Intelligent kit and working method thereof
The intelligent reagent kit, which integrates reagent delivery, mixing, and detection functions through an intelligent control system, solves the problems of complex cleaning systems and cumbersome manual operation in traditional blood cell analyzers, and achieves efficient and low-cost blood testing.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- HUIJING BIOMEDICAL TECH (SHAOXING) CO LTD
- Filing Date
- 2025-05-16
- Publication Date
- 2026-07-03
Smart Images

Figure CN120490458B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of medical testing, specifically to an intelligent reagent kit and its working method. Background Technology
[0002] A hematology analyzer, also known as a blood cell counter, blood cell analyzer, or blood cell analyzer, is one of the most widely used instruments in hospital clinical laboratories. A large portion of the components in a traditional hematology analyzer belong to the cleaning system, because before the next sample tube is tested, all traces of previous use must be thoroughly cleaned from the tube. The entire cleaning system is not only complex in structure and has many components, but the cleaning process also requires a large amount of reagents and takes a considerable amount of time.
[0003] Secondly, blood tests require appropriate testing reagents. Various parameters of the blood are detected by mixing blood with the reagents and analyzing the mixture. Based on this, this invention designs an automated, multifunctional reagent kit that integrates reagent transport, mixing, and detection. Summary of the Invention
[0004] This invention discloses an intelligent reagent kit and its working method. By adopting an intelligent control system, the reagent delivery, mixing, and detection are integrated into one system, greatly reducing labor costs. At the same time, disposable reagent cartridges are used to mix the reagents and deliver the mixed reagents directly to the detection device, reducing a large number of cleaning components and cleaning processes, thus greatly reducing costs and detection time.
[0005] To achieve the above objectives, according to the first aspect of this document, the present invention provides an intelligent reagent kit, including a housing, a touch screen, a detection port, a transmission mechanism, a mixed reagent detection device, a controller, and a clamping mechanism. A cover plate is slidably installed inside the housing below the detection port. A position sensor is installed at the top inside the housing. An electromagnet is installed on the right side of the cover plate. A spring is installed on the right side of the electromagnet. An electromagnet is fixed to the right side of the spring. The electromagnet is fixedly installed at the top inside the housing.
[0006] Preferably, a transmission mechanism is installed on the upper part of the housing. The transmission mechanism includes a driving wheel, a conveyor belt, and a driven wheel. A mixing cylinder is conveyed on the transmission mechanism. The mixing cylinder includes a funnel, a one-way valve, a one-way valve, and a cylinder. A funnel is fixed to the top of the cylinder. Pipes are fixed to the left and right sides of the cylinder, and one-way valves are installed in the pipes respectively.
[0007] Preferably, a waste pool and a controller are installed at the bottom of the housing. Support plate one and support plate two are fixed on the left and right sides of the middle of the housing, respectively. A test reagent cylinder is fixed on support plate one, and a mixed reagent detection device is fixed on support plate two. A tube is connected to the right side of the test reagent cylinder, and a flared nozzle is connected to the right side of the tube. Pump one is installed inside the tube. A tube is connected to the left side of the mixed reagent detection device, and a flared nozzle is connected to the left side of the tube. Pump two is installed inside the tube.
[0008] Preferably, a motor is installed at the bottom of the housing, a lead screw is connected to the motor, a nut is screwed onto the lead screw, a left leg of the scissor mechanism is fixedly connected to the right side of the nut, a slider is connected to the other left leg of the scissor mechanism, and the slider is slidably mounted on the lead screw; a lifting seat is fixedly connected to the right leg of the scissor mechanism, and the other right leg of the scissor mechanism is slidably connected to the lifting seat.
[0009] Preferably, a mounting base is rotatably connected to the left side of the lifting seat; a mounting base is rotatably connected to the left side of the lifting seat; a left support is installed on the left side of the lifting seat; an upper support is fixed to the top of the mounting base; one end of the electric telescopic rod is hinged to the left support; and the other end of the electric telescopic rod is hinged to the upper support.
[0010] Preferably, the mounting base is provided with a clamping mechanism; the mounting base is rotatably provided with a driven pulley and a driving pulley, respectively, and the drive motor drives the driving pulley to rotate, and the driving pulley drives the belt to drive the driven pulley to rotate.
