CN108519490A - Pattern detection equipment - Google Patents

Abstract

The present invention provides a kind of pattern detection equipment, including device for analyzing samples, further includes：Turntable, periphery are equipped with several card slots for placing colloidal gold card, and about the center of turntable, circumferentially array arrangement, device for analyzing samples are set to the top of turntable, are used to acquire and analyze the sample data in colloidal gold card several card slots；Multiple colloidal gold card boxes, multiple colloidal gold card boxes are arranged in the periphery of turntable using the center of turntable as center of circle circumference array, and the deflection angle between two neighboring colloidal gold card box is consistent with the deflection angle of two neighboring card slot；A push-in mechanism is arranged in the bottom of multiple push-in mechanisms, each colloidal gold card box, and the colloidal gold card in colloidal gold card box is pushed by corresponding push-in mechanism in the card slot；And drop model machine structure, it is set to the top of turntable, is used to instill sample to be tested in the colloidal gold card into card slot.Pattern detection equipment in the present invention realizes multisample synchronous operation detection, substantially reduces and detects waiting for a long time, raising working efficiency.

Description

Pattern detection equipment

Technical field

The present invention relates to excrement detection technique field, more particularly to a kind of pattern detection equipment.

Background technology

Excrement is detected as one of routine clinical laboratory examination project, and gastrointestinal tract one can be relatively visually known by this inspection A little pathological phenomenons judge the function status of alimentary canal, pancreas, liver and gall indirectly.

Current stool for routine inspection is largely microscopy completion, but due to cumbersome, seriously polluted, by medical care people Member contradicts, and stool for routine inspection is caused to fail normally to carry out in many medical institutions.In order to lower pollution, improve working efficiency, Major Medical Devices quotient develops a kind of copra analysis instrument that can voluntarily detect.

In the prior art, copra analysis instrument used at present is relatively restored by hand mostly based on colloidal gold method come what is realized Method waits for the reaction time long, and copra analysis instrument used at present can only realize sample operation detection one by one, lead to the stand-by period It is long, influence working efficiency.

Invention content

Based on this, it can realize that the pattern detection of multisample synchronous operation detection is set the object of the present invention is to provide a kind of It is standby.

A kind of pattern detection equipment, including device for analyzing samples further include：

Turntable, the top peripheral of the turntable are equipped with several card slots for placing colloidal gold card, several card slots about Circumferentially array arrangement, the device for analyzing samples are set to the top of the turntable at the center of the turntable, are used to acquire simultaneously Analysis is by the sample data in the colloidal gold card in the card slot below；

Multiple colloidal gold card boxes, the multiple colloidal gold card box are arranged in described using the center of the turntable as center of circle circumference array The periphery of turntable, and the deflection angle one of the deflection angle and the two neighboring card slot between the two neighboring colloidal gold card box It causes, the colloidal gold card box is for holding colloidal gold card；

A push-in mechanism, the colloidal gold card box is arranged in the bottom of multiple push-in mechanisms, each colloidal gold card box Interior colloidal gold card is pushed by the corresponding push-in mechanism in the card slot；And

Model machine structure is dripped, the drop model machine structure is set to the top of the turntable, the colloidal gold card being used for into the card slot Instill sample to be tested.

Above-mentioned pattern detection equipment, by turntable array arrange several card slots, with ensure can be simultaneously on the turntable Multiple colloidal gold cards are accommodated, on this basis, by multiple colloidal gold card boxes according to same array way array to turntable periphery, and are given Each colloidal gold card box, which is arranged in pairs or groups one, is pushed into mechanism, it is ensured that all colloidal gold card boxes can be pushed into gold into respectively opposite card slot simultaneously Mark card, while in one drop model machine structure of the top of turntable arrangement, to instill sample in each colloidal gold card on turntable, so that Sample to be tested in each colloidal gold card is carried out at the same time reaction, realizes multisample synchronous operation detection, substantially reduces detection and wait for Time is long, improves working efficiency.

Further, the push-in mechanism includes that push-in plate and push-in drive component, the push-in plate penetrate with the gold It marks in cartridge, the push-in drive component is for driving the push-in plate to be moved towards the turntable, by the colloidal gold card box Interior colloidal gold card is pushed into the card slot.

