CN214584919U - Detection device with test paper positioning structure and detection test paper - Google Patents

Abstract

The detection device comprises a detection plate and detection test paper, wherein the detection plate comprises an upper cover and a bottom plate, the detection test paper is installed between the upper cover and the bottom plate, a positioning column is arranged in the detection plate, a positioning hole is formed in the detection test paper, the longitudinal size of the positioning hole is basically the same as that of the positioning column, and the transverse size of the positioning hole is larger than that of the positioning column. The detection device and the detection test paper can improve the success rate of the installation of the detection test paper on the detection plate and reduce the rejection rate of the production of the detection test paper.

Description

Detection device with test paper positioning structure and detection test paper

Technical Field

The utility model relates to an utilize the detection area that the test paper strip detected, in particular to positioner of test paper strip in the test cassette.

Background

Currently, more and more products that can realize on-site sampling and can immediately obtain the detection result are researched and applied to clinics, and the detection is generally called point-of-care testing (POCT).

Such point-of-care testing is often accomplished using dry test strips with reagents. For example, Lateral Flow (Lateral Flow) test strips typically include a support pad on which a sample addition pad, a labeling pad, a detection pad, and a water absorption pad are disposed in order from upstream to downstream, one on top of the other. The liquid sample dripped on the sample addition pad sequentially flows through the sample addition pad, the labeling pad, the detection pad and the water absorption pad. After the detection is finished, the color depth of the color development of the detection pad is linearly related to the concentration of the analyte in the sample to be detected, so that the level of the corresponding analyte in the sample is judged. For example, the vertical current test paper generally includes a supporting pad, on which a sample pad, a separation pad and a detection pad are sequentially disposed from top to bottom, and the supporting pad is located at the detection pad and provided with an observation hole. The test paper also comprises a plurality of forms of test paper such as urine joint test paper which is arranged on the support pad at intervals and is provided with a plurality of test pads. The test paper can adopt various detection methods such as an electrochemical method, a photochemical method and the like which are suitable for the requirement of instant detection, and is used for measuring hormone level, drugs, allergens, physiological indexes in urine, HBV, HCV, HIV, malaria, dengue fever, influenza, middle east respiratory syndrome, SARS and 2019-nCoV, blood sugar, uric acid, blood ketone, cholesterol, lactic acid and the like.

As shown in fig. 8 and 9, the sample application pad, the label pad, the test pad containing the test line (T line) and the control line (C line), the absorbent pad, etc. of the test strip are usually pre-fabricated on a large card 200, the position of the absorbent pad of the large card is punched with the positioning hole 30, and then the large card is cut into individual test strips in the longitudinal direction of the large card by a hob or other cutter. The detection test paper can be directly used for detection, and the detection test paper plate can also be arranged in a detection device. The detection plate generally comprises an upper cover and a bottom plate, the detection test paper is arranged between the upper cover and the bottom plate, and the upper cover or the bottom plate is provided with a sample adding hole and a test result reading window. In order to prevent the test strip mounted in the detection plate from moving longitudinally and deviating from the mounting position, a positioning column 31 is usually installed on the inner wall of the detection plate, and a positioning hole 30 is formed at a corresponding position of the test strip. When the detection test paper is assembled in the detection plate, the detection test paper is sleeved on the positioning column through the positioning hole so as to prevent the detection test paper from moving in the detection plate as much as possible.

The positioning hole shape in the existing product is consistent with the positioning column, for example, the positioning column is circular, the positioning hole is also circular, and the positioning column can be just inserted into the positioning hole, so that the positioning column and the positioning hole are in tight fit or interference fit in the longitudinal direction or the transverse direction. In such a design, the position of the positioning hole of the test strip must be consistent with the position of the positioning post, for example, the center point of the positioning post is on the longitudinal central axis of the testing device, and the center point of the positioning hole must also be on the longitudinal central axis of the test strip. The solid longitudinal line of the large card 200 shown in fig. 9A indicates the exact cutting position, and the single test strip 2 shown in fig. 9B is obtained by cutting at the solid line position, and the center point of the positioning hole 30 of the single test strip is exactly located on the longitudinal axis of the test strip. When the hob is cut exactly at the position of the solid line, the circular positioning post 31 can be inserted into the circular positioning hole 31 of the test paper as shown in fig. 9C.

