Cleaning and sterilizing equipment for B-ultrasonic probe
Technical Field
The invention relates to a cleaning and disinfecting device, in particular to a cleaning and disinfecting device for a B-ultrasonic probe.
Background
In the development process of recent years, high-tech technologies are continuously introduced into various industries, the condition of a patient can be observed only by hearing the patient, the patient can be clearly expressed by B-ultrasonic images, but the probe is required to be used once by one person to ensure the safety of B overtime, so that the probe which needs to be cleaned and disinfected exists every day in a department, and the cleaning and disinfecting equipment for the B-ultrasonic probe is invented.
Disclosure of Invention
The invention relates to a cleaning and disinfecting device, in particular to a cleaning and disinfecting device for a B-ultrasonic probe, which has the functions of adjusting the positions of a disinfecting device, a cleaning device and a drying and disinfecting device below a jaw through an adjusting device, adjusting the height of the jaw by installing a telescopic collision device on the jaw, clamping the probe to be cleaned and disinfected by the jaw, disinfecting the disinfecting device by using a disinfectant, cleaning the disinfectant and other impurities by using the cleaning device, drying and disinfecting the drying and disinfecting device by using a high temperature, and the like.
In order to solve the technical problem, the invention relates to a cleaning and disinfecting device, in particular to a cleaning and disinfecting device for a B-ultrasonic probe, which comprises an installation support frame, an adjusting device, a jaw installation telescopic collision device, a jaw, a disinfecting device, a cleaning device and a drying and disinfecting device, wherein the adjusting device is used for adjusting the positions of the disinfecting device, the cleaning device and the drying and disinfecting device below the jaw, the jaw installation telescopic collision device is used for adjusting the height of the jaw, the jaw clamps a probe to be cleaned and disinfected, the disinfecting device is used for disinfecting disinfectant, the cleaning device is used for cleaning disinfectant and other impurities, and the drying and disinfecting device is used for high-temperature drying and disinfecting and the like, and is characterized in that: the adjusting device is movably installed on the installation supporting frame, the clamping jaw installation telescopic collision device is installed and fixed on the installation supporting frame, the clamping jaw installation is fixed on the clamping jaw installation telescopic collision device, the sterilizing device is installed and fixed on the adjusting device, the cleaning device is installed and fixed on the adjusting device, and the drying and sterilizing device is installed and fixed on the adjusting device.
As a further optimization of the technical scheme, the mounting and supporting frame for the B-ultrasonic probe cleaning and disinfecting equipment comprises a fixed base, a supporting trapezoidal rod and a limiting hole, wherein the supporting trapezoidal rod is mounted and fixed on the fixed base, and the limiting hole is formed in the supporting trapezoidal rod.
As a further optimization of the technical proposal, the adjusting device for the B-ultrasonic probe cleaning and disinfecting equipment comprises a rotating cylinder, a mounting triangle, an air pipe through hole, a cleaning device mounting hole and a connecting pipe, the rotating ring, spacing dwang, the pulling cap, spring catch, a spring, a rotating cylinder movable mounting is on supporting trapezoidal pole, installation set-square installation is fixed on a rotating cylinder, the trachea clearing hole sets up on the installation set-square, the belt cleaning device mounting hole sets up on installation set-square, the connecting pipe installation is fixed on a rotating cylinder, the rotating ring installation is fixed on the connecting pipe, spacing dwang movable mounting is inside the connecting pipe, spacing dwang movable mounting is on rotating ring, spacing dwang and spacing hole clearance fit, the pulling cap is fixed on spacing dwang, spring catch installation is fixed on spacing dwang, spring movable mounting is on spacing dwang.
As a further optimization of the technical scheme, the jaw mounting telescopic collision device for the B ultrasonic probe cleaning and disinfecting equipment comprises a fixed square tube, a third limiting hole, a third rotating shaft, a third rotating disc, a third limiting rod, a third limiting ring, a third spring, a bevel gear, a lead screw mounting ring, a lead screw, a first bevel gear, a movable internal thread square tube and a third connecting plate, wherein the fixed square tube is fixedly mounted on the third connecting plate, the third limiting hole is formed in the fixed square tube, the third rotating shaft is movably mounted on the fixed square tube, the third rotating disc is fixedly mounted on the third rotating shaft, the third limiting rod is movably mounted on the third rotating disc, the third limiting ring is fixedly mounted on the third limiting rod, the third spring is movably mounted on the third limiting rod, the bevel gear is fixedly mounted on the third rotating shaft, the lead screw mounting ring is fixedly mounted inside the fixed square tube, the lead screw is movably mounted on the, bevel gear and bevel gear meshing, remove internal thread side's pipe movable mounting and manage inside fixed side, remove internal thread side's pipe and lead screw-thread fit, connecting plate three installation is fixed on supporting trapezoidal pole.
