CN205809087U - Full-automatic detection apparatus and there is the genital discharge analyte detection equipment of this device - Google Patents

Abstract

This utility model belongs to medical detection apparatus field, a kind of full-automatic detection apparatus is provided and there is the genital discharge analyte detection equipment of this device, for the reagent detector bar of configuration is detected, including automatically identifying and determinand being transferred to the sampling assemble of described reagent detector bar and the automatic detection components identifying and detecting the determinand on described reagent detector bar, for holding the bearing part carrying multiple described reagent detector bars and the propelling movement assembly that described reagent detector bar is removed discontinuously described bearing part, and it is connected and is used for carrying the conveying assembly of described reagent detector bar with described propelling movement assembly；It is low that the device so designed can solve existing detection equipment Inspection efficiency, and device intelligenceization is low, and easily causes the problem that testing result is inaccurate.

Description

Full-automatic detection apparatus and there is the genital discharge analyte detection equipment of this device

Technical field

This utility model belongs to medical detection apparatus field, particularly relates to a kind of full-automatic detection apparatus and has this device Genital discharge analyte detection equipment.

Background technology

The initiation inducement of gynecological inflammation has a lot, many by specifically dividing the detection of genital secretion clinically Analysis, general hospital is manual operations, clinician samples, deliver to clinical laboratory, dilute in proportion with normal saline, then mixes Even, sample is uniformly applied on wave carrier piece, inspection doctor's microscopic (microscopy).Some project is special by sample drop On detectable bar, stand 10 minutes (requirement of time by specification), then visual observation；Whole process spends the time long, from And detection efficiency is reduced；And reagent detector bar is easily secondary polluted, and then have influence on the result of detection.

Utility model content

The purpose of this utility model is to provide a kind of full-automatic detection apparatus, it is intended to solve existing detection equipment Inspection Efficiency is low, and device intelligenceization is low, and easily causes the problem that testing result is inaccurate.

This utility model is so to solve: a kind of full-automatic detection apparatus, for carrying out the reagent detector bar of configuration Detection, including automatically identifying and determinand being transferred to the sampling assemble of described reagent detector bar and automatically identifies and to described examination Detection components that determinand on agent detector bar carries out detecting, for holding the bearing part carrying multiple described reagent detector bars and by institute State reagent detector bar and remove the propelling movement assembly of described bearing part discontinuously, and be connected with described propelling movement assembly and be used for carrying institute State the conveying assembly of reagent detector bar.

Further, described bearing part is detachably connected on described propelling movement assembly, and described propelling movement assembly is by described carrying Multiple described reagent detector bar in part pushes on described conveying assembly one by one.

Further, described sampling assemble includes sampling support, elasticity is connected to the sampling gun on described sampling support The conical straw that coordinates with described sampling hammerhead of head, and control the first control piece of the stroke of described sampling hammerhead, described in take Sample rifle head is provided with the tubular structure of cavity in including.

Further, described reagent detector bar is provided with the containing cavity being available for accommodating determinand, and described fully-automated synthesis fills Put pipette stand, the test tube rack holding thing to be checked also including being available for containing multiple described conical straw and be available for described sampling assemble The bracing frame of three-dimensional movement, described first control piece controls described sampling hammerhead and connects described taper suction on described pipette stand Pipe, and be transported in described containing cavity after drawing thing to be checked in the test tube of described test tube rack.

Further, described propelling movement assembly includes pushing the push rod of described reagent detector bar, being available for installing described carrying The mounting groove of part and the driving assembly of the described push rod of control.

Further, the moving direction of described push rod is parallel to the upper surface of described conveying assembly, and described bearing part is pacified Be additionally provided with in being contained in the top of described push rod, and described mounting groove be easy to described reagent detector bar release fluting, described in push away The front of bar is sent to rectify described fluting.

Further, described conveying assembly includes carrying the conveyer belt of described reagent detector bar, being connected to described conveyer belt Go up and to described reagent detector bar heating heating member and be positioned at described conveyer belt both sides the limit of spacing described reagent detector bar Position platform, and control the second control piece that described conveyer belt moves.

Further, described detection components is connected to the top of described conveying assembly, and described detection components includes along hanging down Directly detect block and support in what described conveyer belt moving direction moved and control the support seat of described detection block, at the bottom of described detection block The height of conveyer belt upper surface described in plan range is more than or equal to the thickness of described reagent detector bar.