[0011] Preferably, the drive pulley is provided with a clamping mechanism, which includes a second motor, a drive shaft, a first bevel gear, a support base, a first lead screw, a vertical plate, and a horizontal plate.
[0012] Preferably, a second motor is mounted on the drive pulley, and the second motor is rotatably connected to a drive shaft. A first bevel gear is fixed to one end of the drive shaft, and a second bevel gear meshes with both sides of the first bevel gear. The left and right second bevel gears are respectively connected to a second lead screw, which is rotatably mounted in a left and right support seat. A second nut is screwed onto the second lead screw, and a vertical plate is fixedly connected to one side of the second nut. A horizontal plate is vertically connected to the upper part of the vertical plate.
[0013] Preferably, one end of support rod one is hinged to the middle of the vertical plate, and the other end of support rod one is hinged to the elastic arc plate. One end of support rod two is hinged to the horizontal plate, and the other end of support rod two is hinged to the elastic arc plate. A spring two is connected between the vertical plate and the elastic arc plate, and a spring three is connected between the horizontal plate and the elastic arc plate. The corner seat is a rigid component, and the corner seat is a columnar body with a fan-shaped cross-section. One plane of the corner seat is attached to the vertical plate, and the other plane of the corner seat is attached to the horizontal plate.
[0014] Preferably, a second position sensor is mounted on the side of the mounting base facing the transmission mechanism, and the controller is electrically connected to the position sensor, electromagnet one, pump one, mixed reagent detection device, pump two, electric telescopic rod, motor one, electric telescopic rod two, motor two, and position sensor two.
[0015] According to the second aspect of this document, the present invention also relates to a method of operating the aforementioned smart reagent kit, comprising:
[0016] Step 1: Users log in or register via touchscreen. Login information includes binding the user's mobile phone number and selecting blood-related testing functions.
[0017] Step 2: Based on the touch screen signal, the controller controls the conveying mechanism to deliver the mixing cylinder directly below the detection port and opens the cover. The user then pours the pre-extracted blood into the mixing cylinder.
[0018] Step 3: The controller controls motor 1 to rotate, causing the scissor mechanism to rise and fall, and controls the electric telescopic rod to extend, so that the clamping mechanism moves to the mixing cylinder; position sensor 2 monitors the position of the clamping mechanism in real time, and after the clamping mechanism approaches the mixing cylinder from the side to a preset distance, it controls motor 2 to rotate, opens the clamping mechanism, and clamps the mixing cylinder.
[0019] Step 4: The controller moves the clamp to one side of the test reagent cylinder and moves the mixing cylinder to the left, so that the left tube of the mixing cylinder is connected to the test reagent cylinder. The controller then controls the pump to deliver the test reagent quantitatively into the mixing cylinder. The controller then controls the mixing cylinder to detach from the test reagent cylinder and controls the clamped mixing cylinder to rotate, so that the blood and test reagent are fully mixed.
[0020] Step 5: The controller continues to control the clamp to move to one side of the mixed reagent detection device and clamps the mixing cylinder to the right, so that the right side tube of the mixing cylinder is connected to the mixed reagent detection device, and controls pump two to deliver the mixed reagent to the mixed reagent detection device; move the mixing cylinder directly above the waste pool, open the clamping mechanism, and put the mixing cylinder into the waste pool;
[0021] Step 6: After a preset time, the mixed reagent detection device will send the test results to the user via SMS.
[0022] The intelligent reagent kit and its working method proposed in this invention have the following advantages:
[0023] 1. This invention, by employing an intelligent control system, integrates reagent delivery, mixing, and detection, thereby significantly reducing labor costs.
[0024] 2. This invention uses disposable reagent cartridges, in which reagents are mixed and then directly transported to the detection device, reducing the number of transport mechanisms and storage components. During subsequent tests, secondary infection is avoided, and the cleaning of numerous components and processes is also reduced, significantly lowering costs and testing time.
[0025] 3. The moving mechanism in this application adopts a scissor mechanism, which can improve the flexibility and stability of the clamping mechanism's movement. At the same time, due to the advantages of the structure in this application, the structural strength of the support is improved.