As a further optimization of the technical scheme, the jaw for the B ultrasonic probe cleaning and disinfecting equipment comprises a connecting frame four, a mounting hollow disc, a rotating disc, a sliding chute, a connecting shaft four, a bevel gear two, self-locking teeth, a rotating cross shaft, a rotating cross hole disc, a spring baffle, a spring three, a self-locking strip, a resetting cylinder, a tightness adjusting shaft, a bevel gear three, a poking disc, a sliding column, a sliding trapezoidal block, a sliding trapezoidal groove, a connecting seat, a fixing cylinder four, a spring four, a sliding plate four, a connecting column four and an arc-shaped clamping plate, wherein the connecting frame four is fixedly mounted on a movable internal thread square tube, the mounting hollow disc is fixedly mounted on the connecting frame four, the rotating disc is movably mounted inside the mounting hollow disc, the sliding chute is mounted on the rotating disc, the connecting shaft four is fixedly mounted on the rotating disc, the bevel gear two is fixedly mounted on the connecting shaft four, the self-locking, a rotating cross shaft is fixedly arranged on a second bevel gear, a rotating cross hole plate is slidably arranged on the rotating cross shaft, a spring baffle is fixedly arranged on the rotating cross shaft, a third spring is movably arranged on the rotating cross shaft, a self-locking strip is fixedly arranged on the rotating cross hole plate and matched with a locking tooth, a reset cylinder is fixedly arranged on the rotating cross hole plate, a tightness regulating shaft is movably arranged inside a mounting hollow plate, a third bevel gear is fixedly arranged on the tightness regulating shaft and meshed with the second bevel gear, a toggle plate is fixedly arranged on the tightness regulating shaft and movably arranged on the mounting hollow plate, a sliding column is slidably arranged inside the sliding chute, a sliding trapezoidal block is fixedly arranged on the sliding column, the sliding trapezoidal block is slidably arranged inside a sliding trapezoidal groove, the sliding trapezoidal groove is arranged on the mounting hollow plate, and a connecting seat is fixedly arranged on the sliding trapezoidal block, the fourth fixed cylinder is fixedly installed on the connecting seat, the fourth spring is slidably installed inside the fourth fixed cylinder, the fourth sliding plate is slidably installed inside the fourth fixed cylinder, the fourth connecting column is fixedly installed on the fourth sliding plate, and the fourth arc-shaped clamping plate is fixedly installed on the fourth connecting column.
As a further optimization of the technical scheme, the disinfection device for the B-ultrasonic probe cleaning and disinfection equipment comprises a disinfectant containing cylinder, a disinfection interlayer, an ejection hole, a rotating toothed ring, a disinfectant lifting spiral plate, a motor and an output gear, wherein the disinfectant containing cylinder is fixedly arranged on a mounting triangular plate, the disinfection interlayer is arranged on the disinfectant containing cylinder, the ejection hole is arranged on the disinfectant containing cylinder, the rotating toothed ring is movably arranged in the disinfection interlayer, the disinfectant lifting spiral plate is fixedly arranged on the rotating toothed ring, the disinfectant lifting spiral plate is movably arranged in the disinfection interlayer, the motor is fixedly arranged on the disinfectant containing cylinder, the output gear is fixedly arranged on the motor, and the output gear is meshed with the rotating toothed ring.
As a further optimization of the technical scheme, the cleaning device for the B-ultrasonic probe cleaning and disinfecting equipment comprises a cleaning cylinder, an internal annular groove, a hole groove, a spring six, a pushing column, a circular ring, a brush mounting frame, a brush, an internal rotating disc, a connecting rod six, an external rotating disc, a top end cylindrical cross shaft, an internal cross hole trapezoidal shaft, a motor mounting frame and a motor six, wherein the cleaning cylinder is fixedly installed on a mounting triangular plate, the internal annular groove is formed in the cleaning cylinder, the hole groove is formed in the cleaning cylinder, the spring six is movably installed in the hole groove, the pushing column is movably installed in the hole groove, the circular ring is fixedly installed on the pushing column, the brush mounting frame is movably installed in the internal annular groove, the brush is fixedly installed on the brush mounting frame, the internal rotating disc is movably installed in the brush mounting frame, the connecting rod six is fixedly installed on the internal rotating disc, the external rotating disc is fixedly installed on the connecting rod six, the cylindrical cross shaft at the top end is fixedly installed on the inner hairbrush mounting frame, the cross hole trapezoidal shaft is fixedly installed on the motor mounting frame through the coupler, the motor mounting frame is fixedly installed on the installation set square, and the motor six is fixedly installed on the motor mounting frame.
As a further optimization of the technical scheme, the drying and sterilizing device for the B-ultrasonic probe cleaning and sterilizing equipment comprises a drying and sterilizing barrel, an air passing cavity, an air outlet, an air pump, a first air pipe, a gas heating box and a heat dispersing pipe, wherein the drying and sterilizing barrel is fixedly arranged on a mounting triangular plate, the air passing cavity is arranged in the drying and sterilizing barrel, the air outlet is arranged in the drying and sterilizing barrel, the air pump is fixedly arranged on the mounting triangular plate, the first air pipe is fixedly arranged on the air pump, the first air pipe is fixedly arranged on the gas heating box, the gas heating box is fixedly arranged on the mounting triangular plate, the heat dispersing pipe is fixedly arranged on the gas heating box, the heat dispersing pipe is fixedly arranged on the drying and sterilizing barrel, and the heat dispersing pipe is arranged on an air pipe through hole.
