An automated skin autofluorescence value detection device and method
By designing disinfection and limiting components for an automated skin autofluorescence detection device, the problem of inconvenient airbag disinfection was solved, enabling timely disinfection of airbags and flexible applicability of the device, thus improving user experience and disinfection capabilities.
Patent Information
- Authority / Receiving Office
- CN · China
- Patent Type
- Patents(China)
- Current Assignee / Owner
- EAGLE MEDICAL TECH (ANHUI) CO LTD
- Filing Date
- 2023-05-04
- Publication Date
- 2026-06-05
AI Technical Summary
The airbags in existing skin autofluorescence detection devices are not easy to disinfect in a timely manner after use, which can easily lead to cross-infection of viruses, affecting the device's disinfection capabilities and user experience.
An automated skin autofluorescence detection device was designed, comprising a disinfection component and a limiting component. The device uses a motor-driven conveyor belt to move an airbag to squeeze the calibration plate, and utilizes a disinfection brush and water pump system to achieve automatic disinfection of the airbag. The device also adjusts the comfort of the tester through elastic components and a moving unit.
This technology enables timely disinfection of airbags, avoids cross-infection of viruses, improves the disinfection capability of the device and the user experience, and enhances the flexibility, applicability and ease of maintenance of the device.
Smart Images

Figure CN116421148B_ABST
Abstract
Description
Technical Field
[0001] This invention relates to the field of detection equipment technology, specifically to an automated skin autofluorescence detection device and method. Background Technology
[0002] Autofluorescence is the light naturally emitted by biological structures when they absorb light, and it is used to distinguish light from artificially added fluorescent labels. When a person is undergoing facial skin testing, an automated skin autofluorescence detection device is required. However, skin detection devices cannot be flexibly adjusted according to the person's body characteristics, increasing the person's discomfort during the testing process. For example, Chinese utility model patent CN213097831 U uses an adjustable airbag support method to improve the person's comfort. The movable rotating skin detection device achieves the technical effect of multi-directional adaptive rotating detection of the person's facial skin, solving the problem of not being able to flexibly adjust according to the person's body characteristics.
[0003] However, after use, the airbags of the aforementioned devices are not easily disinfected and sterilized in a timely manner, which can easily lead to cross-infection of viruses, affecting the device's disinfection capabilities, hygiene conditions, and ultimately, user experience. To address these technical shortcomings, we propose an automated skin autofluorescence detection device and method that can solve the above problems. Summary of the Invention
[0004] The purpose of this invention is to provide an automated device and method for detecting autofluorescence values in skin, thereby solving the following technical problems:
[0005] After use, the airbag is difficult to disinfect and sterilize in a timely manner, which can easily lead to cross-infection of viruses, affecting the device's disinfection ability, hygiene conditions, and ultimately the user experience. To address these issues, we propose an automated skin autofluorescence detection device and method that can solve the above problems.
[0006] The objective of this invention can be achieved through the following technical solutions:
[0007] An automated skin autofluorescence detection device includes a detection shell, a display screen fixedly mounted on one side of the detection shell, a detector fixedly mounted on the inner wall of the detection shell near the display screen, an electric telescopic rod provided on the inner bottom wall of the detection shell, a mounting frame rotatably mounted on the other end of the electric telescopic rod, a conveyor belt rotatably mounted inside the mounting frame, multiple airbags fixedly mounted on the conveyor belt, a second motor fixedly mounted on the mounting frame, a disinfection component provided on the mounting frame, the disinfection component including a disinfection brush, two elastic grooves formed at the end of the mounting frame away from the second motor, a second spring and a telescopic rod fixedly mounted on the inner wall of the elastic grooves, a mounting plate fixedly mounted at the end of the telescopic rod away from the elastic grooves, the disinfection brush mounted on the mounting plate, a disinfection box fixedly mounted at the side of the mounting frame near the electric telescopic rod, a water pump fixedly mounted at the side of the disinfection box near the disinfection brush, a flexible hose connected between the water pump and the disinfection brush, a limit component provided on the mounting plate, and a moving unit and an elastic component provided on the detection shell.
