WO2020014945A1 - Portable liquid extraction device - Google Patents

Abstract

A portable liquid extraction device, comprising: a reagent card body (2), a reagent card handle (4), a reagent card case (6) and a sampling structure (8), wherein the reagent card handle (4) is connected to one end of the reagent card body (2), and the reagent card case (6) is detachably sleeved on the reagent card body (2); the sampling structure (8) is detachably mounted on the other end of the reagent card body (2); and an observation window (10) is provided on the reagent card body (2). When the reagent card case (6) is sleeved on the reagent card body (2), the observation window (10) is hidden in the reagent card case (6).

Description

Portable liquid taking device Technical field

The utility model relates to the technical field of detection equipment, in particular to a portable liquid taking device.

Background technique

After chemical reactions (including complexation reactions, chelation reactions, redox reactions, etc.) of various chemical substances, discoloration often occurs. At this time, it can be said that a color reaction has occurred. The nature of the color reaction is that the chemical reagent molecule individual or the degree of aggregation of the individual changes before and after the reaction (the molecular particle diameter or the inter-molecular gap changes), so that it loses or gains the ability to absorb or scatter visible light at a specific wavelength, which appears to the human eye as Color change.

The chemical reaction's ability to change color is often used for the characterization or identification of specific chemical substances. Depending on the degree of discoloration and the accuracy of preparation, the change in color before and after the reaction of a reagent can qualitatively determine the existence of a specific chemical (such as a gonadotrophin). The hormone HCG measurement is used for pregnancy tests, the acid-base indicator is used for acid-base determination, etc.), the content of specific chemicals is estimated semi-quantitatively (such as FSH measurement for permutation cycle estimation, and PH test paper for ph value measurement, etc.), and even quantitative determination of specific chemical content. Among the discoloration reactions, one type of reaction is to identify the target compound by the principle of "chelation staining". Generally, it marks the test object through an immune response to "stain" it, and after removing the staining agent, the content of the test object is judged by the intensity of the residual color. Due to the convenience of observation of the results, the determination of chemicals based on the discoloration reaction in the visible range has been more widely used in real life.

Take the quantitative detection process using double sandwich immunochromatographic reaction as an example. As shown in Figure 1, the chromatographic effect of the selected substrate is used. After a certain concentration of the liquid to be measured is dropped on the substrate, the solution passes through the chromatography. Move forward to dissolve the stained solidified on the binding pad and wrap it together; when the liquid moves further to the test area, the target compound that has been bound to the stained solid will be cured on the "test line" of certain compounds "Capture" (double-sandwich method when the target compound is a macromolecule); when the liquid carries the reaction residue and continues to move to the "control line", the residual dyes that are not bound to the target compound are solidified on the "control line" Target compounds of the same type "capture" (double sandwich method); the color concentration on the final "test line", or the ratio of the color density of the "test line" to the "control line" (or for a specific band of visible light) Absorption degree), corresponding to the target compound concentration of the liquid to be measured.

For the detection of urine-based analytes, the extraction process is often complicated and inefficient. A common solution is a combination of a urine cup and a dropper, that is, a urine cup is used to receive uncontaminated urine, and a short period of time after the urine collection is completed, a small amount of liquid is drawn by a dropper and placed in the urine collection window of the test reagent card. In the above, this operation step is cumbersome and troublesome, and the reagent card reaction window is easily contaminated by the outside world.

Therefore, the prior art has defects and needs to be improved.

Summary of the invention

The purpose of the utility model is to overcome the shortcomings of the prior art and provide a portable liquid taking device.

The technical solution of the utility model is as follows: The utility model provides a portable liquid taking device, comprising: a reagent card body, a reagent card handle, a reagent card sleeve, and a sampling structure, the reagent card handle and one end of the reagent card body Connection, the reagent card sleeve shell is detachably sleeved on the reagent card body, the sampling structure is detachably mounted on the other end of the reagent card body, and an observation window is provided on the reagent card body. When the reagent card sleeve shell is sleeved on the reagent card body, the observation window is hidden in the reagent card sleeve shell.

One end of the sampling structure is embedded in the other end of the reagent card body.

The end face size of the reagent card sleeve shell is consistent with the end face size of the reagent card handle.

A through hole is opened inside the reagent card sleeve shell, and the reagent card body penetrates the through hole.

The length of the reagent card sleeve shell is consistent with the length of the reagent card body.

The portable liquid taking device is a urine sampling device.

The utility model also provides a portable liquid taking device, comprising: a reagent card body, a reagent card handle, a reagent card sleeve shell, and a sampling structure, the reagent card handle is connected to one end of the reagent card body, and the reagent card sleeve A shell is detachably sleeved on the reagent card body, the sampling structure is detachably mounted on the other end of the reagent card body, and an observation window is provided on the reagent card body. When on the reagent card body, the observation window is hidden in the reagent card sleeve shell;

Wherein, one end of the sampling structure is embedded in the other end of the reagent card body;

Wherein, the end face size of the reagent card sleeve shell is consistent with the end face size of the reagent card handle;

Wherein, a through hole is opened inside the reagent card sleeve shell, and the reagent card body penetrates the through hole;

Wherein, the length of the reagent card sleeve shell is consistent with the length of the reagent card body;

The portable liquid sampling device is a urine sampling device.

