CN213348929U - Biological safety collecting processor for secretion detection - Google Patents
Biological safety collecting processor for secretion detection Download PDFInfo
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- CN213348929U CN213348929U CN202022137882.XU CN202022137882U CN213348929U CN 213348929 U CN213348929 U CN 213348929U CN 202022137882 U CN202022137882 U CN 202022137882U CN 213348929 U CN213348929 U CN 213348929U
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Abstract
The utility model discloses a biological safe collection processor of secretion detection, the outer lane capillary has been buried underground in the base plate glass, be equipped with down the drip groove on the base plate glass, the one end of outer lane capillary extends to in the drip groove down, it has the inner circle capillary to coil in the outer lane capillary, be equipped with the drip groove on the base plate glass, the one end of inner circle capillary extends to in the drip groove. The utility model has the advantages of can realize the dual sample test of monolithic base plate under the condition of avoiding disturbing, can satisfy the comparison demand, also can guarantee the accurate nature and the reliability of test.
Description
Technical Field
The utility model relates to a medical instrument auxiliary appliance.
Background
Optical measurement instrument when checking secretion sample, need a treater (collection board) of bearing the weight of the sample, the structure of present treater sets up a capillary that coils on base plate glass, after dripping into liquid, can permeate in the capillary along with capillary action inspection fluid, but during the secretion was detected, need compare standard contrast sample and test sample, present treater can only bear a liquid, consequently the work of comparison needs to use two instruments for the treater to carry out twice operations, not only influences detection efficiency, and probably because the instrument tests the slight difference and causes detection error twice.
Disclosure of Invention
The utility model aims to solve the technical problem that realize one kind and can utilize the optical medical instrument to compare the sample to detecting sample and standard simultaneously and carry out the collection treater that detects.
In order to realize the purpose, the utility model discloses a technical scheme be: secretion detects biological safety and gathers treater, buries the outer lane capillary underground in the glass of substrate, be equipped with down the drip groove on the glass of substrate, the one end of outer lane capillary extends to down in the drip groove, it has the inner circle capillary to coil in the outer lane capillary, be equipped with the drip groove on the glass of substrate, the one end of inner circle capillary extends to in the drip groove.
Outer lane capillary is equipped with many, and mutually independent coils, every the one end of outer lane capillary extends to in the drip groove down, and the other end all is connected to outside the base plate glass, the inner circle capillary is equipped with many, and mutually independent coils in outer lane capillary, every the one end of inner circle capillary extends to in the drip groove, and the other end all is connected to outside the base plate glass.
The substrate glass is formed by laminating two pieces of glass, the outer ring capillary and the inner ring capillary are clamped between the two pieces of glass, and the upper dropping liquid tank and the lower dropping liquid tank are grooves formed in different pieces of glass.
The outer ring capillary tube and the inner ring capillary tube are coiled into a concentric circle structure to form a detection area, and the upper liquid dripping tank and the lower liquid dripping tank are located on different sides of the detection area.
And a gap is formed between two ends of the outer ring capillary tube, and the inner ring capillary tube extends into the outer ring capillary tube from the gap and is coiled.
The utility model has the advantages of can realize the dual sample test of monolithic base plate under the condition of avoiding disturbing, can satisfy the comparison demand, also can guarantee the accurate nature and the reliability of test.
Drawings
The following brief descriptions of the contents expressed by each figure and the marks in the figures in the specification of the present invention are as follows:
FIG. 1 is a schematic structural diagram of a secretion detection biosafety collection processor;
the labels in the above figures are: 1. a substrate glass; 2. dropping a drip tank; 3. an outer ring capillary tube; 4. an inner ring capillary tube; 5. and an upper dropping liquid tank.
Detailed Description
The following description of the embodiments with reference to the drawings is intended to illustrate the present invention in further detail, such as the shapes and structures of the components, the mutual positions and connections between the components, the functions and working principles of the components, the manufacturing process, and the operation and use methods, etc., so as to help those skilled in the art understand the present invention more completely, accurately and deeply.
The secretion detection biosafety collection processor is formed by bonding two pieces of glass into rectangular substrate glass 1, an inner ring capillary 4 and an outer ring capillary 3 are coiled in the substrate glass 1 and are respectively used for collecting different samples, one is used for placing a diarrhea pathogenic bacteria sample to be detected, and the other is used for placing a standard sample.