[0026] 4. This application utilizes a reversible clamping mechanism, which allows for stable 90° rotation, greatly satisfying the needs of reagent cylinder transportation and rotation. Furthermore, the clamping mechanism employs a combination of an elastic arc plate and a rigid corner seat. During clamping, the elastic arc plate fully encloses the reagent cylinder, improving clamping stability. Simultaneously, when the elastic arc plate contacts the rigid corner seat, it receives stable support from the rigid corner seat. Additionally, the elastic arc plate, under the action of support rods one and two and the spring, achieves stable buffering and support stability during clamping. Attached Figure Description
[0027] The accompanying drawings, which are included to provide a further understanding of this application and form part of this application, illustrate exemplary embodiments and are used to explain this application, but do not constitute an undue limitation of this application. In the drawings:
[0028] Figure 1 This is an external schematic diagram of the reagent kit of the present invention;
[0029] Figure 2 This is a diagram showing the overall structure of the reagent kit;
[0030] Figure 3 This is a schematic diagram of the overall transmission mechanism;
[0031] Figure 4 This is a structural diagram of the mixing cylinder;
[0032] Figure 5 Top view of the clamping mechanism;
[0033] Figure 6 This is a front view of the mounting base and the lifting base;
[0034] Figure 7 This is a structural diagram of the clamping mechanism.
[0035] In the diagram: 1-House, 2-Touchscreen, 3-Detection port, 4-Position sensor, 5-Shielding plate, 6-Electromagnet I, 7-Spring I, 8-Electromagnet II, 9-Mixing cylinder, 91-Function funnel, 92-One-way valve I, 93-One-way valve II, 94-Cylinder, 10-Transmission mechanism, 11-Screw I, 12-Detection reagent cylinder, 13-Pump I, 14-Mixed reagent detection device, 15-Pump II, 16-Support plate I, 17-Support plate II, 18-Scissor mechanism, 19-Nut I, 20-Slider, 21-Electric telescopic rod, 22-Lifting seat, 23-Motor I, 24-Waste pool, 25- Controller, 26-Clamping mechanism, 27-Driving wheel, 28-Conveyor belt, 29-Driven wheel, 30-Mounting base, 31-Driven pulley, 32-Driving pulley, 33-Belt, 34-Left support, 35-Electric telescopic rod II, 36-Upper support, 37-Motor II, 38-Drive shaft, 39-Bevel gear I, 40-Support base, 41-Screw II, 42-Bevel gear II, 43-Nut II, 44-Vertical plate, 45-Horizontal plate, 46-Elastic arc plate, 47-Spring II, 48-Angle seat, 49-Spring III, 50-Support rod I, 51-Support rod II, 52-Position sensor II.
[0036] It should be understood that the above general description and the following detailed description are merely exemplary and explanatory, and do not limit this document. Detailed Implementation
[0037] To make the objectives, technical solutions, and advantages of the embodiments described herein clearer, the technical solutions in the embodiments will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments described herein, not all of them. All other embodiments obtained by those skilled in the art based on the embodiments described herein without creative effort are within the scope of protection of this document. It should be noted that, unless otherwise specified, the embodiments and features described herein can be arbitrarily combined with each other.
[0038] Unless the context explicitly requires it, the words "comprising," "including," and similar terms throughout the specification and claims should be interpreted as encompassing rather than being exclusive or exhaustive; that is, meaning "including but not limited to."
[0039] According to a first embodiment of the present invention, such as Figures 1-4This invention proposes an intelligent reagent kit, comprising a housing 1, a touch screen 2, a detection port 3, a transmission mechanism 10, a mixed reagent detection device 14, a controller 25, and a clamping mechanism 26. The kit is characterized in that: a cover plate 5 is slidably installed inside the housing 1 below the detection port 3; a position sensor 4 is installed at the top inside the housing 1; an electromagnet 6 is installed on the right side of the cover plate 5; a spring 7 is installed on the right side of the electromagnet 6; and an electromagnet 8 is fixedly installed on the right side of the spring 7. The electromagnet 8 is fixedly installed at the top inside the housing 1.
[0040] According to the above technical solution, a transmission mechanism 10 is installed on the upper part of the housing 1. The transmission mechanism 10 includes: a driving wheel 27, a conveyor belt 28, and a driven wheel 29. A mixing cylinder 9 is conveyed on the transmission mechanism 10. The mixing cylinder 9 includes a funnel 91, a one-way valve 92, a one-way valve 93, and a cylinder 94. The funnel 91 is fixed on the top of the cylinder 94. Pipes are fixed on the left and right sides of the cylinder 94, and one-way valves 92 and 93 are installed in the pipes respectively.
