CN210626303U - Multi-channel fluid detection device - Google Patents

Abstract

The utility model discloses a multinomial passageway fluid detection device. The user needs to stock different disposable detection devices according to different sample adding requirements, which is very inconvenient. The utility model discloses a detect main part and lid. The detection main body consists of a display panel and a bearing plate. The inner side surface of the display panel is fixed with the inner side surface of the bearing plate. The inner side surface of the bearing plate is provided with n test paper placing grooves. The test paper placing grooves are sequentially arranged at intervals, and the bottom ends of the test paper placing grooves are communicated with the bottom end edge of the bearing plate. The top and the bottom of the test paper placing groove are both provided with two oppositely arranged clamp nails. The display panel is provided with n result observation windows. The n result observation windows are respectively aligned with the n test paper placing grooves. The cover body is sleeved at the bottom end of the detection main body. The cover body is provided with n sample adding holes. The n sample adding holes are respectively aligned with the n test paper placing grooves. The utility model discloses can enough be through the mode application of sample of dropwise, can pass through the mode application of sample of submerging again, and easy operation is swift.

Description

Multi-channel fluid detection device

Technical Field

The utility model belongs to the technical field of the fluid detects, concretely relates to multinomial passageway fluid detection device.

Background

In the conventional art, although the conventional fluid detection apparatus can detect the result quickly and accurately. However, the traditional fluid detection device has a single sample adding mode and a complicated operation method. The user needs to store different disposable detection devices according to different sample adding requirements, which is very inconvenient; and the existing disposable detection device can only detect one index, and the efficiency is lower.

Disclosure of Invention

An object of the utility model is to provide a multinomial passageway fluid detection device.

The utility model discloses a detect main part and lid. The detection main body consists of a display panel and a bearing plate. The inner side surface of the display panel is fixed with the inner side surface of the bearing plate. The inner side surface of the bearing plate is provided with n test paper placing grooves, and n is larger than or equal to 2. The test paper placing grooves are sequentially arranged at intervals, and the bottom ends of the test paper placing grooves are communicated with the bottom end edge of the bearing plate. The top and the bottom of the test paper placing groove are both provided with two oppositely arranged clamp nails. The display panel is provided with n result observation windows. The n result observation windows are respectively aligned with the n test paper placing grooves. The cover body is sleeved at the bottom end of the detection main body. The cover body is provided with n sample adding holes. The n sample adding holes are respectively aligned with the n test paper placing grooves.

Preferably, the display panel is further provided with n product identification windows. The n product identification windows are aligned with the n result observation windows, respectively. And label paper is arranged in the n product identification windows.

Preferably, a plurality of fit grooves are formed in the edge of the inner side face of the bearing plate. The edge of the inner side surface of the display panel is provided with a plurality of conjunction nails. The inner side surface of the display panel is in contact with the inner side surface of the carrier plate. The fitting nails on the display panel are respectively clamped into the fitting grooves on the bearing plate.

Preferably, the n test paper accommodating grooves are all provided with reagent strips. The bottom end of each reagent strip extends out of the bottom end of the test paper accommodating groove.

The utility model has the advantages that:

1. the utility model discloses can enough be through the mode application of sample of dropwise, can pass through the mode application of sample of submerging again, and easy operation is swift.

2. The utility model discloses have many mutual separation test paper resettlement grooves, a plurality of indexes that can the synchronous detection sample, efficiency is higher.

3. The test paper placing groove is provided with the clamp for fastening the reagent strip, and the reagent strip is fixed reliably.

Drawings

FIG. 1 is a schematic view of the present invention in the case of dropping a sample;

FIG. 2 is a schematic view of the present invention in a state of being immersed in a specimen;

fig. 3 is a schematic front view of the present invention;

FIG. 4 is a schematic view of the inner side of the bearing plate of the present invention;

fig. 5 is a schematic diagram of the inner side surface of the display panel according to the present invention.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1 and 3, a multi-channel fluid detection device includes a detection body 1 and a cover 2. The bottom of the detection body 1 is provided with an insertion part. The width of the insertion portion is smaller than the width of the top of the detection body 1. The inspection main body 1 is composed of a display panel 1-1 and a carrier plate 1-2.

As shown in figures 1, 4 and 5, a plurality of matching grooves 1-3 are arranged at the edge of the inner side surface of the bearing plate 1-2. The edge of the inner side surface of the display panel 1-1 is provided with a plurality of conjunction nails 1-4. The inner side of the display panel 1-1 is in contact with the inner side of the carrier plate 1-2. The conjunction nails 1-4 on the display panel 1-1 are respectively clamped into the conjunction grooves 1-3 on the bearing plate 1-2, so that the display panel 1-1 and the bearing plate 1-2 are fixed, and the detection main body forms a closed structure.

