CN204101459U

CN204101459U - A kind of rotating disc type entry dry type fluorescence detector

Info

Publication number: CN204101459U
Application number: CN201420640042.7U
Authority: CN
Inventors: 王治韬; 王治才
Original assignee: GUANGZHOU LABORTECH CO Ltd
Current assignee: GUANGZHOU LABORTECH CO Ltd; Guangzhou Labsim Biotech Co Ltd
Priority date: 2014-10-29
Filing date: 2014-10-29
Publication date: 2015-01-14
Anticipated expiration: 2024-10-29

Abstract

The utility model discloses a kind of rotating disc type entry dry type fluorescence detector, it comprises optical path device, bearing chassis, bracing frame, automatic card feed device, bar code and position identification device, automatic card access device and automatic rotating disk device, automatic rotating disk device comprises the rotating disk being provided with multiple card storage grooves, automatic card access device is placed under rotating disk, automatic card access device comprise be located in card storage groove swingable, in order to carrying or the card taking lever unloading fluorometric investigation card, bracing frame fixedly mounts card feed device and optical path device automatically, automatic card feed device is along rotating disk radial delivery fluorometric investigation card, the optical path box of optical path device detects fluorometric investigation card along rotating disk radial direction, bar code and position identification device are loaded on bar code and the position that automatic card feed device detects fluorometric investigation card.This rotating disc type entry dry type fluorescence detector can carry out batch detection to fluorometric investigation card or detect the fluorometric investigation card of disparity items, effectively improves the accuracy of detection efficiency and testing result.

Description

A kind of rotating disc type entry dry type fluorescence detector

Technical field

The utility model relates to medical detecting Instrument field, be specifically related to a kind of rotating disc type entry dry type fluorescence detector.

Background technology

Dry type detection technique of fluorescence is the quick medical detection technique of the one of rising in recent years, this technology is for carrier with dry type fluorometric investigation card, by optical path, combinationally using of screen bar code recognizer and test platform, carries out a kind of detection technique that medical treatment fast detects.This technology have high sensitivity, selectivity strong, need the advantages such as the few and method of sample size is simple, the application in medical treatment detects is more extensive.

Existing dry type fluorescence detector is all made up of these two large parts of test platform of optical path and placement dry type fluorometric investigation card, and be fixed on by optical path above test platform, test platform generally can hold the draw-in groove composition of a dry type fluorometric investigation card.Due to optical path be fixed on single-card slot test platform above, therefore existing dry type fluoroscopic examination structure can only detect a fluorometric investigation card at every turn, need constantly to insert fluorometric investigation card, extract out again after being completed, and then insert next, repetition like this, advantage is possessed for when short run or single detection sample, but when regarding to large batch of detection sample in medical institutions, efficiency is low, and speed is slow, and testing staff's labor capacity is large, testing staff is produced tired out, easily occur that work is neglected.Simultaneously, because the dry type fluorometric investigation card reaction time of different types is different, and existing dry type fluorescence detection equipment can only detect single dry type fluorometric investigation card, in the face of the test sample card that the reaction time is long, dry type fluorometric investigation card could be placed in dry type fluorescence detection equipment after needing wait dry type fluorometric investigation card to react completely and detect by testing staff, therefore in medical treatment detects, is required to be this at substantial stand-by period and human resources.And fluorescence intensity can only maintain a period of time after the reacting completely of dry type fluorometric investigation card, if testing staff works, carelessness is not timely detects test sample card, the accuracy of dry type fluorometric investigation card will reduce, testing result does not just possess representativeness, need resampling to detect, this patient for urgent need testing result is totally unfavorable.

Therefore a kind of can the dry type fluorescence detector of automatic batch detection being very important is developed.

Utility model content

Technical problem to be solved in the utility model is: provide a kind of entry dry type fluorescence detector, with solve can not batch detection, can not entry detects, efficiency is low, speed is slow, testing staff's labor capacity is large, testing result is inaccurate etc. problem.

For solving the problems of the technologies described above, the technical solution of the utility model is: a kind of rotating disc type entry dry type fluorescence detector, for detecting fluorometric investigation card, it comprises optical path device, bearing chassis, bracing frame, automatic card feed device, bar code and position identification device, automatic card access device and automatic rotating disk device, automatic rotating disk device is arranged at bearing chassis, automatic rotating disk device comprises the rotating disk that can horizontally rotate, rotating disk is disposed radially multiple card storage groove, automatic card access device is arranged at the below of rotating disk, automatic card access device comprises swingable card taking lever, card taking lever is arranged in card storage groove to carry fluorometric investigation card, card taking lever can drop out towards the downward-sloping swing in the neighboring of rotating disk with the fluorometric investigation card landing making it carry in card storage groove, bracing frame is set up in above automatic rotating disk device, it fixedly mounts card feed device and optical path device automatically, automatic card feed device is along the radial delivery fluorometric investigation card of rotating disk to card storage groove, optical path box on optical path device is along the fluorometric investigation card moving radially to detect in card storage groove of rotating disk, bar code and position identification device are installed on automatic card feed device to detect bar code and the position of the fluorometric investigation card of movement on automatic card feed device.