As shown in FIG. 1, the inner ring capillary 4 and the outer ring capillary 3 form an open concentric circle structure, the concentric circle region is a detection region, and in the equipment detection, the detection region is irradiated by a light source in the instrument,
preferably, a plurality of outer ring capillaries 3 are arranged, so that the same sample can be checked for multiple times, the reliability of the check is ensured, the outer ring capillaries 3 are provided with a plurality of capillaries which are independently coiled, one end of each outer ring capillary 3 extends into the lower dripping tank 2, the other end of each outer ring capillary 3 is connected to the outside of the substrate glass 1, and a groove can be formed in the glass, so that the end of the outer ring capillary 3 can be communicated with the outside; preferably, a plurality of inner ring capillaries 4 are arranged, so that the same sample can be inspected for a plurality of times, the inspection reliability is ensured, the inner ring capillaries 4 are provided with a plurality of inner ring capillaries, the inner ring capillaries are mutually independently coiled, one end of each inner ring capillary 4 extends into the upper drip groove 5, the other end of each inner ring capillary 4 is connected to the outside of the substrate glass 1, and a groove can be formed in the glass, so that the end of each inner ring capillary 4 can be communicated with the outside.
In order to avoid mutual interference between secretion standard samples and samples to be detected in the two drip tanks, the upper drip tank 5 and the lower drip tank 2 are grooves formed in different glasses, namely, the outer ring capillary 3 and the inner ring capillary 4 are coiled into concentric circle structures and form a detection area on different surfaces of the drip tanks, and the upper drip tank 5 and the lower drip tank 2 are located on different sides of the detection area and completely separate the two detection areas.
In addition, a gap is formed between two ends of the outer ring capillary tube 3, and the inner ring capillary tube 4 extends into the outer ring capillary tube 3 through the gap and is coiled, so that all the capillary tubes cannot be overlapped, and the capillary tube blockage caused by mutual overlapping is avoided.
The present invention has been described above with reference to the accompanying drawings, and it is to be understood that the invention is not limited to the specific embodiments described above, and that the invention is not limited to the specific embodiments described above, but rather is intended to cover various insubstantial modifications of the inventive method and solution, or its application to other applications without modification.
Claims (5)
1. The secretion detects biological safety and collects treater, buries the outer lane capillary underground in the glass of base plate, be equipped with down the drip groove on the glass of base plate, the one end of outer lane capillary extends to in the drip groove down, its characterized in that: an inner ring capillary is coiled in the outer ring capillary, an upper dropping liquid tank is arranged on the substrate glass, and one end of the inner ring capillary extends into the upper dropping liquid tank.
2. The secretion detection bio-security collection processor of claim 1, wherein: outer lane capillary is equipped with many, and mutually independent coils, every the one end of outer lane capillary extends to in the drip groove down, and the other end all is connected to outside the base plate glass, the inner circle capillary is equipped with many, and mutually independent coils in outer lane capillary, every the one end of inner circle capillary extends to in the drip groove, and the other end all is connected to outside the base plate glass.
3. The secretion detection bio-safety collection processor according to claim 1 or 2, wherein: the substrate glass is formed by laminating two pieces of glass, the outer ring capillary and the inner ring capillary are clamped between the two pieces of glass, and the upper dropping liquid tank and the lower dropping liquid tank are grooves formed in different pieces of glass.
4. The secretion detection bio-security collection processor of claim 3, wherein: the outer ring capillary tube and the inner ring capillary tube are coiled into a concentric circle structure to form a detection area, and the upper liquid dripping tank and the lower liquid dripping tank are located on different sides of the detection area.
5. The secretion detection bio-security collection processor of claim 4, wherein: and a gap is formed between two ends of the outer ring capillary tube, and the inner ring capillary tube extends into the outer ring capillary tube from the gap and is coiled.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202022137882.XU CN213348929U (en) | 2020-09-25 | 2020-09-25 | Biological safety collecting processor for secretion detection |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202022137882.XU CN213348929U (en) | 2020-09-25 | 2020-09-25 | Biological safety collecting processor for secretion detection |
Publications (1)
Publication Number | Publication Date |
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CN213348929U true CN213348929U (en) | 2021-06-04 |
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Family Applications (1)
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CN202022137882.XU Active CN213348929U (en) | 2020-09-25 | 2020-09-25 | Biological safety collecting processor for secretion detection |
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CN (1) | CN213348929U (en) |
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2020
- 2020-09-25 CN CN202022137882.XU patent/CN213348929U/en active Active
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