[0041] According to the above technical solution, the one-way valve 92 allows the test reagent to be delivered unidirectionally to the mixing cylinder 9, and the one-way valve 93 allows the mixed reagent to be delivered unidirectionally to the mixed reagent detection device 14, thus ensuring the safety of the detection.
[0042] According to the above technical solution, a waste pool 24 and a controller 25 are installed at the bottom of the housing 1. Support plate 16 and support plate 27 are fixed on the left and right sides of the middle of the housing 1, respectively. A test reagent cylinder 12 is fixed on support plate 16, and a mixed reagent detection device 14 is fixed on support plate 27. A tube is connected to the right side of the test reagent cylinder 12, and a flared nozzle is connected to the right side of the tube. A pump 13 is installed inside the tube. A tube is connected to the left side of the mixed reagent detection device 14, and a flared nozzle is connected to the left side of the tube. A pump 25 is installed inside the tube.
[0043] According to the above technical solution, the flared nozzle on the tube facilitates the connection between the tube on the reagent cylinder and the tube on the detection reagent cylinder 12 or the mixed reagent detection device 14.
[0044] According to the above technical solution, a motor 23 is installed at the bottom of the housing 1. The motor 23 is connected to a lead screw 11. A nut 19 is screwed onto the lead screw 11. A left leg of a scissor mechanism 18 is fixedly connected to the right side of the nut 19. A slider 20 is connected to the other left leg of the scissor mechanism 18. The slider 20 is slidably mounted on the lead screw 11. A lifting seat 22 is fixedly connected to the right leg of the scissor mechanism 18. The other right leg of the scissor mechanism 18 is slidably connected to the lifting seat 22.
[0045] According to the above technical solution, the moving mechanism adopts a scissor mechanism, which can improve the flexibility and stability of the clamping mechanism's movement. At the same time, due to the advantages of the structure of this application, the structural strength of the support is improved.
[0046] According to the above technical solution, a mounting base 30 is rotatably connected to the left side of the lifting seat 22; a left support 34 is installed on the left side of the lifting seat 22; an upper support 36 is fixed to the top of the mounting base 30; one end of the electric telescopic rod 35 is hinged to the left support 34; and the other end of the electric telescopic rod 35 is hinged to the upper support 36.
[0047] According to the above technical solution, the mounting base 30 is provided with a clamping mechanism 26; the mounting base 30 is respectively rotatably provided with a driven pulley 31 and a driving pulley 32, the drive motor drives the driving pulley 32 to rotate, and the driving pulley 32 drives the belt 33 to drive the driven pulley 31 to rotate.
[0048] According to the above technical solution, the active belt pulley 32 is provided with a clamping mechanism 26, which includes a second motor 37, a drive shaft 38, a first bevel gear 39, a support base 40, a first lead screw 41, a vertical plate 44, and a horizontal plate 45.
[0049] According to the above technical solution, by adopting an intelligent control system and integrating reagent delivery, mixing, and detection, labor costs are greatly reduced. This invention uses disposable reagent cartridges, where reagents are mixed and then directly delivered to the detection device, reducing the number of delivery mechanisms and storage components. During subsequent tests, secondary contamination is avoided, and the cleaning of numerous components and processes is also reduced, significantly lowering costs and testing time.
[0050] According to a second embodiment of the present invention, such as Figures 5-7 In the clamping mechanism 26 of the present invention, a second motor 37 is installed on the active belt pulley 32. The second motor 37 is rotatably connected to a drive shaft 38. A first bevel gear 39 is fixed at one end of the drive shaft 38. A second bevel gear 42 is meshed on both sides of the first bevel gear 39. The left and right bevel gears 42 are respectively connected to lead screws 41. The left and right lead screws 41 are rotatably installed in the left and right support seats 40 respectively. Nuts 43 are screwed onto the left and right lead screws 41 respectively. A vertical plate 44 is fixedly connected to one side of the nut 43. A horizontal plate 45 is vertically connected to the upper part of the vertical plate 44.
