CN106404770B

CN106404770B - Dry chemical analysis device for sample

Info

Publication number: CN106404770B
Application number: CN201610931540.0A
Authority: CN
Inventors: 沈一珊
Original assignee: Hangzhou Xinlong Medical Technology Co ltd
Current assignee: Hangzhou Xinlong Medical Technology Co ltd
Priority date: 2016-10-31
Filing date: 2016-10-31
Publication date: 2024-04-09
Anticipated expiration: 2036-10-31
Also published as: CN106404770A

Abstract

The invention discloses a sample dry chemical analysis device which is used for detecting a sample in a test tube and comprises a bottom plate, a workbench, a moving structure, a paper taking structure, a liquid dropping structure and a chemical analysis structure, wherein the workbench is fixed with the moving structure, the paper taking structure, the liquid dropping structure and the chemical analysis structure, the moving structure enables a test paper assembly to move towards a first direction until the paper taking structure can take out the test paper in the test paper assembly, the liquid dropping structure moves along a second direction perpendicular to the first direction to drop the sample in the test tube onto the test paper, and the chemical analysis structure analyzes the sample on the test paper. The moving structure of the invention enables the test paper assembly to move towards the first direction until the paper taking structure can take out the test paper in the test paper assembly, the dropping structure moves to drop the sample in the test tube onto the test paper, and the chemical analysis structure analyzes the sample on the test paper.

Description

Dry chemical analysis device for sample

Technical Field

The present invention relates to an analyzer, and more particularly, to a dry chemical analyzer for a sample.

Background

With the development of science and technology, medical diagnosis is no longer performed by simple means such as news and smell. Modern medicine uses a microscope to analyze samples of blood, urine, secretions, etc. of a patient to determine the cause of the patient. However, in the practical operation of a hospital, a sample is placed in a test tube, an inspector manually extracts the sample in the test tube by using a needle, then drops the sample on test paper, and places the test paper in a chemical analysis device for analysis, and the series of operations are all required to be completed manually, thus occupying a lot of time for the inspector and having low efficiency.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention aims to provide a sample dry chemical analysis device capable of automatically analyzing a liquid sample in a test tube.

The invention adopts the following technical scheme:

the utility model provides a sample dry chemistry analytical equipment for detect the sample in a test tube, sample dry chemistry analytical equipment includes a bottom plate, a workstation of being fixed in the bottom plate, a moving structure, a paper taking structure, a dropping liquid structure and a chemical analysis structure, moving structure, paper taking structure, dropping liquid structure and chemical analysis structure are fixed in the workstation, moving structure makes a test paper subassembly towards a first direction remove until the paper taking structure can take out test paper in the test paper subassembly, dropping liquid structure moves along a second direction perpendicular to the first direction will sample in the test tube will drop to on the test paper, the chemical analysis structure is to the sample on the test paper carries out the analysis.

Preferably, the moving structure comprises a first driving piece, at least one second driving piece, a first bracket and two moving components, wherein the first driving piece is connected with the at least one second driving piece, the first bracket is fixed on the at least one second driving piece, the two moving components are respectively fixed on two ends of the first bracket, and the first driving piece drives the two moving components to move through the at least one second driving piece.

Preferably, the moving structure further includes two first sliding shafts, the workbench is provided with two sliding grooves, each first sliding shaft is fixed on the workbench and is accommodated in one sliding groove, and each moving assembly is slidably mounted on one first sliding shaft.

Preferably, each moving assembly comprises a mounting block, an elastic piece and a pushing piece, wherein the elastic piece is fixed on the first bracket and is slidably mounted on the first sliding shaft, and two ends of the elastic piece are respectively and fixedly connected with the mounting block and the pushing piece.

Preferably, the paper taking structure comprises a second driving piece, a second mounting frame and two paper taking blocks, wherein the second driving piece is fixedly connected with the second mounting frame, the two paper taking blocks are fixed on the second mounting frame, the workbench is provided with two abdicating grooves, and the two paper taking blocks extend into the two abdicating grooves.

Preferably, the dropping structure comprises a plate body, a sliding rail, a mounting block and a dropping needle, wherein the plate body is fixedly mounted on the workbench, the sliding rail is fixed on the plate body, the mounting block is mounted on the sliding rail, one end of the dropping needle is fixed on the mounting block, and the mounting block moves reciprocally along the sliding rail to enable the dropping needle to extend into the test tube to suck the sample and drop the sample to the test paper.

