CN105675898A - Full-automatic detecting device and genital tract secretion detecting equipment with same - Google Patents

Abstract

The invention belongs to the field of medical detecting equipment and provides a full-automatic detecting device and genital tract secretion detecting equipment with the same. The full-automatic detecting device is used for detecting prepared reagent detecting strips. The full-automatic detecting device comprises a sampling component, a detecting component, a bearing part, a pushing component and a conveying component, wherein the sampling component automatically recognizes to-be-detected objects and moves the to-be-detected objects to the reagent detecting strips; the detecting component automatically recognizes and detects the to-be-detected objects on the reagent detecting strips; the bearing part is used for carrying multiple reagent detecting strips; the pushing component discontinuously pushes the reagent detecting strips out of the bearing part; the conveying component is connected with the pushing component and used for conveying the reagent detecting strips. By the full-automatic detecting device, the problems that existing detecting equipment is low in detecting efficiency and low in intelligent level and easily causes detecting result inaccuracy can be solved.

Description

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

Technical field

The invention belongs to medical detection apparatus field, particularly relate to a kind of full-automatic detection apparatus and there is the genital discharge analyte detection equipment of this device.

Background technology

The initiation inducement of gynecological inflammation has a lot, many by the detection of genital secretion is made a concrete analysis of clinically, general hospital is manual operations, sampled by clinician, deliver to clinical laboratory, dilute in proportion with normal saline, then mix, sample is uniformly applied on wave carrier piece, inspection doctor's microscopic (microscopy). Some project is by sample drop on dedicated test reagent strip, stands 10 minutes (requirement of time by specification), then visual observation; Whole process spended time is long, so that detection efficiency reduces; And reagent detector bar is easily secondary polluted, and then have influence on the result of detection.

Summary of the invention

It is an object of the invention to provide a kind of full-automatic detection apparatus, it is intended to solving existing detection equipment Inspection efficiency low, device intelligenceization is low, and easily cause the problem that testing result is inaccurate.

The present invention so solves: a kind of full-automatic detection apparatus, for the reagent detector bar of configuration is detected, including automatically identify and determinand be transferred to the sampling assemble of described reagent detector bar and automatically identify and the determinand on described reagent detector bar is detected detection components, be used for holding the bearing part carrying multiple described reagent detector bars and the propelling movement assembly that described reagent detector bar removes described bearing part discontinuously, and be connected and be used for carrying the conveying assembly of described reagent detector bar with described propelling movement assembly.

The technique effect that full-automatic detection apparatus provided by the invention has relative to existing technology is: by the setting of the sampling assemble with automatically identifying and the automatic detection components identified, the process making the sampling of determinand and detection is full intellectualized, detection person can obtain data and the result of detection either directly through detection components analysis after only sample to be detected need to being placed on the region that program setting is good, the bearing part of accommodating multiple reagent detector bars and the setting pushing assembly simultaneously, reagent detector bar is transferred on conveying assembly discontinuously according to certain program setting, so design can avoid direct contact of detection person and reagent detector bar to have influence on the result of detection.

The present invention also provides for a kind of genital discharge analyte detection equipment, it has aforesaid full-automatic detection apparatus, described genital discharge analyte detection equipment also includes reclaiming the first of described reagent detector bar and reclaims assembly, and reclaims second of single use parts on described sampling assemble and reclaim assembly.

The technique effect that genital discharge analyte detection equipment provided by the invention has relative to existing technology is: can also automatically reclaim nonrecoverable appliance under the premise of the technique effect of full-automatic detection apparatus, avoid the workbench to sensing chamber or detecting device to pollute, and then be further ensured that the accuracy of detection.

Accompanying drawing explanation

Fig. 1 is the overall structure figure of the full-automatic detection apparatus that the embodiment of the present invention provides.

Fig. 2 is the overall structure figure mono-pushing assembly that the embodiment of the present invention provides.

Fig. 3 is the overall structure figure bis-pushing assembly that the embodiment of the present invention provides.

Fig. 4 is the structure chart that the propelling movement assembly that the embodiment of the present invention provides coordinates with bearing part.

Fig. 5 is the overall structure figure of the sampling assemble that the embodiment of the present invention provides.

Fig. 6 is the structure chart one sampling holder part in the sampling assemble that the embodiment of the present invention provides.