[0051] According to the above technical solution, one end of the support rod 50 is hinged to the middle of the vertical plate 44, and the other end of the support rod 50 is hinged to the elastic arc plate 46. One end of the support rod 51 is hinged to the horizontal plate 45, and the other end of the support rod 51 is hinged to the elastic arc plate 46. A spring 47 is connected between the vertical plate 44 and the elastic arc plate 46, and a spring 49 is connected between the horizontal plate 45 and the elastic arc plate 46. The corner seat 48 is a rigid component and is a columnar body with a fan-shaped cross-section. One plane of the corner seat 48 is attached to the vertical plate 44, and the other plane of the corner seat 48 is attached to the horizontal plate 45.
[0052] According to the above technical solution, the clamping mechanism employs an elastic arc plate and a rigid corner seat in cooperation. During clamping, the elastic arc plate can fully enclose the reagent cylinder, improving clamping stability. Simultaneously, when the elastic arc plate contacts the rigid corner seat, it receives stable support from the rigid corner seat. Furthermore, under the action of support rods one and two and the spring, the elastic arc plate achieves stable buffering and support stability during clamping.
[0053] According to the above technical solution, a position sensor 2 52 is installed on the side of the mounting base 30 facing the transmission mechanism 10. The controller 25 is electrically connected to the position sensor 4, electromagnet 6, pump 13, mixed reagent detection device 14, pump 2 15, electric telescopic rod 21, motor 1 23, electric telescopic rod 2 35, motor 2 37, and position sensor 2 52.
[0054] According to a third embodiment of the present invention, the present invention relates to a method for operating the above-mentioned smart reagent kit, comprising:
[0055] Step 1: Users log in and register via touchscreen 2. Login information includes binding the mobile phone number of the person being tested and selecting the blood test function.
[0056] Step 2: According to the signal from the touch screen 2, the controller 25 controls the conveying mechanism 10 to convey the mixing cylinder 9 to the area directly below the detection port 3 and opens the cover 5. The user pours the pre-extracted blood into the mixing cylinder 9.
[0057] Step 3: Controller 25 controls motor 23 to rotate, causing scissor mechanism 18 to rise and fall, and controls electric telescopic rod 21 to extend, causing clamping mechanism 26 to move to mixing cylinder 9; position sensor 52 monitors the position of clamping mechanism 26 in real time, and after clamping mechanism 26 approaches mixing cylinder 9 from the side to a preset distance, controls motor 37 to rotate, opens clamping mechanism 26, and clamps mixing cylinder 9.
[0058] Step 4: The controller 25 controls the clamp 26 to move to one side of the test reagent cylinder 12 and clamps the mixing cylinder 9 to the left, so that the left tube of the mixing cylinder 9 is connected to the test reagent cylinder 12. The controller controls the pump 13 to deliver the test reagent quantitatively into the mixing cylinder 9. The controller controls the mixing cylinder 9 to detach from the test reagent cylinder 12 and controls the clamping mixing cylinder 9 to rotate, so that the blood and test reagent are fully mixed.
[0059] Step 5: The controller 25 continues to control the clamp 26 to move to one side of the mixed reagent detection device 14, and clamps the mixing cylinder 9 to move to the right, so that the right side tube of the mixing cylinder 9 is connected to the mixed reagent detection device 14, and controls the pump 2 15 to deliver the mixed reagent to the mixed reagent detection device 14; move the mixing cylinder 9 directly above the waste pool 24, open the clamping mechanism 26, and put the mixing cylinder 9 into the waste pool 24;
[0060] Step 6: After a preset time, the mixed reagent detection device 14 sends the detection results to the user via SMS.
[0061] In summary, compared to existing technologies, this invention significantly reduces labor costs by employing an intelligent control system that integrates reagent delivery, mixing, and detection. This invention uses disposable reagent cartridges to mix reagents and directly delivers the mixed reagents to the detection device, reducing the number of delivery mechanisms and storage components. During subsequent tests, it avoids secondary contamination and also reduces the need for cleaning numerous components and processes, greatly lowering costs and reducing detection time.
[0062] Secondly, the moving mechanism in this application adopts a scissor mechanism, which can improve the flexibility and stability of the clamping mechanism's movement. At the same time, due to the advantages of the structure in this application, the structural strength of the support is improved.