Preferably, the chemical analysis structure comprises a fifth driving member, a fifth transmission member and an analysis device, wherein the fifth driving member is fixed on the workbench and connected with the fifth transmission member, and the analysis device is fixed on the workbench and positioned on one side of the fifth transmission member.

Preferably, the dry chemical analysis device for samples further comprises a sliding structure, wherein the sliding structure comprises a fourth driving piece, a third driving piece, a guide rail and a pushing plate, the fourth driving piece and the guide rail are fixed on the workbench, the third driving piece is connected with the fourth driving piece, and the pushing plate is fixedly connected with the third driving piece and is slidably mounted on the guide rail.

Preferably, the dry chemical analysis device for samples further comprises a pushing structure, the pushing structure comprises a third driving piece, a connecting rod, a third mounting frame, a second sliding shaft and two pushing blocks, the third driving piece is fixed on the workbench, two ends of the connecting rod are fixedly connected with the third driving piece and the third mounting frame respectively, and the two pushing blocks are fixed on the third mounting frame.

Compared with the prior art, the invention has the beneficial effects that:

the moving structure of the sample dry chemical analysis device enables the test paper assembly to move towards the first direction until the paper taking structure can take out test paper in the test paper assembly, the dropping structure moves along the second direction perpendicular to the first direction to drop samples in the test tube onto the test paper, and the chemical analysis structure analyzes the samples on the test paper.

Drawings

FIG. 1 is a perspective view of a dry chemical analysis apparatus for a sample according to the present invention.

Fig. 2 is another perspective view of the sample dry chemistry analysis apparatus of fig. 1.

FIG. 3 is a top view of the sample dry chemistry analysis apparatus of FIG. 1.

Fig. 4 is a side view of the sample dry chemistry analysis apparatus of fig. 1.

FIG. 5 is a schematic view of the dry chemical analysis apparatus of FIG. 1 in use.

In the figure: 100. a sample dry chemical analysis device; 10. a bottom plate; 20. a work table; 22. a chute; 24. a relief groove; 30. a propulsion structure; 32. a first transmission member; 34. a slide block; 340. a collision part; 40. a moving structure; 42. a first driving member; 43. a second transmission member; 44. a first bracket; 45. a first sliding shaft; 46. a moving assembly; 460. pushing the sheet; 462. an elastic member; 464. a mounting block; 50. a paper taking structure; 52. a second driving member; 54. a second mounting frame; 56. taking paper blocks; 60. a pushing structure; 62. a third driving member; 63. a connecting rod; 64. a third mounting frame; 65. a second sliding shaft; 66. pushing blocks; 70. a drip structure; 72. a plate body; 74. a slide rail; 76. a mounting block; 78. a dropping needle; 80. a sliding structure; 82. a fourth driving member; 83. a third transmission member; 84. a guide rail; 86. a push plate; 90. chemically analyzing the structure; 91. a fifth driving member; 94. a fourth transmission member; 96. an analysis device; 200. a test tube rack; 202. a groove; 300. a test tube; 400. and a test paper assembly.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

It will be understood that when an element is referred to as being "fixed to" another element, it can be directly on the other element or intervening elements may also be present. When a component is considered to be "connected" to another component, it can be directly connected to the other component or intervening components may also be present. When an element is referred to as being "disposed on" another element, it can be directly on the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like are used herein for illustrative purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-5, a dry chemical analysis apparatus 100 is provided for analyzing a sample in a test tube 300. The sample dry chemical analysis apparatus 100 includes a base plate 10, a workbench 20, a pushing structure 30, a moving structure 40, a paper taking structure 50, a pushing structure 60, a dropping structure 70, a sliding structure 80 and a chemical analysis structure 90.

The workbench 20 is provided with two sliding grooves 22 and two yielding grooves 24.

The pushing structure 30 includes a first transmission member 32 and a slider 34. The slider 34 is mounted to the first transmission member 32. The slider 34 includes an abutting portion 340. The moving structure 40 includes a first driving member 42, two second driving members 43, a first bracket 44, two first sliding shafts 45, and two moving assemblies 46. The first driving member 42 is connected to the two second transmission members 43. The first bracket 44 is fixed to the two second transmission members 43. The two moving assemblies 46 are respectively fixed to the two second transmission members 43 and slidably mounted on the first sliding shaft 45.