If the position of the positioning hole deviates, such as the positioning hole is deviated due to the oblique cutting of a hob, a cutter and the like, the positioning column of the detection plate cannot be inserted into the positioning hole of the test paper, and the test paper cannot be installed in the detection plate.

As shown in fig. 10A, the solid vertical line of the large card 200 indicates the exact cutting position, and the dashed vertical line indicates the actual cutting position of the hob, and in this example, the cutting position (dashed line) is shifted to the right from the preset (solid line) position. The hob is cut at the dotted line position to obtain individual test strips 2 as shown in fig. 10B, with the alignment holes 30 of the individual test strips offset to the left from the longitudinal axis. As a result, as shown in fig. 10C, the circular positioning post 31 cannot be inserted into the circular positioning hole 30 of the test paper.

As shown in fig. 11A, the solid vertical line of the large card 200 indicates the exact cutting position, and the dashed vertical line indicates the actual cutting position of the hob, and in this example, the cutting position (dashed line) is set to the left of the preset (solid line) position. The hob is cut at the dotted line position to obtain individual test strips 2 as shown in figure 11B, with the alignment holes 30 of the individual test strips offset to the right from the longitudinal axis. As a result, as shown in fig. 11C, the circular positioning post 31 cannot be inserted into the circular positioning hole 30 of the test paper.

Therefore, in the production and manufacturing process, the conventional test paper processing process may result in a high rejection rate of the test paper, and the test paper shown in fig. 10B and 11B cannot be used. Therefore, each time the test strip is manufactured, the positioning hole must be strictly controlled to the position at the time of product design, and if the cutting operation such as a hob or a cutter is performed, the positioning hole may be slightly deviated from the position designed in advance in the case of a skew cutting. When the positioning column is inserted into the positioning hole of the test paper, the test paper cannot be mounted on the correct position of the detection device because the positioning hole deviates from the preset position, and the detection cannot be carried out. Therefore, the requirement on the precision of the current production process of the detection test paper with the positioning hole is high.

SUMMERY OF THE UTILITY MODEL

In order to improve the success rate of test paper installation on the pick-up plate, reduce the cutting precision of test paper production technology precision, especially test paper strip, one of the purposes of the utility model provides a detection device, include: the detection device comprises a detection plate and detection test paper, wherein the detection plate comprises an upper cover and a bottom plate, the detection test paper is installed between the upper cover and the bottom plate, a positioning column is arranged in the detection plate, a positioning hole is formed in the detection test paper, the longitudinal size of the positioning hole is basically the same as that of the positioning column, and the sizes of the other directions are equal to or larger than that of the positioning column.

In the utility model, the length direction of the test strip is longitudinal, that is, the flowing direction of the liquid on the test strip is longitudinal; the direction perpendicular to the liquid flow direction is transverse; wherein the test strip is cut in the longitudinal direction. When the sizes in other directions are larger than or equal to the positioning columns, the test strip is arranged on the detection plate, the positioning columns are easier to insert into the positioning holes, and the situation that the test strip cannot be arranged on the correct position of the detection device due to the fact that the positioning holes deviate from the preset position is avoided.

Furthermore, in the longitudinal direction, the positioning hole is tightly matched with the positioning column; in other directions, the positioning hole is loosely matched with the positioning column.

Furthermore, the transverse size of the positioning hole is larger than that of the positioning column.

Furthermore, the positioning hole is oval, long-strip or rectangular.

The lateral cross-flow type test paper comprises a supporting pad, and a sample adding pad, a labeling pad, a detection pad and a water absorbing pad which are sequentially arranged on the supporting pad from upstream to downstream in an overlapping manner. The positioning hole is positioned on the water absorption pad.

The test paper includes the supporting pad, and the interval sets up the detection pad on the supporting pad or on the supporting pad, and the locating hole is located the supporting pad.

Further, the detection plate also comprises a transverse limiting column. In a preferred embodiment, the distance between the lateral limiting columns on the two opposite sides is such that the test paper placed in the lateral limiting columns is in tight fit with the lateral limiting columns.

The utility model also provides a test paper, including supporting pad, detection pad and locating hole, locating hole longitudinal dimension is the same basically rather than the longitudinal dimension of complex reference column, and locating hole transverse dimension is bigger than reference column transverse dimension.