Wherein, each card storage groove is provided with the projection higher than himself near the inner side in axle center, automatic card feed device is provided with the card feed draw-in groove of below fluting, card feed draw-in groove along the moving radially of rotating disk, carry fluorometric investigation card, card storage groove fallen into by the fluorometric investigation card that the below fluting that the relative card feed draw-in groove of described projection slips into card feed draw-in groove promotes in card feed draw-in groove.Described projection is positioned at inside card storage groove, facilitates automatic card feed device card feed, and this rotating disk manufacture craft is simple, and novel in design.

Wherein, described automatic rotating disk device also comprises synchronous motor and belt, dial rotation described in synchronous machine drives belt drive.

Wherein, described card storage groove is circumferentially evenly distributed with 24.

Wherein, described automatic card feed device also comprises the threaded screw rod and rail brackets that be arranged in parallel, threaded screw rod and rail brackets are fixed on support frame as described above along the radial level of rotating disk, threaded screw rod one end is connected to synchronous motor, the other end is provided with outer side shield, threaded screw rod is set with screw mandrel slide block, screw mandrel slide block can move along rail brackets on threaded screw rod, and described card feed draw-in groove is fixed on screw mandrel slide block.Adopt threaded screw rod to drive screw mandrel slide block, make the movement of card feed draw-in groove fixed thereon quick, stable, while raising the efficiency, ensure that reliability.

Wherein, described bar code and position identification device comprise fixed dam, fixed dam is fixed on the upper edge of described rail brackets, the below of fixed dam is provided with recognizer draw-in groove, is provided with location indentifier and screen bar code recognizer, the position being respectively used to detection fluorometric investigation card and bar code in recognizer draw-in groove.Combined by two recognizers, recognition sample test card, saves time simultaneously.

Wherein, described optical path device comprises threaded screw rod parallel to each other and rail brackets, threaded screw rod and rail brackets are fixed on support frame as described above along the radial level along rotating disk, threaded screw rod one end is connected to synchronous motor, the other end is provided with outer side shield, described optical path box is set in threaded screw rod, and optical path box can along the fluorometric investigation card in rail brackets mobility detect card storage groove on threaded screw rod.Adopt threaded screw rod to drive optical path box, optical path box is moved fast, stablize, while raising the efficiency, ensure that reliability.

Wherein, described rail brackets and support frame as described above one-body molded.Omit parts, save cost.

Wherein, described optical path device is parallel is fixed on support frame as described above, and described automatic card feed is installed on and is vertically fixed on support frame as described above, and described optical path device and described automatic card feed device are vertical setting.Reasonable in design, is convenient to install, also effectively improves unit efficiency.

Wherein, described automatic card access device also comprises lever dolly, lever connector and liftable electromagnetic iron, liftable electromagnetic ferropexy is in lever dolly, described card taking lever swing is articulated with lever dolly, wherein one end is free end, wherein the other end is connected with liftable electromagnetic iron by lever connector, and the lifting connected by liftable electromagnetic iron pulls card taking lever swing.Utilize simple lever principle, taken out by the test sample card detected fast in the rotating disk of automatic rotating disk device, structure is very simple, and design is unique.

After have employed technique scheme, the beneficial effects of the utility model are: can detect test sample card or detect the test sample card of disparity items simultaneously by batch, solve existing detecting instrument and can only carry out single detection and manually operated problem, improve the accuracy of detection efficiency and testing result, alleviate the labour intensity of medical institutions testing staff simultaneously.