The paper taking structure 50 includes a second driving member 52, a second mounting frame 54, and two paper taking blocks 56. The second mounting bracket 54 is fixedly connected to the second driving member 52. The two paper taking blocks 56 are fixed on two opposite sides of the second mounting frame 54.

The pushing structure 60 includes a third driving member 62, a connecting rod 63, a third mounting frame 64, two second sliding shafts 65, and two pushing blocks 66. The two ends of the connecting rod 63 are respectively connected with the third driving member 62 and the third mounting frame 64. The two pushing blocks 66 are fixed on the third mounting frame 64 and slidably mounted on the second sliding shaft 65.

The drip structure 70 includes a plate 72, a slide rail 74, a mounting block 76, and a drip needle 78. The slide rail 74 is fixed to the plate 72, the mounting block 76 is mounted to the slide rail 74, and the drip needle 78 is fixed to the mounting block 76.

The sliding structure 80 includes a fourth driving member 82, a third driving member 83, a guide rail 84, and a push plate 86. The third transmission member 83 is connected to the fourth driving member 82, and the push plate 86 is fixed to the third transmission member 83 and slidably mounted on the guide rail 84.

The chemical analysis structure 90 includes a fifth driving member 91, a fourth driving member 94, and an analysis device 96. The fifth driving member 91 is connected to the fourth driving member 94.

When the sample dry chemical analysis apparatus 100 is assembled, the stage 20 is fixed to the base plate 10 and is substantially parallel to the base plate 10. The first transmission member 32 is mounted to the base plate 10. The first driving member 42 and the two first sliding shafts 45 are fixed to the table 20, and the two first sliding shafts 45 are accommodated in the two sliding grooves 22. The second driving member 52 is fixed to the table 20. The two paper taking blocks 56 extend into the two giving grooves 24. The third driving member 62 and the plate 72 are fixed to the table 20. The fourth driving member 82, the guide rail 84, the fifth driving member 91, and the analyzing device 96 are fixed to the table 20.

When the sample dry chemical analyzer 100 is used, the test tube 300 is accommodated in the rack 200. The pushing portion 340 of the pushing structure 30 is snapped with the groove 202 of the test tube rack 200, the first transmission member 32 drives the slider 34 to move, and the pushing portion 340 pushes the test tube rack 200 to move until the drop needle 78 is below. The test paper assembly 400 is placed on the workbench 20, the first driving member 42 drives the moving assembly 46 to move through the second driving member 43, and the pushing plate 460 pushes the test paper assembly 400 to move towards a first direction. The second driving member 52 drives the paper taking block 56 to move through the second mounting frame 54, and the paper taking block 56 hooks out the test paper in the test paper assembly 400. The mounting block 76 of the drip structure 70 is moved along the slide rail 74 in a second direction perpendicular to the first direction to cause the drip needle 78 to draw the sample from the test tube 300 and drip the sample to the test strip. The sample dry chemical analysis device 100 further includes a heating device and a temperature sensor, where the heating device and the temperature sensor are fixed on the workbench, the heating device works to make the test paper reach a specified temperature so as to react and generate color change, and the temperature sensor detects the temperature of the test paper. The fifth driving part 91 drives the test paper to move into the analysis device 96 through the fourth driving part 94, and the analysis device 96 performs chemical analysis on the test paper.

The workbench 20 is provided with a placement area, a plurality of test paper assemblies 400 can be placed in the placement area, the moving structure 40, the pushing structure 60 and the sliding structure 80 enable the test paper assemblies 400 to move along a preset track, the test paper assemblies 400 can be completely displayed in front of operators, the operators can observe conveniently, the replacement and the addition are convenient and free, the normal pushing of other test paper assemblies 400 can not be influenced, the cross confusion among different packages of test paper is reduced, the forming reasons of variation test paper, the product batch and the like can be effectively identified, and the tracing is carried out; the placing area has enough intervals, the number of the test paper assemblies 400 can be added at will, an operator can put test paper into the test paper at one time according to the daily sample size or can add and take out redundant test paper boxes at any time according to the running condition of the day to seal and store, so that the sample drying chemical analysis device 100 cannot be frequently stopped due to the lack of the test paper, and the sample analysis period is prolonged.

