CN211905099U - Automatic change dry chemistry check out test set - Google Patents

Abstract

The utility model discloses an automatic change dry chemistry check out test set, a serial communication port, including incubation device and image acquisition device, incubation device includes L type chassis, set up push rod and push rod actuating mechanism on the L type chassis, L type chassis sets up first layer board and incubation board, the both sides parallel arrangement of first layer board and incubation board supplies push rod back and forth movement's push rod groove, set up the card box on the first layer board, incubation board one end links to each other with first layer board, and the other end sets up card transition pusher, card transition pusher is disposed in image acquisition device below, card transition pusher includes second layer board and card actuating mechanism, and it has solved present traditional problem that only judges to cause the great problem of error through artifical observation colour, and the problem of inefficiency.

Description

Automatic change dry chemistry check out test set

Technical Field

The utility model belongs to the technical field of dry chemistry detects, concretely relates to change dry chemistry check out test set automatically.

Background

The field of medical detection applies a large number of dry chemical detection items, and the detection result is judged by means of color reaction of test paper or an experimental card.

In the medical detection, the analysis and detection processes of blood or other secretions mostly need to be carried out in the environment close to the body temperature of a human body, a constant-temperature incubation device is needed, and a constant-temperature water tank needs to be independently configured for a plurality of instruments, so that the reaction is carried out in the water bath tank. The constant-temperature water bath tank is large in size and inconvenient to use, and the detection process cannot be fully automated; the constant temperature of the full-automatic instrument is realized mainly by heating a relatively closed space, but the temperature of different parts of the closed space has temperature difference, the temperature difference causes the inconsistency of reactions at each part, and the accuracy and the repeatability of a detection result are influenced.

The traditional result judgment needs manual work, and the error of color judgment caused by artificial subjective consciousness is large.

The prior art therefore remains to be studied further.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an automatic change chemical detection equipment futilely, it has solved present tradition and has only judged through artifical observation colour and cause the great problem of error, and the problem of inefficiency.

In order to solve the above problems, the utility model adopts the following technical scheme: the utility model provides an automatic change chemical detection equipment futilely, its characterized in that, includes incubation device and image acquisition device, incubation device includes L type chassis, set up push rod and push rod actuating mechanism on the L type chassis, L type chassis sets up first layer board and incubation board, the both sides parallel arrangement of layer board and incubation board supplies the push rod groove of push rod back and forth movement, set up the card box on the first layer board, incubation board one end links to each other with first layer board, and the other end sets up card transition and pushes away the device, card transition pushes away the device and sets up in image acquisition device below, card transition pushes away the device and includes second layer board and card actuating mechanism.

The card box below sets up to push away material window and ejection of compact window correspondingly, the push rod sets up with pushing away the material window correspondingly.

The L-shaped chassis is provided with a first guide rail and a first sliding block, the push rod driving mechanism comprises a first driving motor and a first synchronous belt, and the push rod is fixed on the first sliding block.

The both ends of incubation board all set up detection sensor, the below of incubation board sets up the hot plate.

The card driving mechanism comprises an L-shaped push block, a second guide rail, a second driving motor and a second synchronous belt, wherein a second sliding block is arranged on the second guide rail, one side of the L-shaped sliding block is connected with the second sliding block, and the other side of the L-shaped sliding block is fixed on the second synchronous belt.

The L-shaped push block is arranged on one side of the second supporting plate.

The image acquisition device comprises an upper supporting plate, a lower supporting plate, a camera and a light supplementing lamp, wherein one end of the camera is fixed on the upper supporting plate, the other end of the camera penetrates through the lower supporting plate, and the light supplementing lamp is fixed on the lower supporting plate.

And light supplementing lamps are arranged on two sides of the camera.

A plurality of adjusting bolts are uniformly arranged between the upper supporting plate and the lower supporting plate, and the adjusting bolts are all provided with buffer springs.

The utility model has the advantages that:

1. the utility model relates to an automatic change chemistry check out test set futilely, including incubation device and image acquisition device, the incubation device includes L type chassis, set up the push rod on the L type chassis, first layer board and incubation board, set up the card box on the first layer board, during the use, place the detection card in the card box, push away the card to incubation board department from first layer board by the push rod, when just going into the incubation board, will wait to detect blood or secretion and drip to the card, then push away the card and heat to incubation board on, the card colour development after the heating, then push away device by the card transition and push away to image acquisition device department, shoot, so far realize supplying the card with automaticly, incubation and acquire the image of colour development, the efficiency of detection has been improved greatly.