As a further optimization of the technical scheme, the number of the sliding chutes of the jaw cleaning and disinfecting equipment for the B ultrasonic probe is three, and the number of the sliding columns, the sliding trapezoidal blocks, the sliding trapezoidal grooves, the connecting seat, the fixed cylinder is four, the spring is four, the sliding plate is four, the connecting column is four, and the number of the arc-shaped clamping plates is three.
The cleaning and disinfecting equipment for the B ultrasonic probe has the beneficial effects that:
the invention relates to cleaning and disinfecting equipment, in particular to cleaning and disinfecting equipment for a B-ultrasonic probe, which realizes the functions of adjusting the positions of a disinfecting device, a cleaning device and a drying and disinfecting device below a jaw through an adjusting device, adjusting the height of the jaw by installing a telescopic collision device on the jaw, clamping the probe to be cleaned and disinfected by the jaw, disinfecting the disinfecting device with disinfectant, cleaning the disinfectant and other impurities by the cleaning device, drying and disinfecting the drying and disinfecting device with high temperature, and the like.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is a schematic view of the overall structure of the present invention.
Fig. 2 is a schematic view of the overall structure of the present invention.
Fig. 3 is a schematic structural diagram of the mounting support frame of the present invention.
Fig. 4 is a first structural schematic diagram of the adjusting device of the present invention.
Fig. 5 is a schematic structural diagram of an adjusting device according to the present invention.
Fig. 6 is a third schematic structural diagram of the adjusting device of the present invention.
Fig. 7 is a fourth schematic structural diagram of the adjusting device of the present invention.
Fig. 8 is a fifth structural schematic diagram of the adjusting device of the present invention.
Fig. 9 is a first structural schematic diagram of a jaw-mounted telescopic striking device of the present invention.
Fig. 10 is a second structural schematic view of the claw mounting telescopic striking device of the invention.
Fig. 11 is a third schematic structural view of the claw mounting telescopic striking device of the invention.
Fig. 12 is a first view of the structure of the clamping jaw of the invention.
Fig. 13 is a second schematic view of the structure of the clamping jaw of the invention.
Fig. 14 is a third schematic view of the structure of the claw of the invention.
Fig. 15 is a fourth schematic view of the claw structure of the present invention.
FIG. 16 is a first structural schematic view of the disinfection device of the present invention.
FIG. 17 is a second schematic structural view of the disinfecting device of the present invention.
Fig. 18 is a third structural schematic view of the disinfecting device of the invention.
FIG. 19 is a first schematic structural diagram of a cleaning apparatus according to the present invention.
FIG. 20 is a second schematic structural view of a cleaning apparatus according to the present invention.
Fig. 21 is a third schematic structural view of the cleaning device of the present invention.
Fig. 22 is a first structural schematic diagram of the drying and sterilizing device of the present invention.
Fig. 23 is a schematic structural view of a drying and sterilizing apparatus according to the present invention.
In the figure: mounting a support frame 1; a fixed base 1-1; supporting the ladder bars 1-2; 1-3 of a limiting hole; an adjusting device 2; 2-1 of a rotary cylinder; mounting a triangular plate 2-2; the trachea passes through the holes 2-3; 2-4 of cleaning device mounting holes; connecting pipes 2-5; rotating the circular ring 2-6; a limiting rotating rod 2-7; pulling the cap 2-8; 2-9 parts of spring catch; 2-10 parts of spring; the claw is provided with a telescopic collision device 3; fixing the square tube 3-1; a third limiting hole 3-2; rotating a third shaft by 3-3; 3-4 of a rotating disc; 3-5 parts of a limiting rod III; 3-6 parts of a limiting ring; 3-7 parts of a spring; bevel gears 3-8; 3-9 parts of a lead screw mounting ring; 3-10 parts of a lead screw; 3-11 parts of a first bevel gear; moving the internal thread square pipe by 3-12; 3-13 parts of a connecting plate; a claw 4; connecting frame four 4-1; installing a hollow disc 4-2; 4-3 of a rotating disc; a sliding chute 4-4; connecting shaft IV 4-5; 4-6 parts of a bevel gear II; 4-7 of self-locking teeth; 4-8 of a rotating cross shaft; rotating the cross hole disc 4-9; 4-10 parts of a spring baffle plate; 4-11 parts of a spring; 4-12 of self-locking strip; 4-13 of a reset cylinder; 4-14 parts of tightness adjusting shaft; 4-15 parts of bevel gear III; 4-16 of a poking disc; 4-17 of a sliding column; sliding trapezoidal blocks 4-18; sliding trapezoid grooves 4-19; 4-20 parts of a connecting seat; 4-21 parts of a fixed cylinder; 4-22 parts of spring; sliding plates four 4-23; connecting column four 4-24; 4-25 parts of an arc-shaped clamping plate; a sterilizing device 5; 5-1 of a disinfectant liquid containing cylinder; 5-2 of a disinfection interlayer; a spouting hole 5-3; rotating the toothed ring 5-4; the disinfectant rises up the spiral plate 5-5; 5-6 of a motor; 5-7 parts of an output gear; a cleaning device 6; 6-1 of a cleaning cylinder; an inner annular groove 6-2; 6-3 of a hole groove; 6-4 parts of a spring; 6-5 of a pushing column; 6-6 of a circular ring; 6-7 of a brush mounting rack; 6-8 parts of hairbrush; inner rotating discs 6-9; 6-10 parts of a connecting rod; outer rotating disks 6-11; 6-12 parts of a top cylindrical cross shaft; 6-13 of an inner cross hole trapezoidal shaft; motor mounting frames 6-14; 6-15 parts of a motor; a drying and sterilizing device 7; drying and sterilizing the barrel 7-1; a gas passing cavity 7-2; 7-3 of air outlet holes; an air pump 7-4; 7-5 parts of a first trachea; 7-6 of a gas heating box; 7-7 of a hot gas dredging pipe.