[0008] As a further aspect of the present invention: the moving unit includes a moving block, a moving groove is provided on the bottom wall of the detection shell, a reciprocating screw is rotatably installed in the moving groove, the moving block is threaded through and installed on the reciprocating screw, and a first motor is fixedly installed on the detection shell.
[0009] As a further aspect of the present invention: the output end of the first motor slides through the moving groove and is fixedly installed on the inner wall of the reciprocating screw; the output end of the second motor slides through the mounting frame and is fixedly installed on the drive shaft of the conveyor belt; and the electric telescopic rod is fixedly installed on the side of the moving block away from the moving groove.
[0010] As a further embodiment of the present invention: calibration plates are fixedly installed on both sides of the mounting plate, mounting grooves are provided on the mounting plate, the disinfection brush is slidably installed through the mounting grooves, the end of the second spring near the disinfection brush is fixedly installed on the mounting plate, the second spring is nested on the outer surface of the telescopic rod, the number of disinfection boxes is two, and a connecting pipe is installed between the two disinfection boxes.
[0011] As a further aspect of the present invention: the elastic component includes a first spring, a rectangular through hole is provided at the end of the detection shell away from the reciprocating screw, a slider is slidably installed in the rectangular through hole, the first spring is fixedly installed on the side of the slider near the display screen, a connecting rod is fixedly installed on the side of the slider near the mounting frame, and a hairband is rotatably installed at the end of the connecting rod away from the slider.
[0012] As a further embodiment of the present invention: a stabilizing rod is slidably mounted on the slider, both ends of the stabilizing rod are fixedly mounted on the inner wall of the rectangular through hole, one end of the first spring material slider is fixedly mounted on the inner wall of the rectangular through hole, the first spring is nested on the outer surface of the stabilizing rod, and waist-shaped through holes are opened on both sides of the rectangular through hole. A limiting post is slidably mounted in the waist-shaped through hole, and one end of the limiting post near the stabilizing rod is fixedly mounted on the slider.
[0013] As a further embodiment of the present invention: the limiting component includes a limiting rod, and a storage groove is provided on the side of the mounting plate away from the telescopic rod at both ends. The limiting rod is slidably installed through the storage groove on the side of the mounting groove near the mounting groove. A baffle is fixedly installed on the limiting rod, and an irregularly shaped spring is fixedly installed on the side of the baffle away from the mounting groove. A pull ring is slidably installed on the end of the limiting rod away from the mounting groove through the mounting plate and rotated. Limiting holes are provided at both ends of the disinfection brush at positions corresponding to the limiting rod.
[0014] As a further embodiment of the present invention: the end of the irregularly shaped spring piece away from the baffle is fixedly installed on the inner wall of the storage groove, a round hole is opened on the irregularly shaped spring piece, the limiting rod is slidably installed through the round hole, and the limiting rod is inserted into the limiting hole.
[0015] A method for using an automated skin autofluorescence detection device includes the following steps;
[0016] First, the subject's chin is placed on the conveyor belt. Then, a headband is simultaneously installed on the subject's hair. Next, the electric telescopic rod is activated to adjust the subject's face to an appropriate height. Then, the first motor is activated to drive the reciprocating screw to rotate in the moving slot. At the same time, the reciprocating screw drives the electric telescopic rod and the mounting frame to move towards the detector through the moving block. Simultaneously, the mounting frame moves the subject's face towards the detector. At the same time, the headband drives the slider to slide in the rectangular through hole through the connecting rod, compressing the first spring. Then, the detector is activated to test the subject, and the test results are transmitted to the display screen.
[0017] Then, the tester gets off the airbag, and the second motor is started to drive the conveyor belt to rotate. At the same time, the conveyor belt causes the airbag to squeeze the calibration plate, and the calibration plate stretches the second spring and telescopic rod through the mounting plate. Meanwhile, the disinfection brush disinfects the airbag, and the water pump is started to transport the disinfectant in the disinfection box to the disinfection brush through the hose. Finally, the limit component is operated to replace and repair the disinfection brush.