Further, the drop model machine structure includes first support, suction needle and inhales sample drive component, and the first support is set In the top of the turntable, the suction sample drive component is loaded in the first support, and is connect with the suction needle, is used for The suction needle is driven to be moved along drop sample stroke.

Further, the suction sample drive component includes：

First sliding block is sliding mounted in the top of the first support in the horizontal direction；

Mounting plate is vertically arranged, and the trailing flank of the mounting plate is fixedly connected with first sliding block；

First motor is installed in the first support；

First conveyer belt is installed on by belt wheel in the first support in the horizontal direction, the first motor and institute The drive connection of the first conveyer belt is stated, first sliding block is fixed on first conveyer belt；

Second sliding block, vertically sliding on the mounting plate, the suction needle is fixedly arranged on second sliding block；

Second motor is installed on the mounting plate；And

Second conveyer belt, second conveyer belt are vertically installed on by belt wheel on the leading flank of the mounting plate, institute It states the second motor to be sequentially connected with second conveyer belt, second sliding block is fixedly arranged on second conveyer belt.

Further, the pattern detection equipment further includes an ejecting mechanism, and the turntable is around a static central shaft rotation Turn, the ejecting mechanism is set to the top of the central shaft；

The ejecting mechanism is electrically connected with the device for analyzing samples, when the device for analyzing samples has acquired sample every time When notebook data, the ejecting mechanism releases the colloidal gold card below the device for analyzing samples from the turntable.

Further, the ejecting mechanism includes third holder, third motor, third conveyer belt, third sliding block and release Plate, the third holder are fixedly arranged on the top of the central shaft, and the third conveyer belt is installed in the horizontal direction by belt wheel On the third holder, the third motor is loaded on the third holder, and is sequentially connected with the third conveyer belt, described Third sliding block is fixedly arranged on the third conveyer belt, and sliding loaded on the third holder in the horizontal direction, and the head board is solid On the third sliding block, the device for analyzing samples is set on the free terminal of the third holder.

Further, the push-in mechanism further includes a first sensor, and the first sensor is set to the gold and marks Side of the cartridge far from the turntable；

The first sensor is electrically connected with the push-in drive component, when the first sensor senses the gold It marks in cartridge there are when colloidal gold card, the push-in drive component drives the push-in plate to push away the colloidal gold card in the colloidal gold card box Enter in the card slot.

Further, the drop model machine structure further includes a service sink, and the service sink is set on a stall, the stall position In the side of the colloidal gold card box of the rotation direction sequence most end along the turntable.

Further, the drop model machine structure further includes a second sensor, and the second sensor is set to described first On holder, and positioned at the colloidal gold card box of the rotation direction sequence most end along the turntable close to the side of the turntable；

The second sensor is electrically connected with the suction sample drive component and the turntable respectively, every time when described second Sensor detects that by, there are when colloidal gold card, the turntable stops rotating in the card slot below, the suction sample drives Suction needle described in Component driver instills sample to be tested to the colloidal gold card below the second sensor.

Further, the colloidal gold card is equipped with multiple sample containers.

Description of the drawings

Fig. 1 is the stereogram of the pattern detection equipment in first embodiment of the invention；

Fig. 2 is the enlarged drawing at I in Fig. 1；

Fig. 3 is the stereogram in another orientation of pattern detection equipment in first embodiment of the invention；

Fig. 4 is the stereogram of the drop model machine structure in first embodiment of the invention；

Fig. 5 is the stereogram of the push-in mechanism in first embodiment of the invention；

Fig. 6 is the stereogram of the ejecting mechanism in first embodiment of the invention；

Fig. 7 is stereogram of the pattern detection equipment after being pushed into colloidal gold card on turntable in Fig. 1；

Fig. 8 is the enlarged drawing at II in Fig. 7；

Fig. 9 is the stereogram in another orientation of the pattern detection equipment after being pushed into colloidal gold card on turntable in Fig. 1；

Figure 10 is the enlarged drawing at III in Fig. 9；

Figure 11 is that the pattern detection equipment in Fig. 1 is in the stereogram under sample data acquisition state.