Fig. 7 is the structure chart one sampling holder part in the sampling assemble that the embodiment of the present invention provides.

Fig. 8 is the attachment structure figure pushing assembly, conveying assembly and detection components that the embodiment of the present invention 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 the embodiment of the present invention provides.

Figure 11 is the structure chart of the bearing part that the embodiment of the present invention provides.

Figure 12 is the structure chart after the bearing part that the embodiment of the present invention provides removes box-like object.

Figure 13 is the structure chart one of box-like housing in the bearing part that the embodiment of the present invention provides.

Figure 14 is the structure chart two of box-like housing in the bearing part that the embodiment of the present invention provides.

Figure 15 is the structure chart sealing lid in the bearing part that the embodiment of the present invention provides.

Detailed description of the invention

In order to make the purpose of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated. Should be appreciated that specific embodiment described herein is only in order to explain the present invention, is not intended to limit the present invention.

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

Also, it should be noted the orientation term such as left and right, upper and lower in the embodiment of the present invention, be only relative concept or with the normal operating condition of product for reference each other, and should not be regarded as have restrictive.

Refer to shown in accompanying drawing 1, Fig. 2, Fig. 5, Fig. 8, Figure 10 and Figure 11, in embodiments of the present invention, a kind of full-automatic detection apparatus is provided, including reagent detector bar 10, sampling assemble 30, detection components 60, bearing part 40 and propelling movement assembly 20, wherein sampling assemble 30 is provided with the device of identification automatically, and this sampling assemble 30 is for coordinating with reagent detector bar 10, it is preferably after thing to be checked is taken out by sampling assemble 30 herein and is placed on reagent detector bar 10, and then detect, this detection components 60 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, reagent detector bar 10 is removed discontinuously by this propelling movement assembly 20 from bearing part 40, namely the reagent detector bar 10 in bearing part 40 is shifted out one every a period of time by this propelling movement assembly 20, and the pushed assembly 20 of reagent detector bar 10 that this is shifted out is pushed on a conveying assembly 50, then reagent detector bar 10 is slowly carried forward by this conveying assembly 50, and then whole process is, first bearing part 40 is arranged on propelling movement assembly 20, then push assembly 20 and the reagent detector bar 10 in bearing assembly is transferred one out, then it is placed on reagent detector bar 10 after sampling assemble 30 sampling, then this reagent detector bar 10 is transported to detection components 60 place and then detection analysis by conveying assembly 50, 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 of design above, setting by the sampling assemble 30 with automatically identifying and the automatic detection components 60 identified, the process making the sampling of determinand and detection is full intellectualized, detection person can analyze, after only sample to be detected need to being placed on the region that program setting is good, the data and result that obtain detection either directly through detection components 60, the bearing part 40 of accommodating multiple reagent detector bars 10 and the setting pushing assembly 20 simultaneously, reagent detector bar 10 is made to be transferred on conveying assembly 50 discontinuously according to certain program setting, so design can avoid direct contact of detection person and reagent detector bar 10 to have influence on the result of detection.

Specifically, as shown in the figure, in embodiments of the present invention, this bearing part 40 is detachably connected on propelling movement assembly 20, multiple reagent detector bars 10 in bearing part 40 are pushed on conveying assembly 50 by this propelling movement assembly 20 one by one, this reagent detector bar 10 is additionally provided with the containing cavity 101 being available for accommodating determinand, and this containing cavity 101 is positioned on the upper surface of reagent detector bar 10.

In the present embodiment, as shown in Figure 11 to Figure 15, this bearing part 40 can be produced in batches, namely when be connected in the bearing part 40 pushed on assembly 20 the reagent detector bar 10 that houses all pushed go out after, only need to change a new fully loaded bearing part 40 can work on, so design can save the detection time, improves detection efficiency and avoids reagent detector bar 10 to cause the result of detection inaccurate after being secondary polluted simultaneously; Additionally, in the present embodiment, the bar preferably rectangular in shape of this reagent detector bar 10, and the containing cavity 101 on this reagent detector bar 10 is preferably and arranges along its length, and it is multiple cavernous structures arranged side by side, namely this containing cavity 101 is to be formed along the length direction laid out in parallel of reagent detector bar 10 by multiple cavernous structures, 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 embodiments of the present invention, the conical straw 3014 that the sampling hammerhead 302 that this sampling assemble 30 includes sampling support 301, elasticity is connected on sampling support 301 coordinates with sampling hammerhead 302, and the first control piece of the stroke of control sampling hammerhead 302, this sampling hammerhead 302 is provided with the tubular structure 3024 of cavity in including; In addition this full-automatic detection apparatus also includes being available for the pipette stand 3013 containing multiple conical straw 3014, the test tube rack 3011 holding thing to be checked and being available for the bracing frame 307 of the three-dimensional movement of sampling assemble 30, this first control piece controls sampling hammerhead 302 and connects conical straw 3014 from pipette stand 3013, and in the test tube of test tube rack 3011 be transported in containing cavity 101 after absorption thing to be checked.