Detailed Description
The first embodiment is as follows:
in order to solve the technical problems, the invention relates to a cleaning and disinfecting device, in particular to a cleaning and disinfecting device for a B-ultrasonic probe, which comprises a mounting support frame 1, an adjusting device 2, a jaw mounting telescopic collision device 3, a jaw 4, a disinfecting device 5, a cleaning device 6 and a drying and disinfecting device 7, wherein the adjusting device is used for adjusting the positions of the disinfecting device 5, the cleaning device 6 and the drying and disinfecting device 7 below the jaw 4, the jaw mounting telescopic collision device 3 is used for adjusting the height of the jaw 4, the jaw 4 clamps the probe to be cleaned and disinfected, the disinfecting device 5 is used for disinfecting disinfectant, the cleaning device 6 is used for cleaning disinfectant and other impurities, the drying and disinfecting device 7 is used for high-temperature drying and disinfecting and the like, the method is characterized in that: adjusting device 2 movable mounting is on erection bracing frame 1, and the flexible device 3 that hits of jack catch installation is installed and is fixed on erection bracing frame 1, and the flexible device 3 that hits of jack catch installation is fixed in the installation of jack catch 4, and degassing unit 5 is installed and is fixed on adjusting device 2, and belt cleaning device 6 is installed and is fixed on adjusting device 2, and stoving degassing unit 7 is installed and is fixed on adjusting device 2.
The second embodiment is as follows:
the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, and 23, and the present embodiment further describes the present embodiment, where the mounting support frame 1 includes a fixing base 1-1, a supporting trapezoidal rod 1-2, and a limiting hole 1-3, the supporting trapezoidal rod 1-2 is mounted and fixed on the fixing base 1-1, and the limiting hole 1-3 is disposed on the supporting trapezoidal rod 1-2.
The third concrete implementation mode:
the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23. the present embodiment further describes the present embodiment, where the adjusting device 2 includes a rotating cylinder 2-1, a triangle mounting plate 2-2, an air pipe passing hole 2-3, a cleaning device mounting hole 2-4, a connecting pipe 2-5, a rotating ring 2-6, a limiting rotating rod 2-7, a pulling cap 2-8, a spring catch 2-9, and a spring 2-10, the pulling cap 2-8 of the adjusting device 2 is pulled out, the pulling cap 2-8 drives the limiting rotating rod 2-7 to move outwards in the connecting pipe 2-5, so that the limiting rotating rod 2-7 is separated from the limiting hole 1-3 of the mounting support frame 1, then the rotating ring 2-6 is rotated, the rotating ring 2-6 drives the connecting pipe 2-5 to rotate, the connecting pipe 2-5 drives the rotating cylinder 2-1 to rotate, the rotating cylinder 2-1 drives the mounting triangle 2-2 to rotate, the mounting triangle 2-2 drives the sterilizing device 5, the cleaning device 6 and the drying and sterilizing device 7 which are mounted on the mounting triangle 2-2 to rotate, when the rotating cylinder 2-1 rotates for one hundred twenty degrees, the limiting rotating rod 2-7 can be inserted back to the limiting hole 1-3 under the action of the spring 2-10, the claw 4 can be sterilized, cleaned, dried and sterilized inside the sterilizing device 5, the cleaning device 6 and the drying and sterilizing device 7 by adjusting the height of the claw mounting telescopic collision device 3, the rotating cylinder 2-1 is movably mounted on the supporting ladder-shaped rod 1-2, the mounting triangular plate 2-2 is fixedly mounted on the rotating cylinder 2-1, the air pipe passing hole 2-3 is arranged on the mounting triangular plate 2-2, the cleaning device mounting hole 2-4 is arranged on the mounting triangular plate 2-2, the connecting pipe 2-5 is fixedly mounted on the rotating cylinder 2-1, the rotating ring 2-6 is fixedly mounted on the connecting pipe 2-5, the limiting rotating rod 2-7 is movably mounted inside the connecting pipe 2-5, the limiting rotating rod 2-7 is movably mounted on the rotating ring 2-6, the limiting rotating rod 2-7 is in clearance fit with the limiting hole 1-3, the pulling cap 2-8 is fixed on the limiting rotating rod 2-7, the spring catch 2-9 is fixedly mounted on the limiting rotating rod 2-7, and the spring 2-10 is movably mounted on the limiting rotating rod 2-7.