Main element symbol description：

Turntable	10	Drip model machine structure	20
				Colloidal gold card box	30、30a	It is pushed into mechanism	40
Device for analyzing samples	50	Ejecting mechanism	60
				Central shaft	11	Card slot	12
First support	21	Suction needle	22
				Inhale sample drive component	23	First sliding block	231
Mounting plate	232	First motor	233
				First conveyer belt	234	Second sliding block	235
Second motor	236	Second conveyer belt	237
				Second sensor	25	Service sink	24
It is pushed into plate	41	It is pushed into drive component	42
				Second support	421	Driving motor	422
Transmission belt	423	Connection sliding block	424
				Third holder	61	Third motor	62
Third conveyer belt	63	Third sliding block	64
				Head board	65	First sensor	43

Following specific implementation mode will be further illustrated the present invention in conjunction with above-mentioned attached drawing.

Specific implementation mode

To facilitate the understanding of the present invention, below with reference to relevant drawings to invention is more fully described.In attached drawing Give several embodiments of the present invention.But the present invention can realize in many different forms, however it is not limited to this paper institutes The embodiment of description.On the contrary, purpose of providing these embodiments is make it is more thorough and comprehensive to the disclosure.

It should be noted that when element is referred to as " being fixedly arranged on " another element, it can be directly on another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or it may be simultaneously present centering elements.Term as used herein " vertical ", " horizontal ", " left side ", " right side " and similar statement are for illustrative purposes only.

Unless otherwise defined, all of technologies and scientific terms used here by the article and belong to the technical field of the present invention The normally understood meaning of technical staff is identical.Used term is intended merely to description tool in the description of the invention herein The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term " and or " used herein includes one or more phases Any and all combinations of the Listed Items of pass.

It please refers to Fig.1 to Fig. 6, the pattern detection equipment showing in first embodiment of the invention, including a turntable 10, one Drip model machine 30, three, the colloidal gold card box of structure 20, three push-in mechanism 40, a device for analyzing samples 50 and an ejecting mechanism 60.

The turntable 10 rotates under the driving of itself driving mechanism around a static central shaft 11, the top of the turntable 10 Portion periphery is equipped with several card slots 12 for placing colloidal gold card A, and several card slots 12 are in circle about the center of the turntable 10 All array arrangements.

Wherein, it is set on the colloidal gold card A there are two sample container B, so that each colloidal gold card A can be carried out The detection of two samples.It should be understood that in order to realize that multisample, entry synchronous operation monitoring, the sample on colloidal gold card A are received The quantity of tank B is not limited to two, and in other embodiments, the quantity of the sample container B on colloidal gold card A can also be more It is multiple.

The drop model machine structure 20 is set to the top of the turntable 10, is dripped on the colloidal gold card A being used for into the card slot 12 Enter sample to be tested.The drop model machine structure 20 includes first support 21, suction needle 22 and suction sample drive component 23, the first support 21 be set to the turntable 10 top, the suctions sample drive component 23 be loaded on the first support 21 on, and with the suction needle 22 connections, are used to drive the suction needle 22 to instill sample to be tested on the colloidal gold card A into the card slot 12.

Specifically, the suction sample drive component 23 includes the first sliding block 231, mounting plate 232, the biography of first motor 233, first Send band 234, the second sliding block 235, the second motor 236 and the second conveyer belt 237.First sliding block 231 is sliding in the horizontal direction to be filled At the top of the first support 21.The mounting plate 232 is vertically arranged, the trailing flank of the mounting plate 232 and described first Sliding block 231 is fixedly connected, to form one with first sliding block 231.The first motor 233 is installed on the first support On 21, first conveyer belt 234 is installed on by belt wheel in the first support 21 in the horizontal direction, the first motor 233 pass 234 dynamic connections with first conveyer belt, and first sliding block 231 is fixed on first conveyer belt 234.It is described Second sliding block 235 is vertically sliding on the mounting plate 232, and the suction needle 22 is fixedly arranged on second sliding block 235.Institute The second motor 236 is stated to be installed on the mounting plate 232.Second conveyer belt 237 is vertically installed on described by belt wheel On the leading flank of mounting plate 232, second motor 236 is sequentially connected with second conveyer belt 237, second sliding block 235 are fixedly arranged on second conveyer belt 237.