Accompanying drawing explanation

Fig. 1 is the utility model rotating disc type entry dry type fluorescence detector STRUCTURE DECOMPOSITION figure

Wherein, automatic card feed device 11, bar code and position identification device 12, optical path device 13, automatically card access device 14, automatic rotating disk device 15

Fig. 2 is the utility model automatic card feed apparatus structure schematic diagram

Wherein, card feed draw-in groove 21, screw mandrel slide block 22, outer side shield 23, threaded screw rod 24, rail brackets 25, synchronous motor 26

Fig. 3 is the utility model bar code and position identification device structure vertical view

Wherein, recognizer draw-in groove 31, location indentifier 32, screen bar code recognizer 33, fixed dam 34

Fig. 4 is the utility model bar code and position identification device structure cut-open view

Fig. 5 is the utility model optical path apparatus structure schematic diagram

Wherein, outer side shield 41, optical path box 42, threaded screw rod 43, synchronous motor 44, rail brackets 45

Fig. 6 is the utility model automatic card access device installation site schematic diagram structural representation

Wherein, automatic card access device 14, rotating disk 61, bearing chassis 64

Fig. 7 is the automatic card access device structural representation of the utility model

Wherein, card taking lever 51, lever dolly 52, lever connector 53, liftable electromagnetic iron 54

Fig. 8 is the utility model automatic rotating disk apparatus structure schematic diagram

Its turntable 61, card storage groove 62, projection 63, bearing chassis 64, synchronous motor 65, belt 66

Fig. 9 is the utility model automatic rotating disk apparatus structure cut-open view

Figure 10 is utility model works schematic diagram

Embodiment

By reference to the accompanying drawings, further the utility model is described in detail.

A kind of rotating disc type entry dry type fluorescence detector, comprises automatic card feed device 11, bar code and position identification device 12, optical path device 13, automatically card access device 14, automatic rotating disk device 15; Described automatic rotating disk device 15 between automatic card access device 14 and optical path device 15, and above automatic card access device 14, is provided with bearing chassis 64 and bracing frame, and support frame as described above is weldingly fixed on bearing chassis 64, vertical with bearing chassis 64; Described optical path device 13, automatic card feed device 11 and bar code and position identification device 12 are all fixed on the side at the two ends, left and right on bearing chassis 64; Described automatic card feed device 11 is provided with rail brackets 25, and described rail brackets 25 is fixedly connected on the side of one end, bearing chassis 64 by hexagon socket head cap screw, puts up vertical relation with support, with 64 one-tenth, bearing chassis parallel relation; Described bar code and position identification device 12 are fixedly connected on the upper edge of the rail brackets 25 of automatic card feed device 11 by hexagon socket head cap screw, be positioned at directly over automatic rotating disk device 15; Described optical path device 13 is provided with rail brackets 45, described rail brackets 45 is fixedly connected on the side of the other end of bracing frame by hexagon socket head cap screw, be positioned at directly over automatic rotating disk device 15, vertical with bar code and position identification device 12 with automatic card feed device 11; Described automatic card access device 14 is fixedly connected on bearing chassis 64 by hexagon socket head cap screw.

Further, test sample card inserts in the card feed draw-in groove 21 of automatic card feed device 11, automatic card feed device 11 along accompanying drawing 2 illustrated enter card direction be automatically moved to the below of bar code and position identification device 12, with bar code and position identification device 12 relative motion, bar code and position identification device 12 detect the position of test sample card in automatic card feed device 11 card feed draw-in groove 21, read the bar code information on test sample card simultaneously, and start to arrange the test duration, bar code reading after getting automatically card feed device 11 test sample card is positioned in the card storage groove 62 of automatic rotating disk device 15, instrument starts to carry out timing, after timing, test sample card is delivered to the below of optical path device 13 by automatic rotating disk device 15, the fluorescence intensity of the test sample card on optical path device 13 pairs of automatic rotating disk devices 15 detects, after detection, this test card of sample is delivered to the top of automatic card access device 14 by automatic rotating disk device 15, the test sample card examined takes out by automatic card access device 14, card storage groove 62 room on automatic rotating disk device 15 after taking-up test sample card, room card storage groove 62 is delivered to the below of automatic card feed device 11 by automatic rotating disk device 15, automatic card feed device 11 can continue plug-in card, so move in circles, can batch or the dissimilar fluorometric investigation card of single detection different time.

Further, described automatic card feed device 11 is made up of card feed draw-in groove 21, screw mandrel slide block 22, outer side shield 23, threaded screw rod 24, rail brackets 25 and synchronous motor 26; Screw mandrel slide block 22 and rail brackets 25 along automatic rotating disk device 15 radial parallel setting and level is fixed on support frame as described above, one end of threaded screw rod 24 is connected with synchronous motor 26, its other end is installed with outer side shield 23, screw mandrel slide block 22 is set with on threaded screw rod 24, and card feed draw-in groove 21 threadingly screw mandrel 24 is fixed on screw mandrel slide block 22.Test sample card is placed on card feed draw-in groove 21, synchronous motor 26 is by controlling the rotation of threaded screw rod 24, card feed draw-in groove 21 and screw mandrel slide block 22 are moved along accompanying drawing 2 direction as shown on the guide rail of rail brackets 25, when card feed draw-in groove 21 moves to the inner side vertex position of rotating disk card storage groove 62, screw mandrel slide block 22 can continue to move toward entering card direction, but test sample card is blocked by projection 63 cannot continue motion, both test sample card and card feed draw-in groove 21 produce relative motion, test sample card is released card feed draw-in groove 21 by projection 63 gradually, drop in the card storage groove 62 of rotating disk, card feed action is complete, after card feed, card feed draw-in groove 21 and screw mandrel slide block 22 return original position, continue the insertion accepting new test sample card, so move in circles.