[0018] The beneficial effects of this invention are:
[0019] (1) The disinfection component drives the conveyor belt to rotate by starting the second motor. At the same time, the airbag is squeezed by the conveyor belt and the calibration plate is stretched by the mounting plate through the second spring and the telescopic rod. Meanwhile, one side of the airbag slides over the disinfection brush. The disinfection brush can evenly apply disinfectant to disinfect the airbag and the conveyor belt, which facilitates timely disinfection operation and avoids cross-infection of viruses as much as possible. It is beneficial to improve the disinfection capacity of the device, improve the hygiene conditions of the device, and improve the user experience of the device.
[0020] (2) The elastic component allows the chin of the tester to be placed on the conveyor belt, and then the headband is installed on the tester's hair. Then the first motor is started to drive the reciprocating screw to rotate. At the same time, the reciprocating screw drives the electric telescopic rod and the mounting frame to move towards the detector through the moving block. At the same time, the mounting frame drives the tester's face to move towards the detector. At the same time, the headband drives the slider to slide in the rectangular through hole through the connecting rod to squeeze the first spring. Then the detector is started to test the tester. Then the test results are transmitted to the display screen. The headband plays the role of binding the hair. Under the movement of the tester's face, the position of the headband can be adjusted elastically, which is convenient for operation and use. It is beneficial to improve the elastic adjustment capability of the device and improve the flexibility and applicability of the device.
[0021] (3) The limiting component pulls the ring to retract the limiting rod into the storage slot, and at the same time, the limiting rod drives the baffle to squeeze the irregularly shaped spring. Then, the disinfection brush is inserted into the installation slot. Then, the ring is released, and the baffle drives the limiting rod to be inserted into the limiting hole. This makes it easy to limit the installation of the disinfection brush, easy to install and disassemble, easy to replace and maintain the disinfection brush, which helps to improve the disinfection capacity of the device, improve the work efficiency of device replacement and maintenance, and extend the service life of the device. Attached Figure Description
[0022] The invention will now be further described with reference to the accompanying drawings.
[0023] Figure 1 This is a schematic diagram of the overall structure of an automated skin autofluorescence detection device according to the present invention;
[0024] Figure 2 yes Figure 1 Enlarged structural diagram at point A;
[0025] Figure 3 This is a schematic diagram of the internal structure of an automated skin autofluorescence detection device according to the present invention;
[0026] Figure 4 yes Figure 3 Enlarged structural diagram at point B;
[0027] Figure 5This is a top view schematic diagram of an automated skin autofluorescence value detection device according to the present invention;
[0028] Figure 6 yes Figure 5 Enlarged structural diagram at point C;
[0029] Figure 7 This is a bottom view schematic diagram of the automated skin autofluorescence value detection device of the present invention;
[0030] Figure 8 yes Figure 7 A magnified structural diagram at point D.
[0031] In the diagram: 1. Detection shell; 2. Display screen; 3. Detector; 4. Mounting frame; 5. Elastic component; 51. Rectangular through hole; 52. Waist-shaped through hole; 53. Limiting post; 54. Slider; 55. First spring; 56. Hairband; 57. Connecting rod; 58. Stabilizing rod; 6. Disinfection component; 61. Elastic groove; 62. Second spring; 63. Telescopic rod; 64. Mounting plate; 65. Calibration plate; 66. Mounting groove; 67. Disinfection brush; 68. Hose; 69. Water pump; 610. Disinfection box; 611. Connecting pipe; 7. Limiting component; 71. Pull ring; 72. Limiting rod; 73. Baffle; 74. Irregularly shaped spring; 75. Storage groove; 76. Limiting hole; 8. Electric telescopic rod; 9. Moving groove; 10. Reciprocating screw; 11. Moving block; 12. First motor; 13. Airbag; 14. Conveyor belt; 15. Second motor. Detailed Implementation
[0032] The technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings. Obviously, the described embodiments are only some embodiments of the present invention, and not all embodiments. Based on the embodiments of the present invention, all other embodiments obtained by those skilled in the art without creative effort are within the scope of protection of the present invention.
