CN214288267U - Biosafety acquisition processor for detecting exfoliated cells in urine - Google Patents
Biosafety acquisition processor for detecting exfoliated cells in urine Download PDFInfo
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- CN214288267U CN214288267U CN202022134589.8U CN202022134589U CN214288267U CN 214288267 U CN214288267 U CN 214288267U CN 202022134589 U CN202022134589 U CN 202022134589U CN 214288267 U CN214288267 U CN 214288267U
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Abstract
The utility model discloses a cast-off cell detects biological safety collection treater in urine, base plate glass comprise upper glass and lower floor's glass centre gripping middle level glass, and the centre gripping has outer capillary between upper glass and the middle floor glass, is equipped with outer drip groove on the upper glass, and the one end of outer capillary extends to in the outer drip groove, middle glass is equipped with the insertion groove, and the insertion groove supplies standard sample glass to insert between upper glass and the lower floor's glass by the base plate glass side, and standard sample glass comprises the interior capillary of two glass centre gripping, standard sample glass wherein one side is equipped with interior drip groove, and the one end of interior capillary extends to in the interior drip groove. The processor can simultaneously bear the urine sample to be detected and the urine comparison standard sample, and the samples are divided into a plurality of groups through the plurality of capillaries, so that tests of different projects can be carried out for many times, a plurality of groups of data can be obtained for one test, and the accuracy and reliability of detection are ensured.
Description
Technical Field
The utility model relates to a medical instrument auxiliary appliance.
Background
Optical measurement instrument when detecting the cell sample that drops in the urine, need a treater (collection board) that bears the weight of the sample, the structure of present treater sets up a coiled capillary on base plate glass, after dripping into liquid, can permeate in the capillary along with capillary action inspection fluid, but when the cell that drops in the urine detected, need compare standard contrast sample and test sample, present treater can only bear a liquid, consequently it needs to use two treater instruments to carry out twice operations to compare the work, not only influence detection efficiency, and probably cause the detection error because the twice test nuance of instrument.
Disclosure of Invention
The utility model aims to solve the technical problem that realize one kind and can hold dress and treat the urine sample that detects and the collection treater of urine comparison standard sample.
In order to realize the purpose, the utility model discloses a technical scheme be: drop cell detection biosafety collection treater in urine, base plate glass comprises upper glass and lower floor's glass centre gripping middle level glass, the centre gripping has outer capillary between upper glass and the middle floor glass, be equipped with outer drip groove on the upper glass, the one end of outer capillary extends to in the outer drip groove, middle glass is equipped with the insertion groove, the insertion groove supplies standard sample glass to insert between upper glass and lower floor's glass by the base plate glass side, standard sample glass comprises the capillary in two glass centre gripping, standard sample glass wherein one side is equipped with interior drip groove, the one end of interior capillary extends to in the interior drip groove.
Outer capillary is equipped with many, and mutually independent coils, every in the one end of outer capillary extends to outer drip groove, outside the other end all is connected to base plate glass, interior capillary is equipped with many, and mutually independent coils, every in the one end of interior capillary extends to interior drip groove, outside the other end all is connected to standard sample glass.
The outer capillary is coiled into a concentric circle structure and forms a detection area, a blank area without the outer capillary is arranged in the middle of the outer capillary, and the insertion groove is located in the blank area.
The inner capillary is wound into a concentric circle structure, and the inner dripping tank is positioned in the central area of the inner capillary.
The height of the insertion groove is slightly larger than that of standard sample glass, the depth of the insertion groove is larger than that of the standard sample glass, and when the standard sample glass is inserted into the insertion groove, a gap at the edge of the insertion groove is filled with plugging glue.
The utility model has the advantages of can bear the weight of the urine sample and the urine comparison standard sample who wait to detect simultaneously to make the sample fall into the multiunit through many capillaries, can enough carry out the test of many different projects, also can acquire multiunit data to a test, guarantee the accuracy and the reliability that detect.
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 view of a biosafety collection processor for detecting exfoliated cells in urine;
FIG. 2 is a schematic side view of a biosafety collection processor for detecting exfoliated cells in urine;
the labels in the above figures are: 1. a substrate glass; 2. standard sample glass; 3. an outer drip tank; 4. an outer capillary tube; 5. an inner drip tank; 6. an inner capillary; 7. plugging glue; 8. an upper layer of glass; 9. middle layer glass; 10. a lower layer of glass; 11. and inserting the groove.
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 biosafety collection processor for detecting the cast-off cells in the urine is provided with two independent substrates for collecting different samples, including substrate glass 1 and standard sample glass 2, so that diarrhea pathogenic bacteria samples to be detected can be placed one by one, and standard samples can be placed one by one.