Further, described bar code and position identification device 12 are made up of recognizer draw-in groove 31, location indentifier 32, screen bar code recognizer 33 and fixed dam 34; Described location indentifier 32 and screen bar code recognizer 33 are installed in parallel in recognizer draw-in groove 31, and be fixed on by fixed dam 34 on the rail brackets 25 of automatic card feed device 11, recognizer draw-in groove 31 is vertical with fixed dam 34.Time test sample card in the card feed draw-in groove 21 of automatic card feed device 11 moves to below location indentifier 32 and screen bar code recognizer 33, screen bar code recognizer 33 reads the bar code on test sample card, obtaining information also stores, whether location indentifier 32 recognition sample test card position is correct simultaneously, if correct card feed device 11 automatically can continue card feed action, if it is incorrect that position has deviation to place, location indentifier 32 can carry out alarm.

Further, described optical path device 13 is made up of outer side shield 41, optical path box 42, threaded screw rod 43, synchronous motor 44 and rail brackets 45; Threaded screw rod 43 and rail brackets 45 are fixed on support frame as described above along the radial level of automatic rotating disk device 15, one end of threaded screw rod 43 is connected to synchronous motor 44, the other end of threaded screw rod 43 is installed with outside stopper 41, optical path box 42 is sleeved on threaded screw rod 43, and can move back and forth along rail brackets 45 on threaded screw rod 43, the fluorometric investigation card in rotating disk card storage groove 62 is detected.When the test sample card in automatic rotating disk device 15 card storage groove 62 moves to the below of optical path device 13, synchronous motor 44 is by controlling the rotation of threaded screw rod 43, optical path box 42 is moved in the parallel direction of threaded screw rod 43 along rail brackets 45, read the fluorescence intensity on test sample card, thus obtain testing result.

Further, described automatic card access device 14 is made up of card taking lever 51, lever dolly 52, lever connector 53 and liftable electromagnetic iron 54; Described card taking lever 51 is arranged on lever dolly 52, is connected with liftable electromagnetic iron 54 by lever connector 53, and liftable electromagnetic iron 54 is fixed on lever dolly 52, parallel with lever dolly 52.Utilize simple lever principle, electromagnet and lever are combined, fast the test card detected in rotating disk is taken out.When card storage groove 62 having detected in automatic rotating disk device 15 top that complete test sample card rotates to card taking lever 51, the iron core of liftable electromagnetic iron 54 declines, pulled down by the side of lever connector 53 by card taking lever 51, due to leverage, the opposite side of card taking lever 51 moves upward, thus the test sample card in automatic rotating disk device 15, card storage groove 62 detected prizes and to slide out along inclined-plane outside card storage groove 62 afterwards, card taking action is complete, and room appears in the card storage groove 62 in automatic rotating disk device 15.

Further, described automatic rotating disk device 15 is made up of rotating disk 61, card storage groove 62, projection 63, bearing chassis 64, synchronous motor 65 and belt 66; Described card storage groove 62 and projection 63 are arranged in rotating disk 61, and rotating disk 61 is parallel with synchronous motor 65, and are all vertically mounted on bearing chassis 64, and rotating disk 61 is connected by belt 66 with synchronous motor 65, and synchronous motor 65 controls rotating disk 61 by belt 66 and rotates.Card storage groove 62 outer end tilts, and facilitates the card taking of automatic card access device 14, makes test sample card can gently from card storage groove 62 outer end landing.Test sample card is positioned in card storage groove 62 by automatic card feed device 11, test sample in card storage groove 62 is stuck on rotating disk 61, synchronous motor 65 controls the rotation of rotating disk 61 by belt 66, card storage groove 62 is driven by rotating disk 61, test sample card in card storage groove 62 is delivered to below optical path box 42 and detects, card taking above automatic card taking device is delivered to after detection, room in card storage groove 62 after card taking, to be delivered to the test sample card accepting automatic card feed device 11 below automatic card feed device 11 and veer away new by card storage groove 62 by rotating disk 61.