Further, the opening of described bearing part connects dismountable lid that seals, and the described lid that seals is by multiple described Reagent detector bar is sealed in described bearing part, is additionally provided with dry component, multiple described reagent detector bar heaps in described bearing part Code is between described dry component and described sealing lid.

The technique effect that the full-automatic detection apparatus that this utility model provides has relative to existing technology is: by band Automatically the sampling assemble identified and the setting of the detection components automatically identified so that the sampling of determinand and the process of detection are complete Intellectuality, detection person only can directly need to be divided by detection components after sample to be detected is placed on the region that program setting is good Analysis obtains data and the result of detection, houses the bearing part of multiple reagent detector bar simultaneously and pushes the setting of assembly so that examination Agent detector bar is transferred on conveying assembly discontinuously according to certain program setting, and so design can avoid detection person and examination The directly contact of agent detector bar and have influence on the result of detection.

This utility model also provides for a kind of genital discharge analyte detection equipment, and it has aforesaid full-automatic detection apparatus, Described genital discharge analyte detection equipment also includes the first recovery assembly reclaiming described reagent detector bar, and takes described in recovery Second recovery assembly of the single use parts on sample assembly.

The technique effect that the genital discharge analyte detection equipment that this utility model provides has relative to existing technology is: Nonrecoverable appliance can also be automatically reclaimed, it is to avoid to inspection on the premise of the technique effect of full-automatic detection apparatus The workbench surveying room or detection device pollutes, and then is further ensured that the accuracy of detection.

Accompanying drawing explanation

Fig. 1 is the overall structure figure of the full-automatic detection apparatus that this utility model embodiment provides.

Fig. 2 is the overall structure figure one pushing assembly that this utility model embodiment provides.

Fig. 3 is the overall structure figure two pushing assembly that this utility model embodiment provides.

Fig. 4 is the structure chart that the propelling movement assembly that this utility model embodiment provides coordinates with bearing part.

Fig. 5 is the overall structure figure of the sampling assemble that this utility model embodiment provides.

Fig. 6 is the structure chart one sampling holder part in the sampling assemble that this utility model embodiment provides.

Fig. 7 is the structure chart one sampling holder part in the sampling assemble that this utility model embodiment provides.

Fig. 8 is propelling movement assembly, conveying assembly and the attachment structure figure of detection components that this utility model embodiment provides.

Fig. 9 is the partial enlarged drawing of part A in Fig. 8.

Figure 10 is the structure chart of the reagent detector bar that this utility model embodiment provides.

Figure 11 is the structure chart of the bearing part that this utility model embodiment provides.

Figure 12 is the structure chart after the bearing part that this utility model embodiment provides removes box-like object.

Figure 13 is the structure chart one of box-like housing in the bearing part that this utility model embodiment provides.

Figure 14 is the structure chart two of box-like housing in the bearing part that this utility model embodiment provides.

Figure 15 is the structure chart sealing lid in the bearing part that this utility model embodiment provides.

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing and enforcement Example, is further elaborated to this utility model.Should be appreciated that specific embodiment described herein is only in order to explain This utility model, is not used to limit this utility model.

It should be noted that when element is referred to as " being fixed on " or " being arranged at " another element, and it can be directly separately On one element or may be simultaneously present centering elements.When an element is known as " being connected to " another element, and it can To be directly to another element or to may be simultaneously present centering elements.

Also, it should be noted the orientation term such as left and right, upper and lower in this utility model embodiment, it is only the most relative Concept or with the normal operating condition of product as reference, and should not be regarded as restrictive.