[0033] Example 1
[0034] Please see Figure 1 - Figure 8As shown, this invention is an automated skin autofluorescence value detection device, including a detection shell 1. A display screen 2 is fixedly installed on one side of the detection shell 1. The display screen 2 is used to display the detection results of the detector 3. The detector 3 is fixedly installed on the inner wall of the detection shell 1 near the display screen 2. The detector 3 facilitates automatic detection of the fluorescence value of the subject's skin, providing a direct and intuitive understanding of the subject's physical condition. An electric telescopic rod 8 is provided on the inner bottom wall of the detection shell 1. A mounting frame 4 is rotatably installed at the other end of the electric telescopic rod 8. A conveyor belt 14 is rotatably installed inside the mounting frame 4. Multiple airbags 13 are fixedly installed on the conveyor belt 14 to increase the comfort of the subject's chin. A second motor 15 is fixedly installed on the mounting frame 4. The output end of motor 5 slides through the mounting frame 4 and is fixedly mounted on the drive shaft of the conveyor belt 14. The second motor 15 drives the conveyor belt 14 to rotate. The electric telescopic rod 8 is fixedly mounted on the side of the moving block 11 away from the moving groove 9. The mounting frame 4 is equipped with a disinfection component 6, which includes a disinfection brush 67. Two elastic grooves 61 are opened at the end of the mounting frame 4 away from the second motor 15. A second spring 62 and a telescopic rod 63 are fixedly installed on the inner wall of the elastic grooves 61. The telescopic rod 63 plays the role of supporting and stabilizing the mounting plate 64. The mounting plate 64 is fixedly installed at the end of the telescopic rod 63 away from the elastic grooves 61. Calibration plates 65 are fixedly installed on both sides of the mounting plate 64. The calibration plates 65 play the role of reducing the resistance of the mounting plate 64. The mounting plate 64 is provided with a mounting bracket. The installation slot 66 houses a disinfection brush 67, which slides through the slot. The disinfection brush 67 evenly applies disinfectant to the airbag 13, facilitating timely disinfection of the conveyor belt 14 and minimizing the risk of cross-infection. A second spring 62, located near the disinfection brush 67, is fixedly mounted on the mounting plate 64. The second spring 62 is nested on the outer surface of the telescopic rod 63, ensuring a tight fit between the mounting plate 64 and the airbag 13. A disinfection box 610 is fixedly mounted on the side of the mounting frame 4 near the electric telescopic rod 8. Two disinfection boxes 610 are used to store disinfectant, and a connecting pipe 611 connects the two boxes. A water pump 69 is fixedly installed on the side of the disinfection box 610 near the disinfection brush 67. A flexible hose 68 connects the water pump 69 and the disinfection brush 67. A limit component 7 is provided on the mounting plate 64. A moving unit and an elastic component 5 are provided on the detection shell 1. The moving unit includes a moving block 11. A moving groove 9 is opened in the bottom wall of the detection shell 1. A reciprocating screw 10 is rotatably installed in the moving groove 9. The moving block 11 is threaded through and installed on the reciprocating screw 10. A first motor 12 is fixedly installed on the detection shell 1. The output end of the first motor 12 slides through the moving groove 9 and is fixedly installed on the inner wall of the reciprocating screw 10. The first motor 12 drives the reciprocating screw 10 to rotate, which facilitates adjustment and control of the distance between the test subject's face and the detector 3. This facilitates adjustment and use.First, the second motor 15 and water pump 69 are started, causing the water pump 69 to transport the disinfectant solution in the disinfection tank 610 to the disinfection brush 67 through the hose 68. Simultaneously, the output of the second motor 15 drives the conveyor belt 14 to rotate, causing the conveyor belt 14 to move the airbag 13 synchronously. The airbag 13, driven by the conveyor belt 14, compresses the calibration plate 65, causing the calibration plate 65 to stretch the second spring 62 and the telescopic rod 63 through the mounting plate 64. With the second spring 62 and the telescopic rod 63 in a stretched state, one side of the airbag 13 slides across the disinfection brush 67, allowing the disinfection brush 67 to evenly apply disinfectant solution to the airbag 13 and the conveyor belt 14 for disinfection and sterilization. This facilitates timely disinfection operations, minimizes the risk of cross-infection, improves the device's disinfection capacity, enhances its hygiene, and improves the user experience.