Above an embodiment of the present utility model has been described in detail, but described content being only the preferred embodiment that the utility model is created, the practical range created for limiting the utility model can not being considered to.All equalizations done according to the utility model creation application range change and improve, and all should still belong within patent covering scope of the present utility model.

Claims

1. a rotating disc type entry dry type fluorescence detector, it comprises optical path device, it is characterized in that: also comprise bearing chassis, bracing frame, automatic card feed device, bar code and position identification device, automatic card access device and automatic rotating disk device, automatic rotating disk device is arranged at bearing chassis, automatic rotating disk device comprises the rotating disk that can horizontally rotate, rotating disk is disposed radially multiple card storage groove, automatic card access device is arranged at the below of rotating disk, automatic card access device comprises swingable card taking lever, card taking lever is arranged in card storage groove to carry fluorometric investigation card, card taking lever can drop out towards the downward-sloping swing in the neighboring of rotating disk with the fluorometric investigation card landing making it carry in card storage groove, bracing frame is set up in above automatic rotating disk device, it fixedly mounts card feed device and optical path device automatically, automatic card feed device is along the radial delivery fluorometric investigation card of rotating disk to card storage groove, optical path box on optical path device is along the fluorometric investigation card moving radially to detect in card storage groove of rotating disk, bar code and position identification device are installed on automatic card feed device to detect bar code and the position of the fluorometric investigation card of movement on automatic card feed device.

2. a kind of rotating disc type entry dry type fluorescence detector according to claim 1, it is characterized in that: each card storage groove is provided with the projection higher than himself near the inner side in axle center, automatic card feed device is provided with the card feed draw-in groove of below fluting, card feed draw-in groove along the moving radially of rotating disk, carry fluorometric investigation card, card storage groove fallen into by the fluorometric investigation card that the below fluting that the relative card feed draw-in groove of described projection slips into card feed draw-in groove promotes in card feed draw-in groove.

3. a kind of rotating disc type entry dry type fluorescence detector according to claim 2, is characterized in that: described automatic rotating disk device also comprises synchronous motor and belt, dial rotation described in synchronous machine drives belt drive.

4. a kind of rotating disc type entry dry type fluorescence detector according to claim 1 and 2, is characterized in that: described card storage groove is circumferentially evenly distributed with 24.

5. a kind of rotating disc type entry dry type fluorescence detector according to claim 2, it is characterized in that: described automatic card feed device also comprises the threaded screw rod and rail brackets that be arranged in parallel, threaded screw rod and rail brackets are fixed on support frame as described above along the radial level of rotating disk, threaded screw rod one end is connected to synchronous motor, the other end is provided with outer side shield, threaded screw rod is set with screw mandrel slide block, screw mandrel slide block can move along rail brackets on threaded screw rod, and described card feed draw-in groove is fixed on screw mandrel slide block.

6. a kind of rotating disc type entry dry type fluorescence detector according to claim 5, it is characterized in that: described bar code and position identification device comprise fixed dam, fixed dam is fixed on the upper edge of described rail brackets, the below of fixed dam is provided with recognizer draw-in groove, is provided with location indentifier and screen bar code recognizer, the position being respectively used to detection fluorometric investigation card and bar code in recognizer draw-in groove.

7. a kind of rotating disc type entry dry type fluorescence detector according to any one of claim 1,2 and 5, it is characterized in that: described optical path device comprises threaded screw rod parallel to each other and rail brackets, threaded screw rod and rail brackets are fixed on support frame as described above along the radial level along rotating disk, threaded screw rod one end is connected to synchronous motor, the other end is provided with outer side shield, described optical path box is set in threaded screw rod, and optical path box can along the fluorometric investigation card in rail brackets mobility detect card storage groove on threaded screw rod.

8. a kind of rotating disc type entry dry type fluorescence detector according to claim 7, is characterized in that: described rail brackets and support frame as described above one-body molded.

9. a kind of rotating disc type entry dry type fluorescence detector according to claim 7, it is characterized in that: described optical path device is parallel is fixed on support frame as described above, described automatic card feed is installed on and is vertically fixed on support frame as described above, and described optical path device and described automatic card feed device are vertical setting.

10. a kind of rotating disc type entry dry type fluorescence detector according to claim 1, it is characterized in that: described automatic card access device also comprises lever dolly, lever connector and liftable electromagnetic iron, liftable electromagnetic ferropexy is in lever dolly, described card taking lever swing is articulated with lever dolly, wherein one end is free end, wherein the other end is connected with liftable electromagnetic iron by lever connector, and the lifting connected by liftable electromagnetic iron pulls card taking lever swing.