[0063] Finally, this application incorporates a reversible clamping mechanism that allows for stable 90° rotation, significantly meeting the needs of reagent cylinder transportation and rotation. Furthermore, the clamping mechanism utilizes a combination of an elastic arc plate and a rigid corner seat. During clamping, the elastic arc plate fully encloses the reagent cylinder, enhancing clamping stability. Simultaneously, when the elastic arc plate contacts the rigid corner seat, it receives stable support from the seat. Additionally, the elastic arc plate, under the action of support rods one and two and the spring, provides stable buffering and support stability during clamping.
[0064] Although preferred embodiments have been described herein, those skilled in the art, upon learning the basic inventive concept, can make other changes and modifications to these embodiments. Therefore, the appended claims are intended to be interpreted as including the preferred embodiments as well as all changes and modifications falling within the scope of this document.
[0065] Obviously, those skilled in the art can make various modifications and variations to this document without departing from its spirit and scope. Thus, if such modifications and variations fall within the scope of the claims and their equivalents, the intent of this document also includes such modifications and variations.
Claims
1. A smart reagent kit, comprising a housing (1), a touch screen (2), a detection port (3), a transmission mechanism (10), and a mixed reagent detection... The measuring device (14), the controller (25), the clamping mechanism (26) are characterized by: The housing (1) slides below the detection port (3). A cover plate (5) is installed, and a position sensor (4) is installed at the top inside the housing (1). An electromagnetic sensor is installed on the right side of the cover plate (5). Electromagnet 1 (6) is mounted on the right side of electromagnet 1 (6), and electromagnet 2 (8) is fixed to the right side of said spring 1 (7). The electromagnet 2 (8) is fixedly installed inside the top of the housing (1); a transmission mechanism (10) is installed on the upper part of the housing (1), the transmission mechanism The structure (10) includes: a drive wheel (27), a conveyor belt (28), and a driven wheel (29), and the mixing drum is conveyed on the transmission mechanism (10). (9) The mixing cylinder (9) includes a funnel (91), a one-way valve, and a cylinder (94), with the funnel (91) fixed to the top of the cylinder (94). The cylinder (94) has pipes fixed on its left and right sides respectively, and one-way valves are installed in the pipes respectively; A motor (23) is installed at the bottom of the housing (1). The motor (23) is connected to a lead screw (11), and a nut (19) is screwed onto the lead screw (11). The right side of the nut (19) is fixedly connected to a support leg on the left side of the scissor mechanism (18). The other support leg on the left side of the scissor mechanism (18) is connected to a slider (20), which is slidably mounted on the lead screw (11). A lifting seat (22) is fixedly connected to one of the support legs on the right side of the scissor mechanism (18). The other leg on the right side of the scissor mechanism (18) is slidably connected to the lifting seat (22).
2. The smart kit of claim 1, wherein: The bottom of the housing (1) is equipped with a waste Pool (24), controller (25), the housing (1) is fixed with support plate one (16) and support plate two (17) on the left and right sides of the middle part, respectively. A reagent cylinder (12) is fixed on the first support plate (16), and a mixed reagent detection device is fixed on the second support plate (17). (14); The test reagent tube (12) is connected to a tube on the right side, and a flared nozzle is connected to the right side of the tube. A pump (13) is installed inside the tube. The mixed reagent detection device (14) has a tube connected to its left side, a flared nozzle connected to the left side of the tube, and a pump (15) installed inside the tube.
3. The intelligent reagent kit according to claim 2, characterized in that: The left side of the lifting seat (22) is rotated. A mounting base (30) is connected; the lifting seat (22) is rotatably connected to the left side of the mounting base (30); the left side of the lifting seat (22) is mounted with a mounting base (30). Equipped with a left support (34), the mounting base (30) has an upper support (36) fixed to its top, and one end of the electric telescopic rod (35) is connected to the left support. The support (34) is hinged, and the other end of the electric telescopic rod (35) is hinged to the upper support (36).
4. The intelligent reagent kit according to claim 3, characterized in that: The mounting base (30) is provided with a clamp. Mechanism (26); the mounting base (30) is rotatably equipped with a driven pulley (31) and a driving pulley (32) to drive the motor. The driving pulley (32) rotates, and the driving pulley (32) drives the belt (33) to drive the driven pulley (31) to rotate.