Refer to shown in accompanying drawing 1, Fig. 2, Fig. 5, Fig. 8, Figure 10 and Figure 11, in this utility model embodiment, it is provided that a kind of Full-automatic detection apparatus, including reagent detector bar 10, sampling assemble 30, detection components 60, bearing part 40 and propelling movement assembly 20, its Middle sampling assemble 30 is provided with the device of identification automatically, and this sampling assemble 30 is for coordinating with reagent detector bar 10, herein It is preferably after thing to be checked is taken out by sampling assemble 30 and is placed on reagent detector bar 10, and then detect；This detection components 60 It is provided with the device of the composition automatically identifying thing to be checked, and for detecting the composition of the thing to be checked on this reagent detector bar 10； The multiple reagent detector bars 10 of load can be held in this bearing part 40 simultaneously, and this bearing part 40 is arranged on propelling movement assembly 20, should Push assembly 20 to be removed discontinuously from bearing part 40 by reagent detector bar 10, namely this propelling movement assembly 20 will hold every a period of time Reagent detector bar 10 in holder 40 is shifted out one, and this pushed assembly of reagent detector bar 10 20 being shifted out is pushed to On one conveying assembly 50, then reagent detector bar 10 is the most slowly carried by this conveying assembly 50, and then whole process is, first Bearing part 40 is arranged on propelling movement assembly 20, then pushes assembly 20 and the reagent detector bar 10 in bearing assembly is transferred one Out, being then placed on reagent detector bar 10 after sampling assemble 30 sampling, then conveying assembly 50 is by this reagent detector bar 10 It is transported at detection components 60 and then detection is analyzed, then push assembly 20 and push a reagent detector bar 10 more out, and then Carry out the circulation of next work.

The full-automatic detection apparatus more than designed, the sampling assemble 30 automatically identified by band and the detection group automatically identified The setting of part 60 so that the sampling of determinand and the process of detection are full intellectualized, sample to be detected only need to be put by detection person Put and directly can be analyzed data and the result obtaining detection behind the region that program setting is good by detection components 60, house simultaneously The bearing part 40 of multiple reagent detector bars 10 and the setting of propelling movement assembly 20 so that reagent detector bar 10 sets according to certain program Fixed be transferred to discontinuously on conveying assembly 50, so design can avoid detection person and reagent detector bar 10 direct contact and Have influence on the result of detection.

Specifically, as it can be seen, in this utility model embodiment, this bearing part 40 is detachably connected on propelling movement assembly 20 On, the multiple reagent detector bars 10 in bearing part 40 are pushed on conveying assembly 50 by this propelling movement assembly 20 one by one, and this reagent is examined Survey and on bar 10, be additionally provided with the containing cavity 101 being available for accommodating determinand, and this containing cavity 101 is positioned at the upper surface of reagent detector bar 10 On.

In the present embodiment, as shown in Figure 11 to Figure 15, this bearing part 40 can be produced in batches, namely when being connected to push away Reagent detector bar 10 accommodating in bearing part 40 on sending component 20 is the most pushed go out after, only need to change one new fully loaded Bearing part 40 can work on, so design can save the detection time, improves detection efficiency and also avoids reagent to examine simultaneously Surveying after bar 10 is secondary polluted causes the result of detection inaccurate；It addition, in the present embodiment, the shape of this reagent detector bar 10 is excellent Elect containing cavity on rectangular strip, and this reagent detector bar 10 101 as to be preferably and arrange along its length, and be multiple side by side Cavernous structure, namely this containing cavity 101 is along the length direction laid out in parallel of reagent detector bar 10 by multiple cavernous structures Formed, so can be designed so that the distribution of determinand is more uniform, and then make the result detected more accurate.

Specifically, as shown in Fig. 1, Fig. 5 to Fig. 7, in this utility model embodiment, this sampling assemble 30 includes sampling Frame 301, elasticity are connected to sample the conical straw 3014 that the sampling hammerhead 302 on support 301 coordinates with sampling hammerhead 302, with And the first control piece of the stroke of control sampling hammerhead 302, this sampling hammerhead 302 is provided with the tubular structure of cavity in including 3024；In addition this full-automatic detection apparatus also includes being available for containing multiple conical straw 3014 pipette stand 3013, hold to be checked The test tube rack 3011 of thing and the bracing frame 307 being available for the three-dimensional movement of sampling assemble 30, this first control piece controls sampling hammerhead 302 From pipette stand 3013, connect conical straw 3014, and in the test tube of test tube rack 3011 draw thing to be checked after be transported to appearance Put in chamber 101.

In the present embodiment, as shown in Figures 5 to 7, this sampling support 301 includes bracket base 3015, is connected to bracket bottom The first control piece 303 on seat 3015, and identify device；This pipette stand 3013 and test tube rack 3011 are both placed in bracket base On 3015, this first control piece 303 includes the first moving assembly 3031 driving this sampling hammerhead 302 to move up and down, driving should Sampling hammerhead 302 and second movable moving assembly 3032 of this first moving assembly 3031 and drive this sampling hammerhead 302, the 3rd moving assembly 3033 that this first moving assembly 3031 and this second moving assembly 3032 move left and right.