It should be understood that when the first motor 233 is run, described will be driven by first conveyer belt 234 The entirety of one sliding block 231 and the mounting plate 232 is moved to the left or right, due to second sliding block 235, second motor 236, second conveyer belt 237 and the suction needle 22 are integral with the mounting plate 232, these parts will follow together It is moved to the left or right, realizes moving left and right for the suction needle 22；When second motor 236 is run, pass through described Two conveyer belts 237 will drive the entirety of the suction needle 22 and second sliding block 235 to move downward or upward, realize the suction The downlink and uplink of sample needle 22.

Three colloidal gold card boxes 30 are arranged in the turntable 10 by center of circle circumference array of the center of the turntable 10 Periphery, and the deflection angle one of the deflection angle and the two neighboring card slot 11 between the two neighboring colloidal gold card box 30 It causes, to ensure that three colloidal gold card boxes 30 can be opposite with three card slots 11 respectively in the same time.The colloidal gold card box 30 for holding colloidal gold card A, for a kind of frame structure gone out according to the configuration design of colloidal gold card A.In order to preferably be retouched It states, will be defined as colloidal gold card box 30a along the colloidal gold card box of the rotation direction of turntable 10 sequence most end herein.

Further, the drop model machine structure 20 further includes a service sink 24, and the service sink 24 is set on a stall C, institute State the side that stall C is located at colloidal gold card box 30a.The service sink 24 is used to go deep into for the suction needle 22, with to the suction sample Needle 22 is cleaned.

Wherein, the stall C is equipped with a deep gouge, and osculum D is equipped in the deep gouge, and the deep gouge is described for accommodating The flow that service sink 24 overflows, and be discharged by the osculum D.

A push-in mechanism 40 is arranged in the bottom of each colloidal gold card box 30, the gold mark in the colloidal gold card box 30 Card A is pushed by the corresponding push-in mechanism 40 in the card slot 11.The push-in mechanism 40 includes push-in plate 41 and push-in Drive component 42, the push-in plate 41 penetrate in the colloidal gold card box 30, and the push-in drive component 42 is described for driving It is pushed into plate 41 to move towards the turntable 10, the colloidal gold card A in the colloidal gold card box 30 is pushed into the card slot 11.

Specifically, the push-in drive component 42 includes second support 421, driving motor 422, transmission belt 423 and connection Sliding block 424, the second support 421 are set to the bottom of the colloidal gold card box 30, and the transmission belt 423 is by belt wheel along level side To being installed on the second support 421, the driving motor 422 loaded in the second support 421, and with the transmission belt 423 are sequentially connected, and the connection sliding block 424 is fixedly arranged on the transmission belt 423, and sliding mounted in described second in the horizontal direction On frame 421, the push-in plate 41 is fixedly arranged on the connection sliding block 424, and tip is run through from the bottom of the colloidal gold card box 30 Go deep into box.

It should be understood that when the third motor 422 is run, described will be driven by the third conveyer belt 423 Three sliding blocks 424 and the whole of push-in plate 41 are moved towards the turntable 10, push colloidal gold card A in card slot 12 (such as Fig. 5 It is shown).

The device for analyzing samples 50 is set to the top of the turntable 10, and the device for analyzing samples 50 and the gold mark Cartridge 30 is set to the opposite sides of the turntable 10, and the device for analyzing samples 50 is for acquiring and analyzing by institute below State the sample data on the colloidal gold card A in card slot 12.The device for analyzing samples 50 is USB camera modules, by sample Taken pictures and come in conjunction with image processing techniques the data collection and analysis of paired samples.

The ejecting mechanism 60 is set to the top of the central shaft 11, is remained static with the turntable 10 relatively.Institute It states ejecting mechanism 60 to be electrically connected with the device for analyzing samples 50, when the device for analyzing samples 50 has acquired sample number every time According to when, the ejecting mechanism 60 releases the colloidal gold card A of the lower section of the device for analyzing samples 50 from the turntable 10.