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

In the present embodiment, as shown in Figures 5 to 7, this first moving assembly 3031 includes the first drive motor 30312, that coordinate with this first drive motor 30312 and vertically arranged first driving band 30313, and it is connected to the first driving with driving with 30313 the first locating pieces 30311 moved up and down on 30313 and with first, this sampling hammerhead 302 top is the connecting tube 3021 being available for being connected with external manometer tube, this first locating piece 30311 offers and the first through hole being available for this connecting tube 3021 traverse, in addition the top of this sampling hammerhead 302 is additionally provided with abutting block 3023, it is connected to spring part 304 between this abutting block 3023 upper end and this first locating piece 30311, in addition this first moving assembly 3031 is additionally provided with identification device, this identification device include being connected to the light sensitive device 30314 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 303141 of the spill coordinated with every mating plate 3022, when this is positioned at the photosensitive groove 303141 of this spill every mating plate 3022, this light sensitive device 30314 power-off can be made, and then the first drive motor 30312 stops operating.

And then, in the present embodiment, as shown in Figures 5 to 7, when this first motor drives this first driving band 30313 to rotate upwardly and downwardly, and then drive the first locating piece 30311 to move up and down, then sampling hammerhead 302 is driven to move up and down, when the lower end of sampling hammerhead 302 runs into barrier, sampling hammerhead 302 stops moving down, and then the spring part 304 abutted between block 3023 and the first locating piece 30311 is compressed, now, under normal circumstances, this first drive motor 30312 drives the first driving to be set according to practical situation with 30313 distances moved down, namely the front end of sampling hammerhead 302 is just connected with conical straw 3014, and in abnormal situation, or rifle head front end does not reach barrier, and this situation is sampling hammerhead 302 front end misalignment conical straw 3014, or touch barrier in advance, in this case the front end of sampling hammerhead 302 is directed at the upper end-face edge of conical straw 3014, such that spring part 304 is further compressed so that abutting overlapping every mating plate 3022 on block 3023 with the photosensitive groove 303141 of the spill on the first locating piece 30311, and then after light sensitive device 30314 power-off, make the first drive motor 30312 power-off, and then separate under the effect of spring part 304 every the photosensitive groove 303141 of mating plate 3022 and spill, now the first control piece 303 can control sampling hammerhead 302 and re-registrates, and then realize the intellectuality of sampling.

In the present embodiment, as shown in Figures 5 to 7, this second moving assembly 3032 includes the second drive motor and second and drives band, and this first moving assembly 3031 is connected on this second driving band, and along with second drives band movable; 3rd moving assembly 3033 includes the 3rd drive motor and the 3rd and drives band, and this second moving assembly 3032 is connected on the 3rd driving band, and drives band to move left and right with the 3rd; So design makes the first control piece 303 can control sampling hammerhead 302 and first connects conical straw 3014 from pipette stand 3013, then move to draw in the test tube on test tube rack 3011 determinand, it is preferably testing liquid herein, and the process of this absorption is realized by the manometer tube (not shown) being connected in sampling hammerhead 302 connecting tube 3021, 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 embodiments of the present invention, this propelling movement assembly 20 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 includes pushing the push rod 204 of this reagent detector bar 10, is available for installing the mounting groove 203 of bearing part 40 and controls the driving assembly 201 of push rod 204; 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 arranged on the top of push rod 204, and in mounting groove 203, it is additionally provided with the fluting 2053 being easy to reagent detector bar 10 release, the front proper cross-notching 2033 of this push rod 204.