In the present embodiment, as shown in Figures 5 to 7, this first moving assembly 3031 includes the first driving motor 30312, with That this first driving motor 30312 coordinates and vertically arranged first drive belt 30313, and it is connected to the first drive belt The first locating piece 30311 moved up and down on 30313 and with the first drive belt 30313, this sampling hammerhead 302 top for be available for The connecting tube 3021 that external manometer tube connects, this first locating piece 30311 offers and is available for this connecting tube 3021 and passes The first through hole, the top of this sampling hammerhead 302 is additionally provided with abutting block 3023 in addition, and this abutting block 3023 upper end is first fixed with this Connect between the block 30311 of position and have spring part 304；In addition it is additionally provided with identification device on this first moving assembly 3031, should be from knowing Light sensitive device 30314 that other device includes being connected on the first locating piece 30311 and being connected to abut on block 3023 every mating plate 3022, this light sensitive device 30314 is provided with the photosensitive groove of spill 303141 coordinated with every mating plate 3022, when this is every mating plate 3022 Time in the photosensitive groove of this spill 303141, this light sensitive device 30314 power-off can be made, and then first drives motor 30312 to stop Rotate.

And then, in the present embodiment, as shown in Figures 5 to 7, this first motor drives this first drive belt about 30313 During rotation, and then drive the first locating piece 30311 to move up and down, then drive sampling hammerhead 302 to move up and down, work as sampling hammerhead When the lower end of 302 runs into barrier, sampling hammerhead 302 stops moving down, and then abuts block 3023 and the first locating piece 30311 Between spring part 304 compressed, now, under normal circumstances, this first drive motor 30312 drive the first drive belt 30313 distances moved down are set according to practical situation, namely the front end of sampling hammerhead 302 just with conical straw 3014 are connected；And in the case of abnormal, or rifle head front end does not reaches barrier, and this situation is sampling hammerhead 302 front end misalignment conical straws 3014；Or touch barrier in advance, in this case the front end of sampling hammerhead 302 with The upper end-face edge alignment of conical straw 3014, such that spring part 304 is further compressed so that abutting on block 3023 Overlap with the photosensitive groove of spill 303141 on the first locating piece 30311 every mating plate 3022, and then make after light sensitive device 30314 power-off Obtain the first driving motor 30312 power-off, and then divide under the effect of spring part 304 with the photosensitive groove of spill 303141 every mating plate 3022 Opening, now the first control piece 303 can control sampling hammerhead 302 and re-registrates, and then realizes the intellectuality of sampling.

In the present embodiment, as shown in Figures 5 to 7, this second moving assembly 3032 includes that the second driving motor and second drives Dynamic band, this first moving assembly 3031 is connected in this second drive belt, and along with the second drive belt moves forward and backward；3rd moves Dynamic assembly 3033 includes the 3rd driving motor and the 3rd drive belt, and this second moving assembly 3032 is connected in the 3rd drive belt, And move left and right with the 3rd drive belt；So design makes the first control piece 303 can control sampling hammerhead 302 first from pipette stand Connect conical straw 3014 on 3013, draw determinand in then moving to the test tube on test tube rack 3011, be preferably herein Testing liquid, and the process of this absorption is next by the manometer tube (not shown) being connected in sampling hammerhead 302 connecting tube 3021 Realizing, this manometer tube connects a compressor (not shown) can complete the absorption to determinand and discharge.

Specifically, as shown in Figure 1 to Figure 4, and shown in Fig. 8 and Fig. 9, in this utility model embodiment, this propelling movement assembly 20 It is connected to one end of conveying assembly 50, the present embodiment is preferably connected to the right-hand member of conveying assembly 50, and propelling movement assembly 20 wraps Include and push the push rod 204 of this reagent detector bar 10, be available for installing the mounting groove 203 of bearing part 40 and control push rod 204 Drive assembly 201；The moving direction of this push rod 204 is parallel to the upper surface of conveying assembly 50 simultaneously, and this bearing part 40 is pacified It is additionally provided with in being contained in the top of push rod 204, and mounting groove 203 and is easy to the fluting 2053 that reagent detector bar 10 is released, this propelling movement The front proper cross-notching 2033 of bar 204.