Specifically, the ejecting mechanism 60 includes third holder 61, third motor 62, third conveyer belt 63, third sliding block 64 and head board 65, the third holder 61 be fixedly arranged on the top of the central shaft 11, the third conveyer belt 63 passes through belt wheel Be installed in the horizontal direction on the third holder 61, the third motor 62 loaded on the third holder 61, and with it is described Third conveyer belt 63 is sequentially connected, and the third sliding block 64 is fixedly arranged on the third conveyer belt 63, and sliding dress in the horizontal direction In on the third holder 61, the head board 65 is fixedly arranged on the third sliding block 64, and the head board 65 is L-shaped.Institute Device for analyzing samples 50 is stated on the free terminal of the third holder 61.

It should be understood that when the device for analyzing samples 50 has acquired sample data, the third motor 62 starts, and leads to Crossing the third conveyer belt 63 will drive the third sliding block 64 and the whole of the head board 65 to move forward, and the release Plate 65 is in the lower section of the device for analyzing samples 50, and the head board 65 just will be under the device for analyzing samples 50 at this time The colloidal gold card A of side is released.

Further, the push-in mechanism 40 further includes a first sensor 43, and the first sensor 43 is set to institute Side of the colloidal gold card box 30 far from the turntable 10 is stated, and towards the colloidal gold card box 30.The first sensor 43 with it is described Driving motor 422 is electrically connected, when the first sensor 43 senses in the colloidal gold card box 30 there are when colloidal gold card A, institute The startup of driving motor 422 is stated, so that the push-in drive component 42 drives the push-in plate 41 will be in the colloidal gold card box 30 Colloidal gold card A is pushed into the card slot 12.

Further, the drop model machine structure 20 further includes a second sensor 25, and the second sensor 25 is set to institute It states in first support 21, and positioned at colloidal gold card box 30a close to the side of the turntable 10, so as to be pushed into from colloidal gold card box 30a Colloidal gold card A just fall in the lower section of the second sensor 25.The second sensor 25 respectively with the first motor 233, second motor 234 and the turntable 10 are electrically connected, every time when the second sensor 25 is detected by under it There are when colloidal gold card A in the card slot 12 of side, the turntable 10 stops rotating, and the suction sample drive component 23 drives the suction Sample needle 22 instills sample to be tested to the colloidal gold card A in 25 lower section of the second sensor.Therefore, colloidal gold card box 30a is close to institute The side for stating turntable 10 is the drop sample position of the suction needle 22, and each colloidal gold card A just receives the suction sample at the drop sample position The drop sample of needle 22.

Fig. 7 to Figure 11 is please referred to, this equipment is described in detail below in conjunction with specific operation process：

When needing to carry out pattern detection, the sample to be tested made can be previously charged into specimen bottle, and by sample This bottle is put into equipment (specific placement location can be service sink 24 near), then to being put into each colloidal gold card box 30 One colloidal gold card A (this is put into mode for the first), three first sensors 43 sense respective colloidal gold card box 30 at this time Inside there is colloidal gold card A, three sets of push-in mechanisms 40 will start simultaneously, with respectively by the colloidal gold card A push-in in respective colloidal gold card box 30 (as shown in Fig. 7 to Fig. 8, herein it should be noted that operation program can be set, it is ensured that equipment is being stopped every time in card slot 12 Before only running, turntable 10 all will rotate to initial, set position, so that three colloidal gold card boxes 30 are opposite with three card slots 11 respectively, When being run convenient for lower secondary device, colloidal gold card A can be normally pushed into card slot 11 by each mechanism 40 that is pushed into), at this point, since gold is marked Cartridge 30a has also been pushed into colloidal gold card A, and the colloidal gold card A of its push-in is just at lower section (such as Fig. 9 to figure of second sensor 25 Shown in 10), turntable 10 does not rotate at this time, inhales sample drive component 23 and moves driving suction needle 22, to be drawn in specimen bottle Sample is simultaneously added dropwise on current colloidal gold card A, and is often dripped off once, is inhaled sample drive component 23 and is all moved to driving suction needle 22 clearly It is cleaned in wash pool 24, when completing a drop sample period, (current colloidal gold card A completes drop sample and suction needle 22 restores just Beginning position), turntable 10 rotate, when next colloidal gold card A pass through 25 lower section of second sensor when, turntable 10 stops rotating, inhale sample Drive component 23 drives suction needle 22 to execute next drop sample period, and three drop sample periods are completed until inhaling sample drive component 23 (representing three colloidal gold card A on current dial, all drop sample is completed), turntable 10 stops rotating 3-5 minutes, to allow each gold to mark Sample on card A reaches the reaction time of needs, and when reaching reflecting time, completely reacted colloidal gold card A is gone to institute by turntable 10 The lower section (as shown in figure 11) for stating device for analyzing samples 50 has been acquired with allowing 50 collecting sample data of the device for analyzing samples Cheng Hou, ejecting mechanism 60 immediately starts, and current colloidal gold card A is discharged from equipment side；