2. The utility model relates to an automatic change chemical check out test set futilely all sets up the detection sensor at the both ends of incubation board, can monitor whether having of card, guarantees the supply that detects the card, and simultaneously, card transition pushes away the device and is set up in one side of L type chassis, and is rational in infrastructure, can push away the card of incubation to image acquisition device fast.

3. The utility model relates to an automatic change dry chemistry check out test set evenly sets up a plurality of adjusting bolt between image acquisition device's the lower plate, can guarantee the level of upper plate and lower plate through the regulation to adjusting bolt, further adjusts the levelness of camera, improves the precision that the image acquireed.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the incubation device of the present invention;

FIG. 3 is an enlarged schematic view of A in FIG. 2;

fig. 4 is a schematic view of the image capturing apparatus.

In the figure:

100-incubation device, 1-L-shaped bottom frame, 101-push rod, 102-first supporting plate, 103-incubation plate, 104-push rod groove, 105-first guide rail, 106-first slide block, 2-push rod driving mechanism, 3-card box, 301-material pushing window, 302-material discharging window, 4-card transition pushing device, 401-second supporting plate, 402-card driving mechanism, 421-L-shaped push block, 422-second guide rail, 423-second driving motor, 424-second synchronous belt, 425-second slide block, 5-first detection sensor, 501-second detection sensor, 200-image acquisition device, 6-upper supporting plate, 7-lower supporting plate, 8-camera, 9-light supplement lamp, 10-adjusting bolt, 11-buffer spring.

Detailed Description

In order to clearly illustrate the technical features of the present solution, the following explains the present solution by way of specific embodiments and with reference to the accompanying drawings.

As shown in fig. 1 to 4, an automatic dry chemistry detection device includes an incubation device 100 and an image acquisition device 200, the incubation device includes an L-shaped chassis 1, a push rod 101 and a push rod driving mechanism 2 are disposed on the L-shaped chassis 1, the L-shaped chassis 1 includes a first support plate 102 and an incubation plate 103, push rod grooves 104 for the push rod 101 to move back and forth are disposed in parallel on two sides of the first support plate 102 and the incubation plate 103, a card cartridge 3 is disposed on the first support plate 102, one end of the incubation plate 103 is connected to the first support plate 102, the other end is disposed with a card transition pushing device 4, the card transition pushing device 4 is disposed below the image acquisition device 200, and the card transition pushing device 4 includes a second support plate 401 and a card driving mechanism 402.

A material pushing window 301 and a material discharging window 302 are correspondingly arranged below the card box 3, and the push rod 101 is correspondingly arranged with the material pushing window 301.

Specifically, the push rod driving mechanism 2 pushes the push rod 101 to move back and forth along the push rod groove 104, further, the push rod 101 pushes out the detection card from the material pushing window 301 and the material discharging window 302 of the card box 3, secretion or blood to be detected is dripped at the joint of the incubation plate 103 and the first supporting plate 102, then the card is continuously pushed to the incubation plate 103 for heating, and further pushed to the lower side of the image acquisition device 200 by the card transition pushing device 4 for photographing to acquire an image.

The L-shaped chassis 1 is provided with a first guide rail 105 and a first sliding block 106, the push rod driving mechanism 2 comprises a first driving motor and a first synchronous belt, and the push rod 101 is fixed on the first sliding block 106.

The first detection sensor 5 and the second detection sensor 501 are arranged at both ends of the incubation plate 103, the heating plate is arranged below the incubation plate 103, and the heating mode of the incubation plate 103 is conventional heating, which is not described herein again.

Specifically, the first detecting sensor 5 and the second detecting sensor 501 are both used for sensing the card, so as to ensure the continuous supply of the card.