The fourth concrete implementation mode:
the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23. the embodiment further describes the first embodiment, the jaw mounting telescopic collision device 3 includes a fixed square tube 3-1, a limiting hole three 3-2, a rotating shaft three 3-3, a rotating disc three 3-4, a limiting rod three 3-5, a limiting ring 3-6, a spring three 3-7, a bevel gear 3-8, a screw mounting ring 3-9, a screw 3-10, a bevel gear one 3-11, a movable internal thread square tube 3-12, and a connecting plate three 3-13, the rotating disc three 3-4 of the telescopic collision device 3 is mounted by rotating the jaws, the rotating disc three 3-4 drives the rotating shaft three 3-3 to rotate, a rotating shaft III 3-3 drives a bevel gear 3-8 to rotate, the bevel gear 3-8 drives a bevel gear I3-11 to rotate, the bevel gear I3-11 drives a screw rod 3-10 to rotate, the screw rod 3-10 drives a moving internal thread square tube 3-12 to move inside a fixed square tube 3-1 so as to change the height of a probe clamping claw 4 arranged on the moving internal thread square tube 3-12, the fixed square tube 3-1 is fixedly arranged on a connecting plate III 3-13, a limiting hole III 3-2 is arranged on the fixed square tube 3-1, the rotating shaft III 3-3 is movably arranged on the fixed square tube 3-1, a rotating disc III 3-4 is fixedly arranged on the rotating shaft III 3-3, a limiting rod III 3-5 is movably arranged on the rotating disc III 3-4, and a limiting ring 3-6 is fixedly arranged on the limiting rod III 3-, the spring III 3-7 is movably mounted on the limiting rod III 3-5, the bevel gear 3-8 is mounted and fixed on the rotating shaft III 3-3, the screw rod mounting ring 3-9 is mounted and fixed inside the fixed square tube 3-1, the screw rod 3-10 is movably mounted on the screw rod mounting ring 3-9, the bevel gear I3-11 is mounted and fixed on the screw rod 3-10, the bevel gear I3-11 is meshed with the bevel gear 3-8, the movable internal thread square tube 3-12 is movably mounted inside the fixed square tube 3-1, the movable internal thread square tube 3-12 is in threaded fit with the screw rod 3-10, and the connecting plate III 3-13 is mounted and fixed on the supporting trapezoidal rod 1-2.
The fifth concrete implementation mode:
the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23. the embodiment further describes the embodiment, and the jaw 4 comprises a connecting frame four 4-1, a mounting hollow disc 4-2, a rotating disc 4-3, a sliding chute 4-4, a connecting shaft four 4-5, a bevel gear two 4-6, a self-locking tooth 4-7, a rotating cross shaft 4-8, a rotating cross hole disc 4-9, a spring baffle 4-10, a spring three 4-11, a self-locking strip 4-12, a reset cylinder 4-13, a tightness adjusting shaft 4-14, a bevel gear three 4-15, a toggle disc 4-16, a sliding column 4-17, a sliding trapezoidal block 4-18, a sliding trapezoidal block, The probe to be cleaned and disinfected is placed between the arc-shaped clamping plates 4-25 of the clamping jaws 4, then the dial plate 4-16 is rotated to drive the tightness adjusting shafts 4-14 to rotate, the tightness adjusting shafts 4-14 drive the bevel gear three 4-15 to rotate, the bevel gear three 4-15 drives the bevel gear two 4-6 to rotate, the bevel gear two 4-6 drives the connecting shaft four 4-5 to rotate, the connecting shaft four 4-5 drives the rotating disc 4-3 to rotate, the sliding chutes 4-4 on the rotating disc 4-3 move the sliding columns 4-17 to move, and the sliding columns 4-17 drive the sliding trapezoidal blocks 4-18 to move along the sliding trapezoidal grooves 4-2 for mounting the hollow disc 4-2 -19, the sliding trapezoidal block 4-18 drives the connecting seat 4-20 to move, the connecting seat 4-20 drives the fixed cylinder four 4-21 to move, the fixed cylinder four 4-21 drives the sliding plate four 4-23 to move, the sliding plate four 4-23 drives the connecting column four 4-24 to move, the connecting column four 4-24 drives the arc-shaped clamping plate 4-25 to move to clamp the probe, the spring four 4-22 can prevent the arc-shaped clamping plate 4-25 from damaging the probe, the spring three 4-11 pushes the rotating cross hole disc 4-9 to press the self-locking teeth 4-7 in the rotating process of the rotating disc 4-3, so that the self-locking teeth 4-7 and the self-locking strips 4-12 are in contact to prevent the rotating disc 4-3 from reversely rotating, and the clamping firmness of the clamping jaws 4 is increased, when the probe needs to be taken down, the reset cylinder 4-13 drives the rotating cross hole disc 4-9 to move by pulling the reset cylinder 4-13 upwards, the rotating cross hole disc 4-9 drives the self-locking strip 4-12 to move and separate from the self-locking teeth 4-7, then