is from upstream to downstream and is provided with setting-out position, upturned position, rupture of membranes position, mixing position and suction sample position successively; Described setting-out position is for placing through the sampling container of sampling; Described upturned position place is provided with mechanical arm, for by sampling container 90-degree rotation on base plate; Described rupture of membranes position is provided with the first electromagnet portion, and the iron block on film can be attracted to make film breaks; Described mixing position place is provided with the installing plate that can move up and down, described installing plate is provided with the second electromagnet portion and the 3rd electromagnet portion, and the both sides that second and third electromagnet portion described can move to sampling container make stirring block, in vessel, shift reciprocately occur; Described suction sample position is provided with analytic unit, and described analytic unit is provided with suction tube road, and there is suction needle the one end on suction tube road, and described suction needle can pierce through the sample in piston part absorption vessel; Described analytical equipment also comprises the controller of control analysis device.

2. fecal sample analytic system according to claim 1, is characterized in that, described stirring block is provided with burr, and described stirring block and burr surface are provided with inert coatings.

3. fecal sample analytic system according to claim 1, is characterized in that, described thief rod end is provided with burr.

4. fecal sample analytic system according to claim 1, is characterized in that, described delivery section is linear pattern delivery section.

5. fecal sample analytic system according to claim 1, is characterized in that, described delivery section is positioned at suction downstream, sample position and is also provided with lower sample position, for taking off the sampling container completing and inhale sample.

6. fecal sample analytic system according to claim 1, is characterized in that, described mechanical arm is arranged on the first installation base plate; Described first electromagnet portion is connected on the second installation base plate by connecting link; Described installing plate is connected on the 3rd installation base plate by expansion link.

7. use a method of sample analysis for the fecal sample analytic system described in any one of claim 1-6, it is characterized in that, comprise the steps:

1) utilize thief rod to sample, and cap is covered on vessel, afterwards sampling container is placed on setting-out position;

2) sampling container is delivered to upturned position place by delivery section, utilizes mechanical arm to be turned over by sampling container and turn 90 degrees;

3) sampling container is delivered to rupture of membranes position, utilizes the first electromagnet portion that sealing film is broken;

4) sampling container is delivered to mixing position place, makes second and third electromagnet subordinate drop to sampling container both sides, make second and third electromagnet portion replace power on/off drive stir block in vessel back and forth displacement stir sample liquid;

5) sampling container is delivered to suction sample position, utilizes suction needle to draw sample liquid and analyze to analytic unit.