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CN-117426800-B - Automatic control sampling equipment

CN117426800BCN 117426800 BCN117426800 BCN 117426800BCN-117426800-B

Abstract

The invention relates to automatic control sampling equipment, which belongs to the technical field of automatic equipment and solves the problem that throat swab collecting staff is easy to be infected, and comprises a shell plate, a test tube bar code scanner, a display controller, a first open slot, an ultrasonic sensor, a card reader, a reciprocating motion power device, a rotating telescopic device and a sampling device, wherein 6 shell plates are spliced into a square shell, the surface of the first shell plate is provided with the test tube bar code scanner and the display controller, the surface of the second shell plate adjacent to the first shell plate is provided with the card reader and the ultrasonic sensor, and the reciprocating motion power device is arranged in the square shell. The distance between the person to be collected and the throat swab collection staff is 90 degrees, so that the spray of the person to be collected is prevented from flying to the throat swab collection staff, and the risk that bacteria and viruses are transmitted to the throat swab collection staff in the working process is avoided.

Inventors

  • YANG WEI
  • SUN YUN
  • CHEN MINGHUI
  • QI XIANGYANG
  • YU GANG

Assignees

  • 沈苏科技(苏州)股份有限公司

Dates

Publication Date
20260505
Application Date
20230202

Claims (4)

  1. 1. The automatic control sampling equipment is characterized by comprising a shell plate (1), a test tube bar code scanner (2), a display controller (3), a first open slot (8), an ultrasonic sensor (9), a card reader (10), a reciprocating motion power device (11), a rotation telescopic device (12) and a sampling device (13), wherein 6 shell plates (1) are spliced into a square shell, the test tube bar code scanner (2) and the display controller (3) are arranged on the surface of the first shell plate (1), the card reader (10) and the ultrasonic sensor (9) are arranged on the surface of the second shell plate (1) adjacent to the first shell plate (1), the reciprocating motion power device (11) is arranged in the square shell, the reciprocating motion power device (11) is connected with the rotation telescopic device (12), the rotation telescopic device (12) is connected with the sampling device (13), and the first open slot (8) for the rotation telescopic device (12) to move is formed in each of the first shell plate (1) and the second shell plate (1); The disinfection device comprises 6 square shells formed by splicing shell plates (1), wherein the disinfection device (14) comprises a disinfection water tank (14 a 1), a first infusion hose (14 a 2), a second infusion tube (14 a 3), a delay liquid feeding device (14 a 4), a second-stage isolation shell (14 a 5), a liquid spraying head (14 a 6) and a supporting plate (14 a 7), the disinfection water tank (14 a 1) is connected with 2 first infusion hoses (14 a 2), the end parts of the 2 first infusion hoses (14 a 2) are respectively connected with the delay liquid feeding device (14 a 4), the 2 delay liquid feeding devices (14 a 4) are connected with a second infusion tube (14 a 3), the 2 second infusion tubes (14 a 3) are respectively connected to 2 isolation areas in the second-stage isolation shell (14 a 5), the heads (14 a 6) in the 2 isolation areas are respectively arranged in the 2 isolation areas, and the liquid spraying head (14 a 6) in the 2 isolation areas are respectively connected with the second-stage isolation shell (14 a 5) through the second-stage shell (14 a 3) and the liquid spraying device (14 a 7).
  2. 2. An automatic control sampling device according to claim 1, characterized in that the delayed liquid feeding means (14 a 4) comprises an arc piston cylinder (14 a 41), an arc piston rod (14 a 42), an arc sleeve rod (14 a 43), a third connecting rod (14 a 44), a delay spring (14 a 45), a one-way liquid inlet valve (14 a 46) and a one-way liquid outlet valve (14 a 47).
  3. 3. An automatic control sampling device according to claim 2, characterized in that an arc piston piece is connected in the arc piston cylinder (14 a 41) in a sliding manner, an arc piston rod (14 a 42) is fixed on one side of the arc piston piece, an arc sleeve rod (14 a 43) is sleeved outside the arc piston rod (14 a 42), a delay spring (14 a 45) is installed in the arc sleeve rod (14 a 43), a third connecting rod (14 a 44) is fixed at the end part of the arc sleeve rod (14 a 43), and a one-way liquid inlet valve (14 a 46) and a one-way liquid outlet valve (14 a 47) are installed inside the arc piston cylinder (14 a 41).
  4. 4. An automatically controlled sampling device according to claim 1, wherein the disinfection device (14) further comprises an ultraviolet disinfection lamp provided in the middle of the bottom end of the square housing, said ultraviolet disinfection lamp being illuminated when the sampling device (13) is located in the secondary isolation housing (14 a 5).