It should be pointed out that except it is above-mentioned the first be put into mode in addition to, colloidal gold card A's is put into that there are still the following situations：Only It is put into colloidal gold card A into the most preceding colloidal gold card box 30 that sorts along the rotation direction of turntable 10；Only in intermediate colloidal gold card box Colloidal gold card A is put into 30；Or it only is not put into colloidal gold card A into colloidal gold card box 30a, in these three cases, when on turntable 10 When being pushed into colloidal gold card A, originally there is no colloidal gold card A in 25 lower section of second sensor, once initial position restores in three push-in mechanisms, Turntable 10 will rotate, and colloidal gold card A is turned to drop sample position；

In addition it is also necessary to which, it is noted that the operation program for inhaling sample drive component 23 can be set, to meet on colloidal gold card A Each sample container B drop sample.

To sum up, the pattern detection equipment in the above embodiment of the present invention passes through several cards of array arrangement on turntable 10 Slot 12, to ensure that multiple colloidal gold card A can be accommodated on the turntable 10 simultaneously, on this basis, by multiple colloidal gold card boxes 30 according to Same array way array arranges in pairs or groups one to each colloidal gold card box 30 to 10 periphery of turntable and is pushed into mechanism 40, it is ensured that all Colloidal gold card box 30 can be pushed into colloidal gold card A into respectively opposite card slot 12 simultaneously, while in one drop of the top of turntable 10 arrangement Model machine structure 20, to instill sample on each colloidal gold card A on turntable 10, so that the sample to be tested in each colloidal gold card is same Shi Jinhang reacts, and realizes multisample, entry (sample can be a detection project) synchronous operation detection, substantially reduces Detect waiting for a long time, raising working efficiency.

It should be understood that mentality of designing according to the present invention, in order to reach the mesh of multisample, entry synchronous operation detection , in other embodiments, the quantity of the colloidal gold card box 30 can also be two or more.

Only several embodiments of the present invention are expressed for above-described embodiment, the description thereof is more specific and detailed, but can not Therefore it is interpreted as the limitation to the scope of the claims of the present invention.It should be pointed out that for those of ordinary skill in the art, Without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to the protection model of the present invention It encloses.Therefore, the protection domain of patent of the present invention should be determined by the appended claims.

Claims (10)

1. a kind of pattern detection equipment, including device for analyzing samples, which is characterized in that further include：

Turntable, the top peripheral of the turntable are equipped with several card slots for placing colloidal gold card, and several card slots are about described Circumferentially array arrangement, the device for analyzing samples are set to the top of the turntable, are used to acquire and analyze at the center of turntable By the sample data in the colloidal gold card in the card slot below；

Multiple colloidal gold card boxes, the multiple colloidal gold card box are arranged in the turntable by center of circle circumference array of the center of the turntable Periphery, and the deflection angle between the two neighboring colloidal gold card box is consistent with the two neighboring deflection angle of the card slot, The colloidal gold card box is for holding colloidal gold card；

Multiple push-in mechanisms, the bottom of each colloidal gold card box are arranged a push-in mechanism, in the colloidal gold card box Colloidal gold card is pushed by the corresponding push-in mechanism in the card slot；And

Model machine structure is dripped, the drop model machine structure is set to the top of the turntable, is instilled in the colloidal gold card being used for into the card slot Sample to be tested.