In the present embodiment, as shown in Figures 1 to 4, this mounting groove 203 opening up, and then part can be easily carried 40 matched installations, this mounting groove 203 includes the first storage tank 2031 being available for accommodating reagent detector bar 10 and is available for and holds The second storage tank 2032 that the shell of holder 40 coordinates, this first storage tank 2031 is positioned at the lower section of the second storage tank 2032, and The cross-sectional area of this first storage tank 2031 is less than the cross-sectional area of the second storage tank 2032, and this push rod 204 may move and wears Crossing this second storage tank 2032, meanwhile, the opening of this fluting 2033 is towards the left side, namely this fluting 2033 is positioned at installation On the left side wall of groove 203, further, this fluting 2033 is positioned on the sidewall of the first storage tank 2031 and and bottom connection.

In the present embodiment, as shown in Figures 1 to 4, this driving assembly 201 includes driver 2011 He being connected to right-hand member The rotary screw rod 2012 being connected in driver 2011, and it is threaded in the movable block of rotary screw rod 2012 free end 2013, this push rod 204 is connected to the left end of this movable block 2013, and then this movable block 2013 is along with a left side for rotary screw rod 2012 Push rod 204 is driven to move left and right when moving right；Meanwhile, this mounting groove 203 is arranged on the left end pushing assembly 20, and this holds Holder 40 is vertically mounted in this mounting groove 203, and the reagent detector bar 10 in this bearing part 40 can be under gravity Drop in the first storage tank 2031, and then by push rod 204, reagent detector bar 10 is pushed out by fluting 2033.

In the present embodiment, and the width of this fluting 2033 should be greater than the length of reagent detector bar 10, and this fluting The height of 2033 should be greater than the thickness of reagent detector bar 10, and this push rod 204 is preferably greater than or equal to two, so may be used To ensure stationarity when reagent detector bar 10 is pushed out；Meanwhile, the bottom of this propelling movement assembly 20 is additionally provided with connection seat 202, This driver 2011 and mounting groove 203 lay respectively at the both sides of this connection seat 202 upper surface, and wherein mounting groove 203 is located close to One end of conveying assembly 50, is additionally provided with fixing seat 2021 between this movable block 2013 and mounting groove 203, this fixing seat 2021 by This connection seat upper surface extends vertically upwards formation, and so design can limit the distance that movable block 2013 moves, this push rod 204 move through and are also associated with the gimbal lever through this movable block 2013 on this fixing seat 2021, and this fixing seat 2021 2022, so design makes the movement of rotary screw rod 2012 the most steady.

Specifically, as shown in Fig. 1 and Fig. 8, Fig. 9, in this utility model embodiment, this conveying assembly 50 includes conveying examination The conveyer belt 501 of agent detector bar 10, be connected on conveyer belt 501 and to reagent detector bar 10 heating heating member (not shown) and It is positioned at conveyer belt 501 both sides the limiting stand 502 of spacing reagent detector bar 10, and controls the second control that conveyer belt 501 moves Product.

In the present embodiment, as shown in Fig. 1 and Fig. 8, Fig. 9, through pushing the reagent detector bar 10 that assembly 20 pushes out, fall Entering on conveyer belt 501, the containing cavity 101 now dropping into reagent detector bar 10 on conveyer belt 501 is opening up, so Being easy to sampling hammerhead 302 dripped by the determinand of absorption and be put in this containing cavity 101, this limiting stand 502 is positioned at conveyer belt 501 simultaneously Both sides be possible to prevent reagent detector bar 10 conveying during occur that unnecessary movement, the most unnecessary movement are refered in particular to The moving direction being perpendicular to conveyer belt 501 moves, because the program that sampling hammerhead 302 moves is pre-set, namely releases Put the determinand of absorption to being also in certain region in containing cavity 101, if the position of this reagent detector bar 10 changes, Determinand then may be caused not drip be put in containing cavity 101, and then pollute detection device.

In the present embodiment, as shown in Fig. 1 and Fig. 8, Fig. 9, this conveyer belt 501 is connected between two power transmission shafts 506, and Two power transmission shafts 506 at least one be driving shaft, this heating member is preferably laid on the heating on this conveyer belt 501 outer surface Band, or be connected on conveyer belt 501 and detection can be shortened with the heating rod contacted bottom reagent detector bar 10, so design During preheating, and then increase detection efficiency.