With the above solution, the present utility model provides a portable liquid taking device. By setting a reagent card sleeve and a sampling structure detachably provided on the reagent card body, the reaction window of the reagent card body and the reagent card body can be prevented from being contaminated, and The sampling structure and the urine-contaminated reagent card sleeve can be manually removed to indirectly complete the cleaning of the reagent card body, and contamination of equipment for subsequent detection of the reagent card body can be avoided through simple operations.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a schematic diagram of chromatography in the prior art.

FIG. 2 is a schematic structural diagram of a portable liquid taking device of the present invention.

3 is a schematic structural diagram of a reagent card handle and a reagent card body in the present invention.

FIG. 4 is a schematic structural diagram of a reagent cartridge shell in the present invention.

detailed description

The following describes the present invention in detail with reference to the drawings and specific embodiments.

Please refer to FIG. 2 to FIG. 4. The utility model provides a portable liquid taking device. By setting a reagent cartridge sleeve, the observation window 10 and the reagent card body 2 can be prevented from being polluted during the liquid taking process. Very convenient, avoiding the tedious sampling process. The liquid extraction device includes a reagent card body 2, a reagent card handle 4, a reagent card sleeve shell 6 and a sampling structure 8, the reagent card handle 4 is connected to one end of the reagent card body 2, and the reagent card sleeve shell 6 is detachably sleeved on the reagent card body 2, the sampling structure 8 is detachably mounted on the other end of the reagent card body 2, and an observation window 10 is provided on the reagent card body 2, through which The observation window 10 can directly observe the reaction test paper. When the reagent card case 6 is set on the reagent card body 2, the observation window 10 is hidden in the reagent card case 6. The utility model is designed according to ergonomics. The entire liquid taking device is convenient for one-handed operation when a woman receives urine. The sampling structure 8 and the reagent card housing 6 are detachably provided on the reagent card body 2 to avoid the reagent card body. The reaction window 10 and the reagent card body 2 of 2 are contaminated, and the sampling structure 8 and the urine-contaminated reagent card housing 6 can be manually removed to indirectly complete the cleaning work of the reagent card body 2 through simple operations. Avoid contamination of the equipment for subsequent detection of the reagent card body 2.

A recess is provided at the other end of the reagent card body 2, and one end of the sampling structure 8 is embedded in the recess at the other end of the reagent card body 2, so that the sampling liquid can be smoothly transferred to the reagent card body 2. The sampling structure 8 is provided with a plurality of hollow portions, and the hollow portions are provided to facilitate sampling.

The size of the end face of the reagent cartridge housing 6 is consistent with the size of the end face of the reagent card handle 4, which makes the portable liquid taking device more beautiful. The length of the reagent card case 6 is the same as the length of the reagent card body 2. The reagent card case 6 has a through hole inside, and the reagent card body 2 penetrates the through hole to ensure the entire reagent card. The body 2 can be fully protected.

The portable liquid taking device is a urine sampling device.

In summary, the present invention provides a portable liquid taking device. By providing a reagent card sleeve and a sampling structure detachably provided on the reagent card body, the reaction window of the reagent card body and the reagent card body can be prevented from being contaminated. In addition, the sampling structure and the urine-contaminated reagent card sleeve can be manually removed to indirectly complete the cleaning of the reagent card body, and contamination of equipment for subsequent detection of the reagent card body can be avoided through simple operations.

The above are only the preferred embodiments of the present invention, and are not intended to limit the present invention. Any modification, equivalent replacement, and improvement made within the spirit and principles of the present invention shall be included in the present invention Within the scope of protection.

Claims (7)

1. A portable liquid taking device includes a reagent card body, a reagent card handle, a reagent card sleeve shell, and a sampling structure. The reagent card handle is connected to one end of the reagent card body, and the reagent card sleeve shell is detachably sleeved. On the reagent card body, the sampling structure is detachably mounted on the other end of the reagent card body. The reagent card body is provided with an observation window, and when the reagent card sleeve is sleeved on the reagent card When on the body, the observation window is hidden in the reagent cartridge housing.
2. The portable liquid taking device according to claim 1, wherein one end of the sampling structure is embedded in the other end of the reagent card body.
3. The portable liquid taking device according to claim 1, wherein an end face size of the reagent cartridge housing is consistent with an end face size of the reagent card handle.
4. The portable liquid taking device according to claim 1, wherein a through hole is opened inside the reagent card sleeve shell, and the reagent card body penetrates the through hole.
5. The portable liquid taking device according to claim 1, wherein a length of the reagent card sleeve shell is consistent with a length of the reagent card body.
6. The portable liquid taking device according to claim 1, wherein the portable liquid taking device is a urine sampling device.
7. A portable liquid taking device includes a reagent card body, a reagent card handle, a reagent card sleeve shell, and a sampling structure. The reagent card handle is connected to one end of the reagent card body, and the reagent card sleeve shell is detachably sleeved. On the reagent card body, the sampling structure is detachably mounted on the other end of the reagent card body. The reagent card body is provided with an observation window, and when the reagent card sleeve is sleeved on the reagent card When on the body, the observation window is hidden in the reagent card housing;

   Wherein, one end of the sampling structure is embedded in the other end of the reagent card body;

   Wherein, the end face size of the reagent card sleeve shell is consistent with the end face size of the reagent card handle;

   Wherein, a through hole is opened inside the reagent card sleeve shell, and the reagent card body penetrates the through hole;

   Wherein, the length of the reagent card sleeve shell is consistent with the length of the reagent card body;

   The portable liquid sampling device is a urine sampling device.

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