[0035] Example 2
[0036] Please see Figure 1 - Figure 3As shown, based on Embodiment 1, the elastic component 5 includes a first spring 55. A rectangular through hole 51 is provided at the end of the detection housing 1 away from the reciprocating screw 10. A slider 54 is slidably installed through the rectangular through hole 51. The first spring 55 is fixedly installed on the side of the slider 54 near the display screen 2. A connecting rod 57 is fixedly installed on the side of the slider 54 near the mounting frame 4. A headband 56 is rotatably installed at the end of the connecting rod 57 away from the slider 54. The headband 56 facilitates tying up the tester's hair, minimizing the possibility of hair affecting the tester's face. A stabilizing rod 58 is slidably installed through the slider 54, with both ends of the stabilizing rod 58 fixedly installed in the rectangular through hole 51. On the inner wall, the stabilizing rod 58 serves to stabilize and support the slider 54. The first spring 55, along with one end of the slider 54, is fixedly installed on the inner wall of the rectangular through hole 51. The first spring 55 is nested on the outer surface of the stabilizing rod 58, and it serves to elastically reset the slider 54. On both sides of the rectangular through hole 51, there are oblong through holes 52, which provide the range of motion for the limiting post 53. The limiting post 53 is slidably installed within the oblong through hole 52, and one end of the limiting post 53 near the stabilizing rod 58 is fixedly installed on the slider 54. The limiting post 53 serves to limit and support the slider 54. When using the device, first place the chin of the tester... On the conveyor belt 14, the headband 56 is simultaneously installed on the tester's hair. Then, the electric telescopic rod 8 is activated, causing the moving mounting frame 4 to move upward. Simultaneously, the mounting frame 4, via the conveyor belt 14, drives the airbag 13 to adjust the tester's face to an appropriate height. Then, the first motor 12 is activated, causing its output to drive the reciprocating screw 10 to rotate. Simultaneously, the reciprocating screw 10 drives the moving block 11 to rotate within the moving groove 9. Simultaneously, the moving block 11 drives the electric telescopic rod 8 and the mounting frame 4 to move towards the detector 3. Simultaneously, the mounting frame 4 moves the tester's face towards the detector 3, and the headband 56, via the connecting rod 57, moves... The slider 54 slides within the rectangular through hole 51, simultaneously pressing the first spring 55 against the stabilizing rod 58, thus compressing the first spring 55. Simultaneously, the slider 54 drives the limiting post 53 to slide within the oblong through hole 52. When the examinee's face is adjusted to an appropriate distance from the detector 3, the detector 3 is activated to examine the examinee, and the results are transmitted to the display screen 2 for analysis and diagnosis by the doctor. The headband 56 serves to bind the hair, and its position can be easily adjusted elastically under the influence of the examinee's face, facilitating operation and improving the device's elastic adjustment capability and flexibility.