the reset cylinder 4-13 is rotated reversely, the reset cylinder 4-13 drives the rotating cross shaft 4-8 to rotate reversely by rotating the cross hole disc 4-9, the rotating cross shaft 4-8 drives the bevel gear II 4-6 to rotate reversely, the bevel gear II 4-6 drives the rotating disc 4-3 to rotate reversely by driving the connecting shaft IV 4-5, the rotating disc 4-3 slides the trapezoidal block 4-18 to move outwards by the sliding column 4-17, the sliding trapezoidal block 4-18 drives the connecting seat 4-20 to move outwards, the connecting seat 4-20 drives the fixed cylinder four 4-21 to move outwards, the fixed cylinder four 4-21 drives the arc-shaped clamping plates 4-25 to move outwards through the sliding plate four 4-23 and the connecting column four 4-24 so that the distance between the arc-shaped clamping plates 4-25 is enlarged and the probe can be taken down, the connecting frame four 4-1 is fixedly arranged on the moving internal thread square tube 3-12, the mounting hollow disc 4-2 is fixedly arranged on the connecting frame four 4-1, the rotating disc 4-3 is movably arranged in the mounting hollow disc 4-2, the sliding chute 4-4 is arranged on the rotating disc 4-3, the connecting shaft four 4-5 is fixedly arranged on the rotating disc 4-3, the bevel gear two 4-6 is fixedly arranged on the connecting shaft four 4-5, the self-locking teeth 4-7 are fixedly arranged on the mounting hollow disc 4-2, a rotating cross shaft 4-8 is fixedly arranged on a bevel gear II 4-6, a rotating cross hole disc 4-9 is slidably arranged on the rotating cross shaft 4-8, a spring baffle 4-10 is fixedly arranged on the rotating cross shaft 4-8, a spring III 4-11 is movably arranged on the rotating cross shaft 4-8, a self-locking strip 4-12 is fixedly arranged on the rotating cross hole disc 4-9, a self-locking strip 4-12 is matched with a locking tooth 4-7, a reset cylinder 4-13 is fixedly arranged on the rotating cross hole disc 4-9, a tightness adjusting shaft 4-14 is movably arranged in a hollow disc 4-2, a bevel gear III 4-15 is fixedly arranged on a tightness adjusting shaft 4-14, the bevel gear III 4-15 is meshed with the bevel gear II 4-6, a toggle disc 4-16 is fixedly arranged on the tightness adjusting shaft 4-14, the poking disc 4-16 is movably installed on the installation hollow disc 4-2, the sliding column 4-17 is installed inside the sliding chute 4-4 in a sliding mode, the sliding trapezoidal block 4-18 is installed and fixed on the sliding column 4-17, the sliding trapezoidal block 4-18 is installed inside the sliding trapezoidal groove 4-19 in a sliding mode, the sliding trapezoidal groove 4-19 is formed in the installation hollow disc 4-2, the connecting seat 4-20 is installed and fixed on the sliding trapezoidal block 4-18, the fixing cylinder four 4-21 is installed and fixed on the connecting seat 4-20, the spring four 4-22 is installed inside the fixing cylinder four 4-21 in a sliding mode, the sliding plate four 4-23 is installed inside the fixing cylinder four 4-21 in a sliding mode, the connecting column four 4-24 is installed and fixed on the sliding plate four 4-23, and the arc-shaped clamping plate 4-25 is installed on the.
The sixth specific implementation mode:
referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, the present embodiment further describes the present embodiment, in which the disinfecting device 5 includes a disinfecting liquid containing cylinder 5-1, a disinfecting interlayer 5-2, an ejection hole 5-3, a rotating toothed ring 5-4, a disinfecting liquid lifting spiral plate 5-5, a motor 5-6, and an output gear 5-7, the disinfecting device 5 rotates below the claw 4, then the motor 5-6 of the disinfecting device 5 drives the output gear 5-7 to rotate, the output gear 5-7 drives the rotating toothed ring 5-4 to rotate, the rotating toothed ring 5-4 drives the disinfecting liquid lifting spiral plate 5-5 to rotate, so that the disinfecting liquid is ejected uniformly from the ejection hole 5-3 onto the probe, a disinfectant liquid containing barrel 5-1 is fixedly arranged on a triangular mounting plate 2-2, a disinfecting interlayer 5-2 is arranged on the disinfectant liquid containing barrel 5-1, a jetting hole 5-3 is arranged on the disinfectant liquid containing barrel 5-1, a rotating gear ring 5-4 is movably arranged in the disinfecting interlayer 5-2, a disinfectant liquid lifting spiral plate 5-5 is fixedly arranged on the rotating gear ring 5-4, a disinfectant liquid lifting spiral plate 5-5 is movably arranged in the disinfecting interlayer 5-2, a motor 5-6 is fixedly arranged on the disinfectant liquid containing barrel 5-1, an output gear 5-7 is fixedly arranged on the motor 5-6, and the output gear 5-7 is meshed with the rotating gear ring 5-4.