The transverse size of the positioning hole in the detection test paper is larger than that of the positioning column of the detection plate, so that loose fit is formed between the positioning hole and the positioning column in the transverse direction, the probability that the cut detection test paper cannot be loaded into the detection plate due to deviation generated by cutting the large card manufacturing test paper can be effectively reduced, and the rejection rate of materials is reduced. And meanwhile, the test paper can be kept at a fixed position on the detection plate. In the assembly of the test paper, the test result can be prevented from being influenced due to the fact that the test paper is twisted in the detection plate due to the deflection of the test paper.

Drawings

FIG. 1 is an exploded view of the device containing test paper of the present invention.

FIG. 2 is a test paper with a circular positioning hole, where test paper A shows that the circular positioning hole is located on the central axis of the test paper, test paper B shows that the circular positioning hole is deviated from the central axis, and test paper C shows that the circular positioning hole is deviated from the central axis.

FIG. 3 is a test paper with an oval positioning hole, where test paper A shows that the oval positioning hole is located on the central axis of the test paper, test paper B shows that the oval positioning hole is deviated from the central axis, and test paper C shows that the oval positioning hole is deviated from the central axis.

FIG. 4 shows the position relationship between the oval positioning hole and the circular positioning post. A represents that the positioning column is positioned in the middle of the positioning hole, and B represents that the positioning column deviates to the right side or the left side of the positioning hole.

FIG. 5 shows the positional relationship between the rectangular positioning holes and the circular positioning posts. A represents that the positioning column is positioned in the middle of the positioning hole, and B represents that the positioning column deviates to the right side or the left side of the positioning hole.

FIG. 6 shows the position relationship between the oval or rectangular positioning hole and the cross-shaped positioning post. A and C indicate that the positioning column is in the middle of the positioning hole, and B and D indicate that the positioning column is shifted to the right side or the left side of the positioning hole.

Fig. 7 is a schematic view of the test paper of the present invention installed on the bottom plate. A shows that the locating hole of the test paper is just in time located on the central axis of the test paper, the locating column inserted into the locating hole is located in the middle of the locating hole, B shows that the locating hole of the test paper is formed in a deviated mode and located at a position lower than the central axis of the test paper, the locating column can still be accurately inserted into the locating hole, and the locating column is located on one side of the locating hole.

Fig. 8 a large card that is not cut.

Fig. 9 is an example of hob cutting in the exact position of the big card. 9A represents a large card that is not cut, and a solid line in the longitudinal direction of the large card represents a correct cutting position; 9B represents the single test strip after cutting; and 9C shows the case where the positioning hole is inserted into the 9B test strip positioning hole.

FIG. 10 is an example of the hob cutting position shifted to the right from the exact cutting position, with 10A indicating an uncut large card, the solid line in the longitudinal direction of the large card indicating the correct cutting position, and the dashed line indicating the actual cutting position; 10B represents a single test strip after cleavage; and 10C shows the situation that the positioning column cannot be inserted into the positioning hole of the test paper of 10B.

FIG. 11 is an example of the hob cutting position offset to the left from the exact cutting position, with 11A indicating an uncut large card, the solid line in the longitudinal direction of the large card indicating the exact cutting position, and the dashed line indicating the actual cutting position; 11B represents a single test strip after cleavage; 11C shows the situation that the positioning column cannot be inserted into the positioning hole of the test paper 11B.

Detailed Description

The present invention will be described in detail with reference to the accompanying drawings. These specific examples are given by way of illustration only, and are not intended to exclude other specific embodiments that would be known to a person skilled in the art from combining the prior art with the present invention.

The test device 1 shown in fig. 1 comprises a test plate and a test strip, the test plate comprises an upper cover 11 and a base plate 12, which are assembled together to form a housing of the test plate. The test paper 2 is installed between the upper cover and the bottom plate and is placed in a relatively fixed position in the test plate to ensure that the test result can be accurately obtained. One end of the bottom plate is provided with a round positioning column 31 which is arranged on the longitudinal central axis of the detection device. A positioning hole 30 is formed in the test strip at a position corresponding to the positioning post, and the positioning post 31 is inserted into the positioning hole 30 to reduce or eliminate the movement of the test strip in the longitudinal direction of the test plate. The base plate is further provided with transverse limiting columns 32 at two longitudinal sides opposite to the test paper, and the distance between the transverse limiting columns 321 and 322 at two opposite sides enables the test paper placed in the transverse limiting columns to be in clamping fit with the transverse limiting columns so as to reduce or eliminate the movement of the test paper in the transverse direction of the detection plate. The positioning column and the transverse limiting column can be arranged on the bottom plate as independent elements or can be combined with other elements to be arranged on the bottom plate. The positioning column and the limiting column can also be arranged on the upper plate.