2. pattern detection equipment according to claim 1, which is characterized in that the push-in mechanism includes push-in plate and push-in Drive component, the push-in plate penetrate in the colloidal gold card box, and the push-in drive component is for driving the push-in plate court It is moved to the turntable, the colloidal gold card in the colloidal gold card box is pushed into the card slot.

3. pattern detection equipment according to claim 1, which is characterized in that the drop model machine structure includes first support, inhales Sample needle and sample drive component is inhaled, the first support is set to the top of the turntable, and the suctions sample drive component is loaded on described the It on one holder, and is connect with the suction needle, is used to drive the suction needle to be instilled in the colloidal gold card into the card slot and waits for Test sample sheet.

4. pattern detection equipment according to claim 3, which is characterized in that the suction sample drive component includes：

First sliding block is sliding mounted in the top of the first support in the horizontal direction；

Mounting plate is vertically arranged, and the trailing flank of the mounting plate is fixedly connected with first sliding block；

First motor is installed in the first support；

First conveyer belt is installed on by belt wheel in the first support in the horizontal direction, the first motor and described the One conveyer belt is sequentially connected, and first sliding block is fixed on first conveyer belt；

Second sliding block, vertically sliding on the mounting plate, the suction needle is fixedly arranged on second sliding block；

Second motor is installed on the mounting plate；And

Second conveyer belt, second conveyer belt are vertically installed on by belt wheel on the leading flank of the mounting plate, and described Two motors are sequentially connected with second conveyer belt, and second sliding block is fixedly arranged on second conveyer belt.

5. pattern detection equipment according to claim 1, which is characterized in that the pattern detection equipment further includes a release Mechanism, the turntable are set to the top of the central shaft around a static center axis rotation, the ejecting mechanism；

The ejecting mechanism is electrically connected with the device for analyzing samples, when the device for analyzing samples has acquired sample number every time According to when, the ejecting mechanism releases the colloidal gold card below the device for analyzing samples from the turntable.

6. pattern detection equipment according to claim 5, which is characterized in that the ejecting mechanism includes third holder, Three motors, third conveyer belt, third sliding block and head board, the third holder are fixedly arranged on the top of the central shaft, and described Three conveyer belts are installed on by belt wheel in the horizontal direction on the third holder, and the third motor is loaded on the third holder On, and be sequentially connected with the third conveyer belt, the third sliding block is fixedly arranged on the third conveyer belt, and in the horizontal direction Sliding loaded on the third holder, the head board is fixedly arranged on the third sliding block, and the device for analyzing samples is set to described On the free terminal of third holder.

7. pattern detection equipment according to claim 2, which is characterized in that the push-in mechanism further includes one first biography Sensor, the first sensor are set to the side of the colloidal gold card box far from the turntable；

The first sensor is electrically connected with the push-in drive component, when the first sensor senses the colloidal gold card There are when colloidal gold card in box, the push-in drive component drives the push-in plate that the colloidal gold card in the colloidal gold card box is pushed into institute It states in card slot.

8. pattern detection equipment according to claim 3, which is characterized in that the drop model machine structure further includes a service sink, The service sink is set on a stall, and the stall is located at the colloidal gold card of the rotation direction sequence most end along the turntable The side of box.

9. pattern detection equipment according to claim 3, which is characterized in that the drop model machine structure further includes one second biography Sensor, the second sensor are set in the first support, and positioned at the rotation direction sequence most end along the turntable The colloidal gold card box is close to the side of the turntable；

The second sensor is electrically connected with the suction sample drive component and the turntable respectively, every time when second sensing Device detects by, there are when colloidal gold card, the turntable stops rotating in the card slot below, the suction sample drive component The suction needle is driven to instill sample to be tested to the colloidal gold card below the second sensor.

10. pattern detection equipment according to claim 1, which is characterized in that the colloidal gold card is received equipped with multiple samples Tank.