Description

Automatic control sampling equipment The application takes the application number 202310052311.1 and the application name of an automatic control sampling device which are filed on 2 months and 2 days of 2023 as the divisional application of the mother case. Technical Field The invention relates to the technical field of automatic equipment, in particular to automatic control sampling equipment. Background The normal human isthmus is cultured with normal oral flora without pathogenic bacteria growth. Bacteria in the pharynx are all from the outside, are not pathogenic under normal conditions, but can be infected under the condition of reduced systemic or local resistance of the organism and other external factors, and the like, so that diseases are caused. Therefore, the bacteria culture of the throat swab can separate pathogenic bacteria, and is helpful for diagnosis of diphtheria, suppurative tonsillitis, acute pharyngolaryngitis and the like. The pharyngeal portion is a place where the viruses gather more, the pharyngeal swab specimen is a medical cotton swab, a small amount of secretion is dipped from the pharyngeal portion of a human body, the sampled specimen is the pharyngeal swab specimen, and in order to detect the virus type of the respiratory diseases, the virus type can be conveniently, quickly and accurately detected through the pharyngeal swab. The collection of throat swab is usually operated by doctor or nurse with certain experience, and can not be screened in a large scale under the condition of tension of medical staff, meanwhile, the face-to-face collection method of the existing throat swab collection staff and the person to be collected is easy for the droplets of the person to be collected to fly to the face of the throat swab collection staff directly, and in the screening process, each throat swab collection staff needs to carry out thousands of collection operations every day, so that the infection risk of the throat swab collection staff is increased. Disclosure of Invention In view of the above, an embodiment of the present invention is directed to an automatic control sampling device, which is used to solve the problems set forth in the background art. In order to achieve the above purpose, the present invention provides the following technical solutions: The automatic control sampling equipment comprises a shell plate, a test tube bar code scanner, a display controller, a first open slot, an ultrasonic sensor, a card reader, a reciprocating motion power device, a rotation telescopic device and a sampling device, wherein 6 shell plates are spliced into a square shell, the test tube bar code scanner and the display controller are mounted on the surface of the first shell plate, the card reader and the ultrasonic sensor are mounted on the surface of the second shell plate adjacent to the first shell plate, the reciprocating motion power device is mounted in the square shell, the reciprocating motion power device is connected with the rotation telescopic device, the rotation telescopic device is connected with the sampling device, and the first open slot for the rotation telescopic device to move is formed in each of the first shell plate and the second shell plate. Further, the reciprocating motion power device comprises a driving motor, an output shaft, a first rotating rod, a second rotating rod, a spur rack, a spur gear and a first transmission shaft, wherein the driving motor is arranged on one side of the output shaft, the first rotating rod is arranged on the other side of the output shaft, the second rotating rod is connected with the first rotating rod in a rotating mode, the second rotating rod is connected with the spur rack in a rotating mode, the spur gear is meshed with the spur rack, and the first transmission shaft is arranged on one side of the spur gear. Furthermore, the reciprocating motion power device further comprises a positioning rod, a first bearing and limiting plates, wherein the first bearing is fixed at one end of the positioning rod, the first bearing is sleeved on the first transmission shaft, a pair of limiting plates are fixed in the middle of the positioning rod, and the limiting plates are arranged on two sides of the straight racks. Further, the rotary telescopic device comprises a telescopic mechanism, a drive bevel gear, a first driven bevel gear, a second transmission shaft and a third hollow transmission shaft, wherein the first driven bevel gear and the second driven bevel gear are hinged to two sides of the drive bevel gear respectively, the third hollow transmission shaft is mounted in the middle of the first driven bevel gear, the second transmission shaft is mounted in the middle of the second driven bevel gear, the second transmission shaft and the third hollow transmission shaft have the same rotation axis, the telescopic mechanisms are mounted at the upper end parts of the second transmission shaft and the upper end part of the third