Rivets 13 are arranged on the periphery of the inner side of the upper cover, lock holes 14 are formed in the position, corresponding to the rivets of the upper cover, of the base plate, and the rivets 13 on the upper cover are in interference fit with the lock holes 14 on the base plate so that the upper cover and the base plate are tightly assembled together. Of course, the positions of the rivets and the lock holes on the upper cover and the bottom plate can be interchanged. In a preferred design, the locking hole 14 is disposed in the lateral restraint post 32. The upper cover and the bottom plate can be assembled together by other methods such as ultrasonic welding and the like without arranging rivets and lock holes.

The longitudinal dimension of the test strip locating hole 30 and the longitudinal dimension of the test strip positioning post 31 are in tight fit, such as a mutual clamping or interference fit, and the positioning post is substantially unable to move in the longitudinal direction of the locating hole, thereby restricting movement of the test strip in the longitudinal direction of the test strip. The lateral dimension of the test strip positioning hole 30 is larger than the lateral dimension of the test strip positioning post 31, and the positioning post can move in the lateral direction of the positioning hole. The movement of the detection test paper in the transverse direction of the detection plate is limited by the transverse limiting column of the detection plate.

In the process of cutting a single test strip or punching and drilling a positioning hole, the positioning hole may be located differently on different single test strips, for example, the positioning hole is exactly located on the longitudinal central axis of the test strip, as shown in fig. 2 a and fig. 3 a; the positioning hole is positioned above the longitudinal central axis, as shown in B in FIG. 2 and B in FIG. 3; the positioning hole is located below the longitudinal central axis, as shown in fig. 2C and 3C. The positioning holes in fig. 2 a to 2C are prior art, the positioning holes matched with the circular positioning posts are circular, and the longitudinal and transverse dimensions of the test paper positioning holes 30 are in clamping fit with the longitudinal and transverse dimensions of the circular positioning posts 31 of the detection device. The locating hole of A in figure 3 to C in figure 3 is the technique of the present invention, the locating hole matched with the circular locating column 31 is oval, and the oval is composed of two relatively parallel edges and two ends which are arc-shaped edges. The longitudinal dimension of the test paper positioning hole 30 is in clamping fit with the longitudinal dimension of the detection device positioning column 31, and the transverse dimension of the positioning hole 30 is larger than that of the detection device positioning column 31.

When the position of the positioning post is on the longitudinal central axis of the detecting device and is fixed, the circular positioning post can still be inserted into the positioning hole after the test paper of A, B, C in fig. 2 a and 3 is placed between the transverse limiting posts. However, after the test paper B and C in FIG. 2 is placed between the lateral position-limiting posts, the circular positioning posts cannot be inserted into the positioning holes with deviation.

As shown in fig. 4, the positioning hole is circular, the positioning hole is oval, the longitudinal dimension of the positioning hole is substantially the same as the outer diameter of the circular positioning column, the transverse dimension of the positioning hole is larger than the outer diameter of the circular positioning column, and the positioning column can be located at the center of the positioning hole, see a in fig. 4, or at any position between two ends, see B in fig. 4.

As shown in fig. 5, the positioning hole is circular, the positioning hole is rectangular, the longitudinal dimension of the positioning hole is substantially the same as the outer diameter of the circular positioning column, the transverse dimension of the positioning hole is larger than the outer diameter of the circular positioning column, and the positioning column can be located at the center of the positioning hole, see a in fig. 5, or at any position between two ends, see B in fig. 5.