The seventh embodiment:
referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, the present embodiment further describes the present embodiment, wherein the cleaning device 6 comprises a cleaning cylinder 6-1, an internal annular groove 6-2, a hole groove 6-3, a spring six 6-4, a pushing column 6-5, an annular ring 6-6, a brush mounting bracket 6-7, a brush 6-8, an internal rotating disk 6-9, a connecting rod six 6-10, an external rotating disk 6-11, a top end cylindrical shaft 6-12, an internal cross-hole trapezoidal shaft 6-13, a motor mounting bracket 6-14, and a motor six 6-15, the cleaning device 6 is rotated under the claw 4, so that the brush mounting bracket 6-7 of the cleaning device 6 is pressed downward during the falling of the claw 4, the brush mounting rack 6-7 moves downwards in the inner annular groove 6-2 to push the circular ring 6-6 to move, the circular ring 6-6 drives the pushing column 6-5 to move the compression spring six 6-4 in the hole 6-3, when the brush mounting rack 6-7 moves to enable the top end cylindrical cross shaft 6-12 mounted on the brush mounting rack 6-7 to merge, the motor six 6-15 drives the inner cross hole trapezoidal shaft 6-13 to rotate through the coupler, the inner cross hole trapezoidal shaft 6-13 drives the top end cylindrical cross shaft 6-12 to rotate, the top end cylindrical cross shaft 6-12 drives the brush mounting rack 6-7 to rotate, the brush mounting rack 6-7 drives the brush 6-8 to rotate to combine with a clean water cleaning probe in the cleaning barrel 6-1, and the cleaning barrel 6-1 is mounted and fixed on the triangular plate 2-2, an internal annular groove 6-2 is arranged inside a cleaning barrel 6-1, a hole groove 6-3 is arranged inside the cleaning barrel 6-1, a spring six 6-4 is movably arranged inside the hole groove 6-3, a pushing column 6-5 is movably arranged inside the hole groove 6-3, a circular ring 6-6 is fixedly arranged on the pushing column 6-5, a brush mounting rack 6-7 is movably arranged inside the internal annular groove 6-2, a brush 6-8 is fixedly arranged on a brush mounting rack 6-7, an internal rotating disc 6-9 is movably arranged inside the brush mounting rack 6-7, a connecting rod six 6-10 is fixedly arranged on an internal rotating disc 6-9, an external rotating disc 6-11 is fixedly arranged on the connecting rod six 6-10, a cylindrical cross shaft 6-12 at the top end is fixedly arranged on the internal brush mounting rack 6-7, the cross-hole trapezoidal shafts 6-13 are fixedly installed on the motor installation frames 6-14 through couplers, the motor installation frames 6-14 are fixedly installed on the triangular installation frames 2-2, and the motors six 6-15 are fixedly installed on the motor installation frames 6-14.
The specific implementation mode is eight:
referring to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, the present embodiment further describes the first embodiment, in which the drying and sterilizing device 7 includes a drying and sterilizing tub 7-1, a gas passing chamber 7-2, gas outlets 7-3, a gas pump 7-4, a gas pipe 7-5, a gas heating box 7-6, and a hot gas dredging pipe 7-7, the drying and sterilizing device 7 rotates to below the claws 4, then the gas pump 7-4 blows air into the gas heating box 7-6 through the gas pipe 7-5, the heated gas blows into the gas passing chamber 7-2 of the drying and sterilizing tub 7-1 through the hot gas dredging pipe 7-7, and then the drying and high-temperature sterilizing probe is ejected from the gas outlets 7-3, the drying and sterilizing bucket 7-1 is fixedly arranged on the mounting triangular plate 2-2, the air passing cavity 7-2 is arranged inside the drying and sterilizing bucket 7-1, the air outlet 7-3 is arranged inside the drying and sterilizing bucket 7-1, the air pump 7-4 is fixedly arranged on the mounting triangular plate 2-2, the air pipe I7-5 is fixedly arranged on the air pump 7-4, the air pipe I7-5 is fixedly arranged on the air heating box 7-6, the air heating box 7-6 is fixedly arranged on the mounting triangular plate 2-2, the hot air dredging pipe 7-7 is fixedly arranged on the air heating box 7-6, the hot air dredging pipe 7-7 is fixedly arranged on the drying and sterilizing bucket 7-1, and the hot air dredging pipe 7-7 is arranged on the air pipe passing hole 2-3.
The specific implementation method nine:
the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, and the embodiment further describes the fifth embodiment, where the number of the sliding chutes 4-4 of the jaws 4 is three, and the number of the sliding columns 4-17, the sliding trapezoidal blocks 4-18, the sliding trapezoidal grooves 4-19, the connecting seats 4-20, the fixed cylinders four 4-21, the springs four 4-22, the sliding plates four 4-23, the connecting columns four 4-24, and the arc-shaped snap plates 4-25 is three.