As shown in fig. 2, the substrate glass 1 is composed of an upper glass 8 and a lower glass 10 clamping a middle glass 9, the three glasses have the same size and form a rectangular acquisition processor, an outer capillary 4 is clamped between the upper glass 8 and the middle glass 9, the outer capillary 4 is provided with a plurality of capillaries and is independently coiled, so that the same sample can be inspected for a plurality of times, the inspection reliability is ensured, the outer capillary 4 is coiled into a concentric circle structure and forms a detection area, a blank area without the outer capillary 4 is arranged in the middle of the outer capillary 4, and can be used as a standard sample display area, so that the diarrhea pathogenic bacteria sample to be detected is prevented from overlapping with the standard sample. One end of each outer capillary 4 extends into the outer dropping liquid tank 3, the other end of each outer capillary 4 is connected to the outside of the substrate glass 1, and a groove can be formed in the upper layer glass 8 of the substrate glass 1 at the end of each outer capillary, so that the outer capillaries 4 are communicated with the outside. The outer drip tank 3 is a tank formed on the upper glass 8, and can be penetrated into the outer capillary 4 by capillary action when liquid is dripped.
The middle glass is provided with an insertion groove 11, the insertion groove 11 is used for inserting the standard sample glass 2 between the upper layer glass 8 and the lower layer glass 10 from the side surface of the substrate glass 1, and the insertion groove 11 is positioned in a blank area, so that the edge of the middle layer glass 9 can clamp the outer capillary 4, and the fixing reliability of the outer capillary 4 can be ensured.
The standard sample glass 2 is composed of two glass clamping inner capillary tubes 6, one surface of the standard sample glass 2 is provided with an inner dripping tank 5, and one end of each inner capillary tube 6 extends into the inner dripping tank 5. Preferably, the inner capillary tubes 6 are provided with a plurality of capillary tubes which are independently coiled, one end of each inner capillary tube 6 extends into the inner drip groove 5, and the other end of each inner capillary tube is connected to the outside of the standard sample glass 2. One surface of the standard sample glass 2 at the end can be provided with a groove to communicate the inner capillary 6 with the outside. The inner capillary 6 is wound into a concentric circle structure, and the inner drip groove 5 is positioned in the central area of the inner capillary 6.
In order to ensure the fixing reliability and avoid the standard sample glass 2 from falling off due to carelessness after being inserted, the height of the insertion groove 11 is slightly larger than that of the standard sample glass 2, the depth of the insertion groove 11 is larger than the length of the standard sample glass 2, and when the standard sample glass 2 is inserted into the insertion groove 11, the gap at the edge of the insertion groove 11 is filled by the plugging glue 7.
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 biosafety collection processor for detecting the cast-off cells in urine is characterized in that: base plate glass comprises upper glass and lower floor's glass centre gripping middle level glass, the centre gripping has outer capillary between upper glass and the middle level glass, be equipped with outer drip groove on the upper glass, the one end of outer capillary extends to in the outer drip groove, middle level glass is equipped with the insertion groove, the insertion groove supplies standard sample glass to insert between upper glass and the lower floor's glass by the base plate glass side, standard sample glass comprises the capillary in two glass centre grippings, standard sample glass wherein one side is equipped with interior drip groove, the one end of interior capillary extends to in the interior drip groove.
2. The biosafety collection processor for detecting exfoliated cells in urine according to claim 1, wherein: outer capillary is equipped with many, and mutually independent coils, every in the one end of outer capillary extends to outer drip groove, outside the other end all is connected to base plate glass, interior capillary is equipped with many, and mutually independent coils, every in the one end of interior capillary extends to interior drip groove, outside the other end all is connected to standard sample glass.
3. The processor for detecting exfoliated cells in urine according to claim 1 or 2, wherein: the outer capillary is coiled into a concentric circle structure and forms a detection area, a blank area without the outer capillary is arranged in the middle of the outer capillary, and the insertion groove is located in the blank area.
4. The biosafety collection processor for detecting exfoliated cells in urine according to claim 3, wherein: the inner capillary is wound into a concentric circle structure, and the inner dripping tank is positioned in the central area of the inner capillary.
5. The processor for detecting exfoliated cells in urine according to claim 1 or 4, wherein: the height of the insertion groove is slightly larger than that of standard sample glass, the depth of the insertion groove is larger than that of the standard sample glass, and when the standard sample glass is inserted into the insertion groove, a gap at the edge of the insertion groove is filled with plugging glue.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202022134589.8U CN214288267U (en) | 2020-09-25 | 2020-09-25 | Biosafety acquisition processor for detecting exfoliated cells in urine |
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CN202022134589.8U CN214288267U (en) | 2020-09-25 | 2020-09-25 | Biosafety acquisition processor for detecting exfoliated cells in urine |
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CN214288267U true CN214288267U (en) | 2021-09-28 |
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- 2020-09-25 CN CN202022134589.8U patent/CN214288267U/en active Active
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