As shown in fig. 6, the positioning hole is cross-shaped, the positioning hole is oval or rectangular, the longitudinal dimension of the positioning hole is substantially the same as the outer diameter of the cross-shaped positioning column, the transverse dimension of the positioning hole is larger than the outer diameter of the cross-shaped positioning column, and the positioning column can be located at the center of the positioning hole, see A, C in fig. 6, or at any position between the two ends, see B, D in fig. 6. As shown in fig. 7 a, the cross-shaped positioning column is located on the longitudinal central axis of the detection plate, the central point of the oval positioning hole for manufacturing a single piece of detection test paper is just located on the longitudinal central axis of the detection test paper, and then the cross-shaped positioning column can be inserted into the positioning hole after the test paper is placed between the transverse limiting columns. As shown in fig. 7B, the position of the positioning hole of the single test strip is deviated, the center point of the positioning hole is not located on the longitudinal central axis of the test strip, and when the test strip is placed between the transverse limiting posts, the cross-shaped positioning post can still be inserted into the positioning hole smoothly and is located at one side of the positioning hole. When the detection test paper is installed in place, the sample adding pad and the detection pad are both positioned at the accurate position of the detection device, so that the smooth detection is ensured, and the detection result can be obtained from the detection window 15 of the detection device. Even positional deviation has taken place at the in-process of processing to the locating hole, the technique still can let test paper install the correct position in detection device, and locating hole cooperation reference column can reduce or restrict the longitudinal movement of test paper in detection device, horizontal spacing post can restrict the lateral shifting of test paper in detection device with the cooperation of test paper both sides.

The test paper can be lateral flow test paper 2 as shown in fig. 1, and includes a supporting pad 21, a sample adding pad 22, a labeling pad 23, a detection pad 24 and a water absorption pad 25, wherein the labeling pad is provided with a test line T and a control line C, and a positioning hole is formed in the water absorption pad. The detection test paper can also be detection test paper with a plurality of detection pads arranged on the supporting pad at intervals, such as urine joint detection test paper and other detection test paper in various forms, and the positioning holes can also be arranged on the supporting pad.

The technical personnel in the field can design the positioning columns and the positioning holes with different shapes as required, and the positioning holes are reserved with certain offset for the positioning columns in the longitudinal direction. The final size of the positioning hole in the transverse direction is based on the width and the strength of the test paper, and the size of the positioning hole can be enlarged as much as possible on the basis of meeting the structural strength. And arranging the positioning hole at a corresponding proper position of the test paper according to different positions of the positioning column.

The locating hole has reduced because cut the cutting deviation that single test paper of big card preparation produced and lead to the locating hole to take place the deviation and can not pack test paper into the probability in the pick-up plate with the reference column on vertical loose cooperation. And the probability that the detection test paper cannot be loaded into the detection plate due to the fact that the positioning hole cannot be assembled with the positioning column due to deviation generated when the positioning hole is punched and drilled can also be reduced. The design scheme of the utility model, can reduce the disability rate of material greatly in the test paper manufacturing process. When the test paper is installed, the situation that the test paper deflects to generate distortion of the test paper in the detection device so as to influence the test result is reduced.

Claims (10)

1. A test device having a test strip positioning structure, comprising: pick-up plate and test paper, the pick-up plate includes upper cover and bottom plate, and test paper installs between upper cover and bottom plate, is provided with the reference column in the pick-up plate, has seted up locating hole, its characterized in that on the test paper: the longitudinal dimension of the positioning hole is basically the same as that of the positioning column, and the transverse dimension of the positioning hole is larger than that of the positioning column.

2. The test device with a test strip positioning structure according to claim 1, wherein: in the longitudinal direction, the positioning hole is in close fit with the positioning column, and in the transverse direction, the positioning hole is in loose fit with the positioning column.

3. The test device with a test strip positioning structure according to claim 1, wherein: the positioning hole is in an oval or rectangular shape.

4. The test device with a test strip positioning structure according to claim 1, wherein: the test paper comprises a supporting pad, a sample adding pad, a marking pad, a detection pad and a water absorption pad.

5. The test device with a test strip positioning structure according to claim 4, wherein: the positioning hole is positioned on the water absorption pad.

6. The test device with a test strip positioning structure according to claim 1, wherein: the test paper includes the supporting pad, detects the pad on the supporting pad or sets up the detection pad at the interval on the supporting pad.

7. The test device with a test strip positioning structure according to claim 6, wherein: the positioning hole is positioned on the supporting pad.

8. The detecting device with a test strip positioning structure according to one of claims 1 to 7, wherein: the detection plate also comprises a transverse limiting column.

9. The test device with a test strip positioning structure according to claim 8, wherein: the distance between the transverse limiting columns on the two opposite sides enables the detection test paper placed in the transverse limiting columns to be in tight fit with the transverse limiting columns.

10. The utility model provides a test paper with test paper location structure, includes supporting pad, detection pad and locating hole, its characterized in that: the longitudinal dimension of the positioning hole is basically the same as that of the positioning column matched with the positioning hole, and the transverse dimension of the positioning hole is larger than that of the positioning column.

Images