In the present embodiment, as shown in Figures 1 to 4, this mounting groove 203 opening up, and then the matched installation of part 40 can be easily carried, this mounting groove 203 includes being available for the first storage tank 2031 of accommodating reagent detector bar 10 and is available for the second storage tank 2032 coordinated with the shell of bearing part 40, 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 moves through this second storage tank 2032, meanwhile, the opening of this fluting 2033 is towards the left side, namely this fluting 2033 is positioned on the left side wall of mounting 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 the driver 2011 being connected to right-hand member and the rotary screw rod 2012 being connected in driver 2011, and it is threaded in the movable block 2013 of rotary screw rod 2012 free end, this push rod 204 is connected to the left end of this movable block 2013, and then this movable block 2013 moves left and right along with the push rod 204 that drives when moving left and right of rotary screw rod 2012; Meanwhile, this mounting groove 203 is arranged on the left end pushing assembly 20, this bearing part 40 is vertically mounted in this mounting groove 203, and the reagent detector bar 10 in this bearing part 40 can fall under gravity 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 the height of this fluting 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 can ensure that stationarity when reagent detector bar 10 is pushed out, simultaneously, 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, wherein mounting groove 203 is located close to one end of conveying assembly 50, fixing seat 2021 it is additionally provided with between this movable block 2013 and mounting groove 203, this fixing seat 2021 is extended vertically upwards by this connection seat upper surface and is formed, so design can the distance that moves of moving-limiting block 2013, this push rod 204 moves through this fixing seat 2021, and this fixing seat 2021 is also associated with the gimbal lever 2022 through this movable block 2013, so design the movement making rotary screw rod 2012 more steady.

Specifically, as shown in Fig. 1 and Fig. 8, Fig. 9, in embodiments of the present invention, this conveying assembly 50 includes the conveyer belt 501 of delivery of therapeutic agents detector bar 10, is connected on conveyer belt 501 and to the heating member (not shown) of reagent detector bar 10 heating be positioned at conveyer belt 501 both sides the limiting stand 502 of spacing reagent detector bar 10, and controls the second control piece of moving of conveyer belt 501.

In the present embodiment, such as Fig. 1 and Fig. 8, shown in Fig. 9, through pushing the reagent detector bar 10 that assembly 20 pushes out, drop on conveyer belt 501, the containing cavity 101 now dropping into reagent detector bar 10 on conveyer belt 501 is opening up, so it is easy to sampling hammerhead 302 dripped by the determinand of absorption and be put in this containing cavity 101, the both sides that this limiting stand 502 is arranged in conveyer belt 501 simultaneously are possible to prevent reagent detector bar 10 unnecessary movement occur in the process of conveying, movement unnecessary herein is refered in particular to the moving direction being perpendicular to conveyer belt 501 and is moved, because the program that sampling hammerhead 302 moves is pre-set, namely the determinand that release is drawn also is in certain region to containing cavity 101, if the position of this reagent detector bar 10 changes, then may result in determinand not drip and be put in containing cavity 101, and then pollute detecting 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 the heating tape being laid on this conveyer belt 501 outer surface, or be connected on conveyer belt 501 and with the heating rod of reagent detector bar 10 base contact, so design can shorten the preheating in detection process, and then increases detection efficiency.

In the present embodiment, as shown in Fig. 1 and Fig. 8, Fig. 9, in order to make being evenly distributed on conveyer belt 501 of each reagent detector bar 10 dropped on conveyer belt 501, and then on the power transmission shaft 506 of conveyer belt 501, it is connected to the second control piece, 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 includes the disc 503 being rotatably connected on driving shaft and the induction apparatus 504 coordinated with this disc 503, this induction apparatus 504 all electrically connects with the driving device of driving shaft and the driver 2011 of propelling movement assembly 20, and this disc 503 is provided with multiple opening 5032 along its radial direction, the length of this opening 5032 is less than the radius of disc 503, and the length direction of this opening 5032 is by its center of circle of edge orientation of disc 503, disc 503 is divided equally by the plurality of opening 5032, in the present embodiment, it is preferably three openings 5032, and this disc 503 is divided into three circular arc blocks 5031, this disc 503 when rotating each only one of which opening 5032 can be positioned at the photosensitive groove 5041 of induction apparatus 504, thus driving disc 503 to rotate when driving shaft rotates, when opening 5032 place of disc 503 faces toward the photosensitive groove 5041 arranged on induction apparatus 504, this induction apparatus 504 electrically connects with the driver 2011 pushed on assembly 20, and disconnect with driving shaft, and then driving shaft stops operating, thus conveyer belt 501 stops mobile, and the driver 2011 pushed on assembly 20 drives push rod 204 to be pushed on conveyer belt 501 by a reagent detector bar 10 simultaneously, then driver 2011 drives conveying lever to regain, now induction apparatus 504 electrically connects with driving shaft, and disconnect with driver 2011, and then driver 2011 quits work, then driving shaft is rotated further to next opening 5032 place, and then the discontinuity realizing reagent detector bar 10 pushes.