In the present embodiment, as shown in Fig. 1 and Fig. 8, Fig. 9, in order to make each reagent dropped on conveyer belt 501 detect Being evenly distributed on conveyer belt 501 of bar 10, and then connection has the second control piece on the power transmission shaft 506 of conveyer belt 501, and This second control piece is preferably connected on driving shaft；This second control piece electrically connects with pushing assembly 20, and this second control piece Including the disc 503 being rotatably connected on driving shaft and the induction apparatus 504 coordinated with this disc 503, this induction apparatus 504 with The driving means of driving shaft and the driver 2011 of propelling movement assembly 20 all electrically connect, and this disc 503 is provided with multiple edge The opening 5032 of its radial direction, the length of this opening 5032 is less than the radius of disc 503, and the length of this opening 5032 Its center of circle is pointed to by the edge of disc 503 in direction, and disc 503 is divided equally, in the present embodiment, preferably by the plurality of opening 5032 Being three openings 5032, and this disc 503 is divided into three circular arc blocks 5031, this disc 503 only has when rotating every time One opening 5032 can be positioned at the photosensitive groove 5041 of induction apparatus 504；Thus driving shaft drives disc 503 to rotate when rotating, When facing toward, at the opening 5032 of disc 503, the photosensitive groove 5041 arranged on induction apparatus 504, this induction apparatus 504 and propelling movement group Driver 2011 on part 20 electrically connects, and disconnects with driving shaft, and then driving shaft stops operating, thus conveyer belt 501 Stop mobile, and the driver 2011 simultaneously pushed on assembly 20 drives push rod 204 to be pushed by a reagent detector bar 10 On conveyer belt 501, then driver 2011 drives conveying lever to regain, and now induction apparatus 504 electrically connects with driving shaft, and with drive Dynamic device 2011 disconnects, and then driver 2011 quits work, and then driving shaft is rotated further to next opening 5032 Place, and then realize the discontinuity propelling movement of reagent detector bar 10.

In the present embodiment, as shown in Fig. 1 and Fig. 8, Fig. 9, this conveyer belt 501 is additionally provided with projection 505 vertically upward, This projection 505 is arranged in the both sides of conveyer belt 501 upper surface, and the layout of two these adjacent projections 505 of homonymy and circle The length of the circular arc block 5031 on diskware 503 distance between two projections 505 that adaptation, the most preferably homonymy are adjacent is big The length of the circular arc block 5031 on disc 503, after so design can ensure that projection 505 is positioned at reagent detector bar 10 Side, and then be possible to prevent owing to inertia causes reagent detector bar 10 to retreat, and then avoid each examination being positioned on conveyer belt 501 The problem that the position distribution of agent detector bar 10 is inconsistent.

Specifically, as illustrated in figures 1 and 8, in this utility model embodiment, this detection components 60 is connected to conveying assembly The top of 50, preferably detection components 60 is positioned at the top of conveyer belt 501 herein, and detection components 60 includes along being perpendicular to conveyer belt Detection block that 501 moving directions move 601 and support and control to detect block 601 and support seat 602, this detection block 601 baseplane away from Height from conveyer belt 501 upper surface is more than or equal to the thickness of reagent detector bar 10.

In the present embodiment, as illustrated in figures 1 and 8, this detection components 60 is preferably on the left side of conveying assembly 50, namely The determinand in containing cavity 101 on reagent detector bar 10 is under the continuous heating effect of heating member, when moving to detect block 601 During lower section, the 4th moving assembly 603 that this support seat 602 connects controls detection block 601 and moves forward and backward, so to preheating after Determinand is scanned detection, is then sent on the computer that is attached thereto by the data result after detection, and then can be quickly Analyze the final result of detection.

Specifically, as shown in Figure 1 to Figure 4, shown in Figure 10 to Figure 15, in this utility model embodiment, opening of this bearing part 40 Mouth end 403 connects dismountable sealing lid 402, and multiple reagent detector bars 10 are sealedly connected on bearing part by this sealing lid 402 In 40, being additionally provided with dry component in this bearing part 40, multiple reagent detector bar 10 piles are connected to dry component and seal lid Between 402.