5. The intelligent reagent kit according to claim 4, characterized in that: The drive pulley (32) is provided with The clamping mechanism (26) includes a second motor (37), a drive shaft (38), a first bevel gear (39), a support base (40), and a wire. Rod 2 (41), vertical plate (44), horizontal plate (45).
6. The intelligent reagent kit according to claim 5, characterized in that: The drive pulley (32) is equipped with Motor 2 (37), which is rotatably connected to a drive shaft (38), one end of which is fixed with a bevel gear. A (39), wherein bevel gear A (39) is meshed with bevel gear B on both sides, and bevel gear B (39) is connected to a left and a right bevel gear C (39) respectively. Lead screw two, the left and right lead screws are respectively rotatably installed in the left and right support seats, and the left and right lead screw two are divided into A second nut is screwed in, and a vertical plate (44) is fixedly connected to one side of the second nut. The upper part of the vertical plate (44) is vertical. A horizontal plate (45) is connected.
7. The intelligent reagent kit according to claim 6, characterized in that: One end of the support rod (50) is hinged to the In the middle of the vertical plate (44), the other end of the first support rod (50) is hinged to the elastic arc plate (46), and one end of the second support rod (51) is hinged to... On the horizontal plate (45), the other end of the second support rod (51) is hinged to the elastic arc plate (46), and the vertical plate (44) is connected to the elastic arc plate. A second spring (47) connects the plates (46), and a third spring (49) connects the horizontal plate (45) and the elastic arc plate (46). The base (48) is a rigid component, and the corner base (48) is a columnar body with a sector-shaped cross-section. One plane of the corner base (48) is attached to the vertical plate (44). The other plane of the corner bracket (48) is attached to the horizontal plate (45).
8. The intelligent reagent kit according to claim 7, characterized in that: The mounting base (30) faces the transmission mechanism. (10) has a position sensor 2 (52) installed on one side. The controller (25) is connected to the position sensor (4), electromagnet 1 (6), and pump respectively. 1 (13), Mixed reagent detection device (14), Pump 2 (15), Electric telescopic pole (21), Motor 1 (23), Electric telescopic pole 2 (35), Motor 2 (37), Position Sensor 2 (52) are electrically connected.
9. The method of operating a smart reagent kit according to any one of claims 1-8, characterized in that, include: Step 1: Users log in and register via touchscreen (2). Login information includes binding the mobile phone number of the testing personnel and selecting blood. Liquid detection function; Step 2: The controller (25) controls the transmission mechanism (10) to deliver the mixing cylinder (9) to the detection port according to the signal from the touch screen (2). (3) Directly below, and open the cover (5), the user pours the pre-extracted blood into the mixing cylinder (9); Step 3: The controller (25) controls the motor (23) to rotate, causing the scissor lift mechanism (18) to rise and fall, and controls the electric telescopic rod. (21) The clamping mechanism (26) extends to the mixing cylinder (9); position sensor 2 (52) monitors the clamping mechanism in real time. (26) Position: After the clamping mechanism (26) approaches the mixing cylinder (9) from the side to a preset distance, control motor two (37) to rotate, and... Open the clamping mechanism (26) and clamp the mixing cylinder (9); Step 4: The controller (25) controls the clamping mechanism (26) to move to one side of the test reagent tube (12) and clamps the mixing tube (9) to the left. The movement connects the left side tube of the mixing cylinder (9) to the reagent cylinder (12), and the pump (13) controls the quantitative delivery of the reagent to the mixing cylinder. In the mixing cylinder (9); control the mixing cylinder (9) to detach from the test reagent cylinder (12), control the rotation of the clamping mixing cylinder (9), so that the blood and The test reagents should be thoroughly mixed; Step 5, the controller (25) continues to control the clamping mechanism (26) to move to one side of the mixed reagent detection device (14) and clamp the mixed reagent. The cylinder (9) moves to the right, so that the right side tube of the mixing cylinder (9) is connected to the mixing reagent detection device (14), and the second pump (15) is controlled to mix the reagent. The reagent is delivered to the mixed reagent detection device (14); the mixing cylinder (9) is moved directly above the waste pool (24), and the clamping machine is opened. Structure (26), and put the mixing cylinder (9) into the waste pool (24); Step 6: After a preset time, the mixed reagent detection device (14) sends the detection results to the user via SMS. Users.