It will be apparent to those skilled in the art from this disclosure that various other changes and modifications can be made which are within the scope of the invention as defined in the appended claims.

Claims

1. A dry chemical analysis apparatus for detecting a sample in a test tube, the dry chemical analysis apparatus comprising a base plate and a table fixed to the base plate, characterized in that: the sample dry chemical analysis device further comprises a moving structure, a paper taking structure, a liquid dropping structure and a chemical analysis structure, wherein the moving structure, the paper taking structure, the liquid dropping structure and the chemical analysis structure are fixed on the workbench, the moving structure enables a test paper assembly to move towards a first direction until the paper taking structure can take out test paper in the test paper assembly, the liquid dropping structure moves along a second direction perpendicular to the first direction to drop samples in the test tube onto the test paper, and the chemical analysis structure analyzes the samples on the test paper;

the moving structure comprises a first driving piece, at least one second transmission piece, a first bracket and two moving components, wherein the first driving piece is connected with the at least one second transmission piece, the first bracket is fixed on the at least one second transmission piece, the two moving components are respectively fixed at two ends of the first bracket, and the first driving piece drives the two moving components to move through the at least one second transmission piece;

the sample dry chemical analysis device further comprises a sliding structure, wherein the sliding structure comprises a fourth driving piece, a third transmission piece, a guide rail and a pushing plate, the fourth driving piece and the guide rail are fixed on the workbench, the third transmission piece is connected with the fourth driving piece, and the pushing plate is fixedly connected with the third transmission piece and is slidably mounted on the guide rail;

the sample dry chemical analysis device further comprises a pushing structure, wherein the pushing structure comprises a third driving piece, a connecting rod, a third mounting frame, a second sliding shaft and two pushing blocks, the third driving piece is fixed on the workbench, two ends of the connecting rod are respectively and fixedly connected with the third driving piece and the third mounting frame, and the two pushing blocks are fixed on the third mounting frame;

the sample dry chemical analysis device further comprises a heating device and a temperature sensor, wherein the heating device and the temperature sensor are fixed on the workbench, the heating device works to enable the test paper to reach a specified temperature so as to facilitate reaction and generate color change, and the temperature sensor detects the temperature of the test paper.

2. The dry chemical analysis apparatus according to claim 1, wherein: the movable structure further comprises two first sliding shafts, the workbench is provided with two sliding grooves, each first sliding shaft is fixed on the workbench and accommodated in the corresponding sliding groove, and each movable assembly is slidably mounted on one first sliding shaft.

3. The sample dry chemical analysis apparatus according to claim 2, wherein: each moving assembly comprises a mounting block, an elastic piece and a pushing piece, wherein the elastic piece is fixed on the first bracket and is slidably mounted on the first sliding shaft, and two ends of the elastic piece are respectively and fixedly connected with the mounting block and the pushing piece.

4. The dry chemical analysis apparatus according to claim 1, wherein: the paper taking structure comprises a second driving piece, a second installation frame and two paper taking blocks, wherein the second driving piece is fixedly connected with the second installation frame, the two paper taking blocks are fixed on the second installation frame, the workbench is provided with two abdicating grooves, and the two paper taking blocks extend into the two abdicating grooves.

5. The dry chemical analysis apparatus according to claim 1, wherein: the liquid dropping structure comprises a plate body, a sliding rail, a mounting block and a liquid dropping needle, wherein the plate body is fixedly mounted on the workbench, the sliding rail is fixed on the plate body, the mounting block is mounted on the sliding rail, one end of the liquid dropping needle is fixed on the mounting block, and the mounting block moves reciprocally along the sliding rail to enable the liquid dropping needle to extend into the test tube to absorb the sample and drop the sample to the test paper.

6. The dry chemical analysis apparatus according to claim 1, wherein: the chemical analysis structure comprises a fifth driving piece, a fifth transmission piece and an analysis device, wherein the fifth driving piece is fixed on the workbench and connected with the fifth transmission piece, and the analysis device is fixed on the workbench and positioned on one side of the fifth transmission piece.