In the present embodiment, as shown in Figure 1 to Figure 4, shown in Figure 10 to Figure 15, this bearing part 40 is preferably shell-like structure, including One covers the 402 box-like housings 401 being connected with sealing, and this box-like housing 401 includes connecting portion 4012 and supporting part 4011, and this is opened Mouth end 403 can be sealed lid 402 and is tightly connected, and is tipped upside down on by box-like housing 401 and push away during use after being opened by this sealing lid 402 On mounting groove 203 on sending component 20, and then connecting portion 4012 is connected on the second storage tank 2032 on this mounting groove 203, And opening 403 is connected to the bottom of the second storage tank 2032, and herein, the cross-sectional area of this connecting portion 4012 is more than the first appearance Putting the cross-sectional area of groove 2031 and be less than the cross-sectional area of the second storage tank 2032, the cross-sectional area of supporting part 4011 is more than reagent The cross-sectional area of detector bar 10 and the cross-sectional area less than or equal to the first storage tank 2031, so design make pile connect appearance Put the multiple reagent detector bars 10 in this bearing part 40 can automatically fall into the most one by one under gravity In the second storage tank 2032, the most pushed bar 204 is released.

In the present embodiment, as shown in Figure 1 to Figure 4, shown in Figure 10 to Figure 15, the inner walls of this bearing part 40 is additionally provided with spacing Boss 4013, on this reagent detector bar 10, this positive stop lug boss 4013 is provided with limited impression 102, and then this reagent multiple inspection the most relatively Survey bar 10 to coordinate with positive stop lug boss 4013 according to limited impression 102, and then prevent from each reagent detector bar 10 to be placed on holding Direction in holder 40 is inconsistent；Meanwhile, this sealing lid 402 is provided with and is available for the first link slot that connecting portion 4012 connects 4021 and be available for the second link slot being connected with the bottom of the pile multiple reagent detector bars 10 in box-like housing 401 4022, the top of this pile multiple reagent detector bars 10 in box-like housing 401 is connected to a bracer 404 of dry component On, it is additionally provided with in this second link slot 4022 and prevents what multiple described reagent detector bar 10 from loosening to support platform 4023, and then pass through This supports multiple reagent detector bar 10 jam-packeds that platform 4023 can will be contained in bearing part 40, prevents it from occurring loosening.

In the present embodiment, as shown in Figure 1 to Figure 4, shown in Figure 10 to Figure 15, this dry component is arranged on and deviates from sealing lid 402 The lowermost end in direction, and this dry component includes bracer 404, and this bracer 404 is provided with and is available for depositing putting of desiccant Putting groove 4041 and be available for the perforate 4022 that this push rod 204 passes, the opening of this placing trough 4041 points to the end of box-like housing 401 Portion, this perforate 4022 is formed by the plane indent being connected to reagent detector bar 10 on bracer 404, the quantity of this perforate 4022 with And position is corresponding with push rod 204；The most in the present embodiment, the bottom of this placing trough 4041 is further opened with multiple air-vent 4023, and the opening of this placing trough 4041 just bottom to this bearing part 40, and perforate 4022 is just to reagent detector bar 10；This After sample design makes the reagent detector bar 10 being contained in bearing part 40 last is pushed out, then dry with gravity fall Dry assembly will not be released by pushed bar 204.

Specifically, as illustrated in figures 1 and 8, this utility model also provides for a kind of genital discharge analyte detection equipment, and it has Aforesaid full-automatic detection apparatus, and this detection equipment also include reclaim reagent detector bar 10 first recovery assembly 70, with And reclaim the second recovery assembly 80 of conical straw 3014.

In the present embodiment, as illustrated in figures 1 and 8, this first recovery assembly 70 includes being connected to conveying assembly 50 left end Guide 701 and be connected to the first collection box 702 below this guide 701, one end of this guide 701 is connected to conveying On limiting stand 502 on assembly 50, the oblique lower left of the other end extends, and so can be designed so that the reagent detector bar after use 10 drop in the first collection box 702 along guide 701, and then ensure the environmental health in sensing chamber.