[0037] Example 3
[0038] Please see Figure 7 - Figure 8As shown in Embodiments 1 and 2, the limiting component 7 includes a limiting rod 72. A receiving groove 75 is provided on the side of the mounting plate 64 furthest from the telescopic rod 63 at both ends. The limiting rod 72 is slidably installed through the receiving groove 75 on the side near the mounting groove 66. A baffle 73 is fixedly installed on the limiting rod 72, inside the receiving groove 75, and fixedly positioned in the middle of the limiting rod 72. The baffle 73 serves to limit and compress the irregularly shaped spring piece 74. A shaped spring piece 74 is fixedly installed on the side of the baffle 73 away from the mounting groove 66. A pull ring 71 is rotatably installed on the end of the limiting rod 72 away from the mounting groove 66, which slides through the mounting plate 64. The pull ring 71 pulls the limiting rod 72. Limiting holes 76 are opened at both ends of the disinfection brush 67 at positions corresponding to the limiting rod 72. The limiting rod 72 is inserted into the limiting holes 76 to secure the disinfection brush 67 within the mounting groove 66. The shaped spring piece 74 is located away from the baffle 74. One end of the device 3 is fixedly installed on the inner wall of the storage groove 75. The irregularly shaped spring piece 74 plays the role of elastically resetting the limiting rod 72. The irregularly shaped spring piece 74 has a round hole, and the limiting rod 72 is slidably installed in the round hole. When using the device, first pull the pull ring 71, so that the pull ring 71 drives the limiting rod 72 to retract from the installation groove 66 into the storage groove 75. At the same time, the limiting rod 72 drives the baffle 73 to squeeze the irregularly shaped spring piece 74, and at the same time, the irregularly shaped spring piece 74 is in a compressed state. After the limiting rod 72 has retracted into the storage groove 75, then the disinfection brush 67 is inserted into the installation groove 66. Then, the pull ring 71 is released, so that the baffle 73, under the elastic force of the irregularly shaped spring piece 74, drives the limiting rod 72 to be inserted into the limiting hole 76. This makes it easy to limit the installation of the disinfection brush 67, easy to install and remove, easy to replace and maintain the disinfection brush 67, which helps to improve the disinfection capacity of the device, improves the work efficiency of device replacement and maintenance, and helps to extend the service life of the device.
[0039] A method for using an automated skin autofluorescence detection device includes the following steps;
[0040] First, place the subject's chin on the conveyor belt 14, then simultaneously install the headband 56 on the subject's hair. Then, start the electric telescopic rod 8 to adjust the subject's face to an appropriate height. Then, start the first motor 12 to drive the reciprocating screw 10 to rotate in the moving groove 9. At the same time, the reciprocating screw 10 drives the electric telescopic rod 8 and the mounting frame 4 to move towards the detector 3 through the moving block 11. Simultaneously, the mounting frame 4 drives the subject's face to move towards the detector 3. At the same time, the headband 56 drives the slider 54 to slide and compress the first spring 55 in the rectangular through hole 51 through the connecting rod 57. Then, start the detector 3 to test the subject and transmit the test results to the display screen 2.
[0041] Then, the tester gets off the airbag 13, and the second motor 15 is started to drive the conveyor belt 14 to rotate. At the same time, the conveyor belt 14 drives the airbag 13 to squeeze the calibration plate 65. Simultaneously, the calibration plate 65 stretches the second spring 62 and the telescopic rod 63 through the mounting plate 64. At the same time, the disinfection brush 67 disinfects the airbag 13. Meanwhile, the water pump 69 is started to transport the disinfectant in the disinfection box 610 to the disinfection brush 67 through the hose 68. Finally, the limit component 7 is operated to replace and repair the disinfection brush 67.