In the present embodiment, such as Fig. 1 and Fig. 8, shown in 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 length of the circular arc block 5031 on the layout of the two of homonymy these adjacent projections 505 and disc 503 is to adaptation, it is preferably the length more than the circular arc block 5031 on disc 503 of the distance between two projections 505 that homonymy is adjacent herein, so design can ensure that projection 505 is positioned at the rear of reagent detector bar 10, and then it is possible to prevent owing to inertia causes that reagent detector bar 10 retreats, and then the problem that the position distribution that avoids each reagent detector bar 10 being positioned on conveyer belt 501 is inconsistent.

Specifically, as illustrated in figures 1 and 8, in embodiments of the present invention, this detection components 60 is connected to the top of conveying assembly 50, preferably detection components 60 is positioned at the top of conveyer belt 501 herein, and detection components 60 includes along being perpendicular to detection block 601 that conveyer belt 501 moving direction moves and supporting and control detection block 601 supporting seat 602, the height of this detection block 601 baseplane distance 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 the containing cavity 101 on reagent detector bar 10 is under the continuous heating effect of heating member, when moving to below detection block 601, the 4th moving assembly 603 connected on this supporting seat 602 controls detection block 601 and moves forward and backward, and then the determinand after preheating is scanned detection, then the data result after detection is sent on the computer being attached thereto, and then can quickly analyze the final result of detection.

Specifically, as shown in Figure 1 to Figure 4, shown in Figure 10 to Figure 15, in embodiments of the present invention, the opening 403 of this bearing part 40 is connected to dismountable sealing lid 402, multiple reagent detector bars 10 are sealedly connected in bearing part 40 by this sealing lid 402, being additionally provided with dry component in this bearing part 40, multiple reagent detector bar 10 piles are connected to dry component and seal between lid 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, the 402 box-like housings 401 being connected are covered with sealing including one, this box-like housing 401 includes connecting portion 4012 and support portion 4011, this opening 403 can be sealed lid 402 and is tightly connected, after this sealing lid 402 being opened during use, box-like housing 401 is tipped upside down on the mounting groove 203 pushed on assembly 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, herein, the cross-sectional area of this connecting portion 4012 cross-sectional area more than the first storage tank 2031 and the cross-sectional area less than the second storage tank 2032, the cross-sectional area of support portion 4011 cross-sectional area more than reagent detector bar 10 and the cross-sectional area less than or equal to the first storage tank 2031, so design makes multiple reagent detector bars 10 that pile connection is contained in this bearing part 40 automatically down to drop in the second storage tank 2032 one by one under gravity, then pushed bar 204 is released one by one.

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 positive stop lug boss 4013, on this reagent detector bar 10, also this positive stop lug boss 4013 is provided with limited impression 102 relatively, and then multiple this reagent detector bar 10 can coordinate with positive stop lug boss 4013 according to limited impression 102, and then prevent the direction that each reagent detector bar 10 is placed in bearing part 40 inconsistent, meanwhile, this sealing lid 402 is provided with and is available for the first link slot 4021 that connecting portion 4012 connects and is available for the second link slot 4022 being connected with the bottom of the pile multiple reagent detector bars 10 in box-like housing 401, the top of this pile multiple reagent detector bars 10 in box-like housing 401 is connected on a bracer 404 of dry component, 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 support platform 4023 can be contained in multiple reagent detector bar 10 jam-packeds in bearing part 40 by this, prevent 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 the lowermost end sealing lid 402 directions, and this dry component includes a bracer 404, this bracer 404 is provided with the placing trough 4041 being available for depositing desiccant and the perforate 4022 being available for this push rod 204 traverse, the opening of this placing trough 4041 points to the bottom of box-like housing 401, this perforate 4022 is formed by the plane indent being connected to reagent detector bar 10 on a bracer 404, and the quantity of this perforate 4022 and position are corresponding with push rod 204; Additionally 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; After so design makes the reagent detector bar 10 being contained in bearing part 40 last is pushed out, then will not release by pushed bar 204 with the dry component of gravity fall.