In the present embodiment, as illustrated in figures 1 and 8, this second recovery assembly 80 includes bayonet component 802 and is connected to this Second collection box 801 of bayonet component 802 lower end, this bayonet component 802 includes being fixedly connected on the clamp supported on seat 602 8021, this clamp 8021 is parallel on conveyer belt 501 upper surface, and this clamp 8021 offer through hole 8022 and and through hole 8022 strip holes 8023 connected, the diameter of this through hole 8022 is more than the maximum cross-section area of this conical straw 3014, and this is long The width of cylindrical void 8023 is less than the maximum cross-section area of conical straw 3014, and is more than the diameter of sampling hammerhead 302；So design So that used conical straw 3014 first passes through through hole 8022, then move to strip hole 8023 region, sampling gun 302 then move up so that conical straw 3014 is blocked two by strip hole 8023 and comes off in the second collection box 801, enters And the environmental health in Ye Nengzheng sensing chamber.

The foregoing is only preferred embodiment of the present utility model, not in order to limit this utility model, all at this Any amendment, equivalent and the improvement etc. made within the spirit of utility model and principle, should be included in this utility model Protection domain within.

Claims (10)

1. a full-automatic detection apparatus, for detecting the reagent detector bar of configuration, it is characterised in that: include automatically knowing Not and determinand is transferred to the sampling assemble of described reagent detector bar and automatically identifies and to treating on described reagent detector bar Survey detection components that thing carries out detecting, for hold the bearing part carrying multiple described reagent detector bars and by described reagent detector bar between Remove the propelling movement assembly of described bearing part disconnectedly, and be connected with described propelling movement assembly and be used for carrying described reagent detector bar Conveying assembly.

2. full-automatic detection apparatus as claimed in claim 1, it is characterised in that: described bearing part be detachably connected on described in push away On sending component, the multiple described reagent detector bar in described bearing part is pushed to described conveying assembly by described propelling movement assembly one by one On.

3. full-automatic detection apparatus as claimed in claim 2, it is characterised in that: described sampling assemble includes sampling support, bullet Property be connected on described sampling support the conical straw that coordinates with described sampling hammerhead of sampling hammerhead, and take described in controlling First control piece of the stroke of sample rifle head, described sampling hammerhead is provided with the tubular structure of cavity in including.

4. full-automatic detection apparatus as claimed in claim 3, it is characterised in that: described reagent detector bar is provided with and is available for housing The containing cavity of determinand, pipette stand that described full-automatic detection apparatus also includes being available for containing multiple described conical straw, holds The test tube rack of thing to be checked and be available for the bracing frame that described sampling assemble three-dimensional moves, described first control piece controls described sampling gun Head connects described conical straw on described pipette stand, and is transported to after drawing thing to be checked in the test tube of described test tube rack described In containing cavity.

5. full-automatic detection apparatus as claimed in claim 1, it is characterised in that: described propelling movement assembly includes pushing described reagent The push rod of detector bar, it is available for the mounting groove of described bearing part being installed and controlling the driving assembly of described push rod.

6. full-automatic detection apparatus as claimed in claim 5, it is characterised in that: the moving direction of described push rod is parallel to institute Stating the upper surface of conveying assembly, described bearing part is additionally provided with in being arranged on the top of described push rod, and described mounting groove to be easy to The fluting that described reagent detector bar is released, the front of described push rod is rectified described fluting.

7. the full-automatic detection apparatus as described in any one of claim 1-6, it is characterised in that: described conveying assembly includes conveying The conveyer belt of described reagent detector bar, it is connected on described conveyer belt and to the heating member of described reagent detector bar heating be positioned at Described conveyer belt both sides the limiting stand of spacing described reagent detector bar, and control the second control that described conveyer belt moves Part.

8. full-automatic detection apparatus as claimed in claim 7, it is characterised in that: described detection components is connected to described conveying group The top of part, and described detection components includes along being perpendicular to detection block that described conveyer belt moving direction moves and support and controlling The support seat of described detection block, described detection block baseplane is more than or equal to described examination apart from the height of described conveyer belt upper surface The thickness of agent detector bar.

9. the full-automatic detection apparatus as described in any one of claim 1-6, it is characterised in that: the opening of described bearing part is even Being connected to dismountable lid that seals, multiple described reagent detector bars are sealed in described bearing part by the described lid that seals, described carrying Being additionally provided with dry component in part, multiple described reagent detector bar piles are between described dry component and described sealing lid.

10. a genital discharge analyte detection equipment, it is characterised in that: include as described in any one of claim 1-9 complete from Motion detection device, described genital discharge analyte detection equipment also includes the first recovery assembly reclaiming described reagent detector bar, with And reclaim the second recovery assembly of single use parts on described sampling assemble.