[0042] The working principle of this invention is as follows: When using the device, first pull the pull ring 71, causing the pull ring 71 to retract the limiting rod 72 from the mounting groove 66 into the receiving groove 75. Simultaneously, the limiting rod 72 causes the baffle 73 to compress the irregularly shaped spring piece 74, keeping the irregularly shaped spring piece 74 in a compressed state. After the limiting rod 72 has completely retracted into the receiving groove 75, then move the disinfection brush 67 into the mounting groove 66. Then release the pull ring 71, allowing the baffle 73, under the elastic force of the irregularly shaped spring piece 74, to move the limiting rod 72 into the limiting hole 76, facilitating the limiting installation of the disinfection brush 67 and allowing the detection... The subject's chin is placed on conveyor belt 14, and simultaneously, a hairband 56 is installed on the subject's hair. Then, the electric telescopic rod 8 is activated, causing the mounting frame 4 to move upwards. Simultaneously, the mounting frame 4, via conveyor belt 14, moves the airbag 13 to adjust the subject's face to an appropriate height. Then, the first motor 12 is activated, causing its output to drive the reciprocating screw 10 to rotate. Simultaneously, the reciprocating screw 10 drives the moving block 11 to rotate within the moving groove 9. At the same time, the moving block 11 moves the electric telescopic rod 8 and the mounting frame 4 towards the detector 3. The mounting frame 4 moves the subject's face toward the detector 3, while the headband 56, via the connecting rod 57, causes the slider 54 to slide within the rectangular through-hole 51. Simultaneously, the slider 54 slides on the stabilizing rod 58, compressing the first spring 55. The slider 54 also causes the limiting post 53 to slide within the oblong through-hole 52. When the subject's face is at an appropriate distance from the detector 3, the detector 3 is activated to detect the subject. The detection results are then transmitted to the display screen 2. The subject then dismounts from the airbag 13, and the system is activated. The second motor 15 and the water pump 69 cause the water pump 69 to transport the disinfectant solution in the disinfection box 610 to the disinfection brush 67 through the hose 68. At the same time, the output end of the second motor 15 drives the conveyor belt 14 to rotate, and the conveyor belt 14 drives the airbag 13 to move synchronously. The airbag 13 is driven by the conveyor belt 14 to squeeze the calibration plate 65. At the same time, the calibration plate 65 stretches the second spring 62 and the telescopic rod 63 through the mounting plate 64, so that the second spring 62 and the telescopic rod 63 are in a stretched state. Meanwhile, one side of the airbag 13 slides over the disinfection brush 67, which facilitates timely disinfection and sterilization.
[0043] The foregoing has provided a detailed description of one embodiment of the present invention, but this description is merely a preferred embodiment and should not be construed as limiting the scope of the invention. All equivalent variations and modifications made within the scope of the claims of this invention should still fall within the patent coverage of this invention.
Claims
1. An automated skin autofluorescence detection device, comprising a detection shell (1), characterized in that: A display screen (2) is fixedly installed on one side of the detection shell (1). A detector (3) is fixedly installed on the inner wall of the detection shell (1) near the display screen (2). An electric telescopic rod (8) is provided on the inner bottom wall of the detection shell (1). An installation frame (4) is rotatably installed on the other end of the electric telescopic rod (8). A conveyor belt (14) is rotatably installed inside the installation frame (4). Multiple airbags (13) are fixedly installed on the conveyor belt (14). A second motor (15) is fixedly installed on the installation frame (4). A disinfection component (6) is provided on the installation frame (4). The disinfection component (6) includes a disinfection brush (67). Two airbags are opened at the end of the installation frame (4) away from the second motor (15). An elastic groove (61) is provided, on the inner wall of which a second spring (62) and a telescopic rod (63) are fixedly installed. An installation plate (64) is fixedly installed at the end of the telescopic rod (63) away from the elastic groove (61). The disinfection brush (67) is installed on the installation plate (64). A disinfection box (610) is fixedly installed on the side of the installation frame (4) near the electric telescopic rod (8). A water pump (69) is fixedly installed on the side of the disinfection box (610) near the disinfection brush (67). A hose (68) is installed between the water pump (69) and the disinfection brush (67). A limit component (7) is provided on the installation plate (64). A moving unit and an elastic component (5) are provided on the detection shell (1). The moving unit includes a moving block (11), and a moving groove (9) is provided on the bottom wall of the inner wall of the detection shell (1). A reciprocating screw (10) is rotatably installed in the moving groove (9). The moving block (11) is threaded through and installed on the reciprocating