Specifically, as illustrated in figures 1 and 8, the present invention also provides for a kind of genital discharge analyte detection equipment, and it has aforesaid full-automatic detection apparatus, and this detection equipment also includes reclaiming the first of reagent detector bar 10 and reclaims assembly 70, and reclaims the second recovery assembly 80 of conical straw 3014.

In the present embodiment, as illustrated in figures 1 and 8, this the first recovery assembly 70 includes the guide 701 being connected to conveying assembly 50 left end and is connected to the first collection box 702 below this guide 701, one end of this guide 701 is connected on the limiting stand 502 on conveying assembly 50, the oblique lower left of the other end extends, so can be designed so that the reagent detector bar 10 after use drops 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 the second recovery assembly 80 includes bayonet component 802 and is connected to the second collection box 801 of this bayonet component 802 lower end, this bayonet component 802 includes the clamp 8021 being fixedly connected on supporting seat 602, this clamp 8021 is parallel to conveyer belt 501 upper surface, and this clamp 8021 offers through hole 8022 and the strip hole 8023 being connected with through hole 8022, the diameter of this through hole 8022 is more than the maximum cross-section area of this conical straw 3014, the width of this strip hole 8023 is less than the maximum cross-section area of conical straw 3014, and more than the diameter of sampling hammerhead 302, so can be designed so that used conical straw 3014 first passes through through hole 8022, then move to strip hole 8023 region, sampling hammerhead 302 then moves up, make conical straw 3014 be blocked two by strip hole 8023 to come off in the second collection box 801, and then the environmental health in Ye Nengzheng sensing chamber.

The foregoing is only presently preferred embodiments of the present invention, not in order to limit the present invention, all any amendment, equivalent replacement and improvement etc. made within the spirit and principles in the present invention, should be included within protection scope of the present invention.

Claims (10)

1. a full-automatic detection apparatus, for the reagent detector bar of configuration is detected, it is characterized in that: include automatically identifying and being transferred to by determinand the sampling assemble of described reagent detector bar and automatically identify and the determinand on described reagent detector bar is detected detection components, be used for holding the bearing part carrying multiple described reagent detector bars and the propelling movement assembly that described reagent detector bar removes described bearing part discontinuously, and be connected and be used for carrying the conveying assembly of described reagent detector bar with described propelling movement assembly.

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

3. full-automatic detection apparatus as claimed in claim 2, it is characterized in that: the conical straw that the sampling hammerhead that described sampling assemble includes sampling support, elasticity is connected on described sampling support coordinates with described sampling hammerhead, and controlling the first control piece of the stroke of described sampling hammerhead, 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 characterized in that: described reagent detector bar is provided with the containing cavity being available for accommodating determinand, pipette stand, the test tube rack holding thing to be checked that described full-automatic detection apparatus also includes being available for containing multiple described conical straws and be available for the bracing frame that described sampling assemble three-dimensional moves, described first control piece controls described sampling hammerhead and connects described conical straw on described pipette stand, and is transported in described containing cavity after drawing thing to be checked in the test tube of described test tube rack.

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

6. full-automatic detection apparatus as claimed in claim 5, it is characterized in that: the moving direction of described push rod is parallel to the upper surface of described conveying assembly, described bearing part is arranged on the top of described push rod, and be additionally provided with in described mounting groove and 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 characterized in that: described conveying assembly includes carrying the conveyer belt of described reagent detector bar, 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 controls the second control piece that described conveyer belt moves.

8. full-automatic detection apparatus as claimed in claim 7, it is characterized in that: described detection components is connected to the top of described conveying assembly, and described detection components include along described in be perpendicular to detection block and support that described conveyer belt moving direction moves and control the supporting seat of described detection block, described detection block baseplane apart from the height of described conveyer belt upper surface more than or equal to the thickness of described reagent detector bar.

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

10. a genital discharge analyte detection equipment, including the full-automatic detection apparatus as described in any one of claim 1-9, it is characterized in that: described genital discharge analyte detection equipment also includes reclaiming the first of described reagent detector bar and reclaims assembly, and reclaim second of single use parts on described sampling assemble and reclaim assembly.