The card driving mechanism 402 comprises an L-shaped push block 421, a second guide rail 422, a second driving motor 423 and a second synchronous belt 424, wherein the second guide rail 422 is provided with a second sliding block 425, one side of the L-shaped push block 421 is connected with the second sliding block 425, the other side of the L-shaped push block is fixed on the second synchronous belt 424, and the L-shaped push block 421 is arranged on one side of the second supporting plate 401.

Specifically, second driving motor 423 drives second hold-in range 424 motion, further drives L type ejector pad 421 and moves on second guide rail 422, and L type ejector pad 421 sets up and sets up in one side of second layer board 401 when playing to push away the card to image acquisition device department, occupation space not again, rational in infrastructure.

The image acquisition device 200 comprises an upper supporting plate 6, a lower supporting plate 7 and a camera 8, light supplementing lamps 9 are arranged on two sides of the camera 8, one end of the camera 8 is fixed on the upper supporting plate 6, the other end of the camera passes through the lower supporting plate 7, and the light supplementing lamps 9 are fixed on the lower supporting plate 7.

A plurality of adjusting bolts 10 are uniformly arranged between the upper supporting plate 6 and the lower supporting plate 7, and buffer springs 11 are arranged on the adjusting bolts 10. The buffer spring 11 is arranged to play a role in buffering during the adjustment process.

Specifically, the level of the upper supporting plate 6 and the level of the lower supporting plate 7 can be guaranteed through adjustment of the adjusting bolts 10, the levelness of the camera is further adjusted, and the accuracy of image acquisition is improved.

Specifically, the push rod 101 pushes the card in the card cartridge 3 along the push rod groove 104 from the first supporting plate 102 to the first detection sensor 5 of the incubation plate 103, where the blood or secretion to be detected is dropped into the card, and continuously, the incubation plate 103 is heated and developed, and further, the push rod 101 continues to push the card to the second detection sensor 6, and at this time, the developed card is pushed to the image capturing device 200 by the L-shaped push block 421 to capture an image.

The above description is only a preferred embodiment of the present invention, and it will be apparent to those skilled in the art that a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations are also considered as the protection scope of the present invention.

Claims (9)

1. The utility model provides an automatic change chemical detection equipment futilely, its characterized in that, includes incubation device and image acquisition device, incubation device includes L type chassis, set up push rod and push rod actuating mechanism on the L type chassis, L type chassis sets up first layer board and incubation board, the both sides parallel arrangement of first layer board and incubation board supplies the push rod reciprocating motion's push rod groove, set up the card box on the first layer board, incubation board one end links to each other with first layer board, and the other end sets up the card transition and pushes away the device, the card transition pushes away the device and sets up in image acquisition device below, the card transition pushes away the device and includes second layer board and card actuating mechanism.

2. The automated dry chemistry detection device of claim 1, wherein a material pushing window and a material discharging window are correspondingly disposed below the card cartridge, and the push rod is disposed corresponding to the material pushing window.

3. The automated dry chemistry detection device of claim 1, wherein a first guide rail and a first slider are disposed on the L-shaped chassis, the push rod driving mechanism comprises a first driving motor and a first synchronous belt, and the push rod is fixed on the first slider.

4. An automated dry chemistry test device as claimed in claim 1 wherein said incubation plate is provided with test sensors at both ends and a heating plate below said incubation plate.

5. The automated dry chemistry detection device of claim 1, wherein the card drive mechanism comprises an L-shaped pusher, a second guide rail, a second drive motor, and a second synchronous belt, wherein the second guide rail is provided with a second slide block, one side of the L-shaped pusher is connected with the second slide block, and the other side of the L-shaped pusher is fixed on the second synchronous belt.

6. The automated dry chemistry detection apparatus of claim 5, wherein said L-shaped pusher is disposed on a side of said second pallet.

7. The automated dry chemistry detection device of claim 1, wherein the image capture device comprises an upper plate, a lower plate, a camera and a fill-in light, wherein the camera is fixed to the upper plate at one end and passes through the lower plate at the other end, and the fill-in light is fixed to the lower plate.

8. An automated dry chemistry detection device as claimed in claim 7 wherein light supplementary lights are provided on both sides of said camera.

9. The automated dry chemistry detection device of claim 8, wherein a plurality of adjustment bolts are evenly disposed between said upper support plate and said lower support plate, and said adjustment bolts are all provided with a buffer spring.

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