screw (10). A first motor (12) is fixedly installed on the detection shell (1). The output end of the first motor (12) slides through the moving groove (9) and is fixedly installed on the inner wall of the reciprocating screw (10). The output end of the second motor (15) slides through the mounting frame (4) and is fixedly installed on the drive shaft of the conveyor belt (14). The electric telescopic rod (8) is fixedly installed on the side of the moving block (11) away from the moving groove (9). A calibration plate (65) is fixedly installed on both sides of the mounting plate (64). A mounting groove (66) is provided on the mounting plate (64). The disinfection brush (67) is slidably installed through the mounting groove (66). The end of the second spring (62) near the disinfection brush (67) is fixedly installed on the mounting plate (64). The second spring (62) is nested on the outer surface of the telescopic rod (63). There are two disinfection boxes (610). A connecting pipe (611) is installed between the two disinfection boxes (610). The elastic component (5) includes a first spring (55). A rectangular through hole (51) is provided at one end of the detection shell (1) away from the reciprocating screw (10). A slider (54) is slidably installed through the rectangular through hole (51). The first spring (55) is fixedly installed on the side of the slider (54) near the display screen (2). A connecting rod (57) is fixedly installed on the side of the slider (54) near the mounting frame (4). A hairband (56) is rotatably installed at the end of the connecting rod (57) away from the slider (54). The method of using the testing equipment includes the following steps; First, place the chin of the person being tested on the conveyor belt (14), and then simultaneously install the headband (56) on the hair of the person being tested. Then, start the electric telescopic rod (8) to adjust the face of the person being tested to an appropriate height. Then, start the first motor (12) to drive the reciprocating screw (10) to rotate in the moving groove (9). At the same time, the reciprocating screw (10) drives the electric telescopic rod (8) and the mounting frame (4) to move towards the detector (3) through the moving block (11). At the same time, the mounting frame (4) drives the face of the person being tested to move towards the detector (3). At the same time, the headband (56) drives the slider (54) to slide and squeeze the first spring (55) in the rectangular through hole (51) through the connecting rod (57). Then, start the detector (3) to test the person being tested, and then transmit the test results to the display screen (2). Then, the tester gets off the airbag (13), and the second motor (15) is started to drive the conveyor belt (14) to rotate. At the same time, the conveyor belt (14) drives the airbag (13) to squeeze the calibration plate (65). At the same time, the calibration plate (65) stretches the second spring (62) and the telescopic rod (63) through the mounting plate (64). At the same time, the disinfection brush (67) disinfects the airbag (13). At the same time, the water pump (69) is started to transport the disinfectant in the disinfection box (610) to the disinfection brush (67) through the hose (68). Finally, the limit component (7) is operated to replace and repair the disinfection brush (67).
2. The automated skin autofluorescence detection device according to claim 1, characterized in that: A stabilizing rod (58) is slidably installed on the slider (54). Both ends of the stabilizing rod (58) are fixedly installed on the inner wall of the rectangular through hole (51). The end of the first spring (55) away from the slider (54) is fixedly installed on the inner wall of the rectangular through hole (51). The first spring (55) is nested on the outer surface of the stabilizing rod (58). Waist-shaped through holes (52) are opened on both sides of the rectangular through hole (51). A limiting post (53) is slidably installed in the waist-shaped through hole (52). The end of the limiting post (53) near the stabilizing rod (58) is fixedly installed on the slider (54).
3. The automated skin autofluorescence detection device according to claim 1, characterized in that: The limiting component (7) includes a limiting rod (72). The mounting plate (64) has a storage groove (75) on one side away from the telescopic rod (63) at both ends. The limiting rod (72) is slidably installed on the side of the storage groove (75) near the mounting groove (66). A baffle (73) is fixedly installed on the limiting rod (72). A shaped spring piece (74) is fixedly installed on the side of the baffle (73) away from the mounting groove (66). A pull ring (71) is rotatably installed on one end of the limiting rod (72) away from the mounting groove (66). Limiting holes (76) are opened at both ends of the disinfection brush (67) at positions corresponding to the limiting rod (72).
4. The automated skin autofluorescence detection device according to claim 3, characterized in that: The irregularly shaped spring piece (74) is fixedly installed on the inner wall of the storage groove (75) at one end away from the baffle (73). A round hole is provided on the irregularly shaped spring piece (74), and the limiting rod (72) is slidably installed in the round hole. The limiting rod (72) is inserted into the limiting hole (76).