The medial surface of loading board 1-2 is seted up n test paper and is put groove 3, and n equals 5. The test paper placing grooves 3 are sequentially arranged along the width direction of the detection main body 1, and the bottom ends of the test paper placing grooves are communicated with the bottom end edges of the bearing plates 1-2. Reagent strips 6 are arranged in the n test paper accommodating grooves 3. The bottom end of each reagent strip 6 extends out of the bottom end of the test paper accommodating groove 3. The top and the bottom of the test paper placing groove 3 are provided with two oppositely arranged clamping nails 3-1. The two aligned staples 3-1 respectively press the two side edges of the reagent strip 6 to fix the reagent strip 6. The reagent strips 6 in the test paper accommodating grooves 3 are different.

The display panel 1-1 is provided with n product identification windows 4 and n result observation windows 5. The n result observation windows 5 are respectively aligned with the n test paper placing grooves 3 and are used for observing the color reaction of the reagent strips 6 in the test paper placing grooves 3. The n product recognition windows 4 and the n result observation windows 5 are aligned along the length direction of the detection body 1, respectively. Label paper is arranged in each of the n product identification windows 4. The type of the reagent strip 6 in the corresponding test paper placing groove 3 is recorded on the label paper.

The cross-sectional shape of the inner cavity of the cap 2 is the same as the cross-sectional shape of the insertion portion of the detection body 1, so that the insertion portion of the detection body 1 can be inserted into the inner cavity of the cap 2. One side of the cover body 2 corresponding to the display panel 1-1 is provided with n sampling holes 7. The n sample adding holes 7 are respectively aligned with the n test paper placing grooves 3. The n reagent strips 6 respectively extend into the lower parts of the n sample adding holes 7.

The utility model is wrapped in the plastic packaging film, thereby avoiding being polluted by the external environment; when in use, a user only needs to tear the plastic packaging film.

The working principle of the utility model is as follows:

the utility model discloses two kinds of using-way have: a manner of dropping a sample, a manner of dipping in a sample.

The manner of dropping the sample is shown in fig. 1, and the specific operations are as follows: the detection main body 1 covered with the cover body 2 is flatly placed on a table top, and the result observation window 5 is arranged upwards. The sample is aspirated by the pipette 8 and is dropped into each well 7. The test paper is soaked under each sample adding hole 7. After waiting for the time for the reagent strips 6 to react, the color reaction of the n reagent strips 6 is observed from the n result observation windows 5, respectively, and the detection result is judged. Owing to there are 6 synchronous detection of many reagent strips, so the utility model discloses can detect a plurality of indexes of sample simultaneously.

The manner of dropping the sample is shown in fig. 2, and the specific operations are as follows: the cover body 2 is taken down from the detection main body 1; the bottom end of each reagent strip 6 is immersed in the sample. Thereafter, the reagent strip 6 is separated from the sample. After waiting for the time for the reagent strips 6 to react, the color reaction of the n reagent strips 6 is observed from the n result observation windows 5, respectively, and the detection result is judged.

Claims (4)

1. A multi-channel fluid detection device comprises a detection main body and a cover body; the method is characterized in that: the detection main body consists of a display panel and a bearing plate; the inner side surface of the display panel is fixed with the inner side surface of the bearing plate; the inner side surface of the bearing plate is provided with n test paper accommodating grooves, wherein n is more than or equal to 2; the test paper placing grooves are sequentially arranged at intervals, and the bottom ends of the test paper placing grooves are communicated with the edge of the bottom end of the bearing plate; the top and the bottom of the test paper placing groove are provided with two oppositely arranged clamp nails; n result observation windows are arranged on the display panel; the n result observation windows are respectively aligned with the n test paper placing grooves; the cover body is sleeved at the bottom end of the detection main body; the cover body is provided with n sample adding holes; the n sample adding holes are respectively aligned with the n test paper placing grooves.

2. The multi-channel fluid testing device of claim 1, wherein: the display panel is also provided with n product identification windows; the n product identification windows are respectively aligned with the n result observation windows; and label paper is arranged in the n product identification windows.

3. The multi-channel fluid testing device of claim 1, wherein: a plurality of fit grooves are formed in the edge of the inner side face of the bearing plate; a plurality of conjunction nails are arranged at the edge of the inner side surface of the display panel; the inner side surface of the display panel is contacted with the inner side surface of the bearing plate; the fitting nails on the display panel are respectively clamped into the fitting grooves on the bearing plate.

4. The multi-channel fluid testing device of claim 1, wherein: reagent strips are arranged in the n test paper placing grooves; the bottom end of each reagent strip extends out of the bottom end of the test paper accommodating groove.

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