The working principle of the invention is as follows:
a working principle of a cleaning and disinfecting device for a B ultrasonic probe is that whether the connection condition between devices meets requirements is checked before the device is used, the probe to be cleaned and disinfected is placed between arc-shaped clamping plates 4-25 of a clamping jaw 4, then a dial plate 4-16 is rotated to drive a tightness adjusting shaft 4-14 to rotate, the tightness adjusting shaft 4-14 drives a bevel gear three 4-15 to rotate, the bevel gear three 4-15 drives a bevel gear two 4-6 to rotate, the bevel gear two 4-6 drives a connecting shaft four 4-5 to rotate, the connecting shaft four 4-5 drives a rotating plate 4-3 to rotate, a sliding chute 4-4 on the rotating plate 4-3 moves a sliding column 4-17 to move, the sliding column 4-17 drives a sliding trapezoidal block 4-18 to move along a sliding trapezoidal groove 4-19 for mounting a hollow plate 4-2, the sliding trapezoidal blocks 4-18 drive the connecting seats 4-20 to move, the connecting seats 4-20 drive the fixed cylinders four 4-21 to move, the fixed cylinders four 4-21 drive the sliding plates four 4-23 to move, the sliding plates four 4-23 drive the connecting columns four 4-24 to move, the connecting columns four 4-24 drive the arc-shaped clamping plates 4-25 to move to clamp the probes, the springs four 4-22 can prevent the arc-shaped clamping plates 4-25 from damaging the probes, the springs three 4-11 push the rotating cross hole disc 4-9 to press the self-locking teeth 4-7 in the rotating process of the rotating disc 4-3, so that the rotating disc 4-3 is prevented from reversely rotating due to the contact of the self-locking teeth 4-7 and the self-locking strips 4-12, the clamping firmness of the clamping jaws 4 is improved, when the probes need to be taken down, the reset cylinder 4-13 is pulled upwards to drive the reset cylinder 4-13 to move with the rotating cross hole disc 4-9, the rotating cross hole disc 4-9 drives the self-locking strip 4-12 to move and separate from the self-locking teeth 4-7, then the reset cylinder 4-13 is rotated reversely, the reset cylinder 4-13 drives the rotating cross shaft 4-8 to rotate reversely by rotating the cross hole disc 4-9, the rotating cross shaft 4-8 drives the bevel gear II 4-6 to rotate reversely, the bevel gear II 4-6 drives the rotating disc 4-3 to rotate reversely by driving the connecting shaft IV 4-5, the rotating disc 4-3 slides the trapezoidal block 4-18 outwards by the sliding column 4-17, the sliding trapezoidal block 4-18 drives the connecting seat 4-20 to move outwards, the connecting seat 4-20 drives the fixing cylinder IV 4-21 to move outwards, the fixed cylinder IV 4-21 drives the arc-shaped clamping plates 4-25 to move outwards through the sliding plates IV 4-23 and the connecting columns IV 4-24, so that the distance between the arc-shaped clamping plates 4-25 is increased, the probe can be taken down, then the rotating disc III 3-4 of the telescopic collision device 3 is installed through the rotating jaws, the rotating disc III 3-4 drives the rotating shaft III 3-3 to rotate, the rotating shaft III 3-3 drives the bevel gears 3-8 to rotate, the bevel gears 3-8 drive the bevel gears I3-11 to rotate, the bevel gears I3-11 drive the screw rods 3-10 to rotate, the screw rods 3-10 drive the moving internal thread square tubes 3-12 to move inside the fixed square tubes 3-1 so as to change the height of the probe jaws 4 arranged on the moving internal thread square tubes 3-12, firstly, the pulling caps 2-8 of the adjusting device 2 are pulled, pulling the cap 2-8 to drive the limiting rotating rod 2-7 to move outwards in the connecting pipe 2-5, so that the limiting rotating rod 2-7 is separated from the limiting hole 1-3 of the mounting support frame 1, then rotating the rotating ring 2-6, the rotating ring 2-6 drives the connecting pipe 2-5 to rotate, the connecting pipe 2-5 drives the rotating cylinder 2-1 to rotate, the rotating cylinder 2-1 drives the mounting triangle 2-2 to rotate, the mounting triangle 2-2 drives the disinfecting device 5, the cleaning device 6 and the drying and disinfecting device 7 which are mounted on the mounting triangle 2-2 to rotate, when the rotating cylinder 2-1 rotates one hundred twenty degrees, the limiting rotating rod 2-7 can be inserted back into the limiting hole 1-3 under the action of the spring 2-10, and the claw 4 can be installed on the disinfecting device 5 by adjusting the height of the claw mounting telescopic collision device 3, The cleaning device 6 and the drying and sterilizing device 7 complete the sterilization, cleaning, drying and sterilizing, the sequence is that the sterilizing device 5 is firstly rotated to the lower part of the claw 4, then the motor 5-6 of the sterilizing device 5 drives the output gear 5-7 to rotate, the output gear 5-7 drives the rotating toothed ring 5-4 to rotate, the rotating toothed ring 5-4 drives the sterilizing liquid to lift the spiral plate 5-5 to rotate, the sterilizing liquid is sprayed out from the spraying hole 5-3 and is uniformly sprayed on the probe, then the cleaning device 6 is rotated to the lower part of the claw 4, so that the claw 4 presses the brush mounting rack 6-7 of the cleaning device 6 downwards in the falling process, the brush mounting rack 6-7 moves downwards in the inner annular groove 6-2 to push the annular ring 6-6 to move, the annular ring 6-6 drives the pushing column 6-5 to move in the hole 6-3 to compress the spring six 6-4, when the brush mounting rack 6-7 moves to enable the top end cylindrical cross shafts 6-12 mounted on the brush mounting rack 6-7 to be combined, the motor six 6-15 drives the inner cross hole trapezoidal shaft 6-13 to rotate through the coupler, the inner cross hole trapezoidal shaft 6-13 drives the top end cylindrical cross shaft 6-12 to rotate, the top end cylindrical cross shaft 6-12 drives the brush mounting rack 6-7 to rotate, the brush mounting rack 6-7 drives the brush 6-8 to rotate to be combined with clean water in the cleaning barrel 6-1 to clean the probe, then the drying and sterilizing device 7 is rotated to the position below the clamping jaws 4, then the air pump 7-4 blows air into the gas heating box 7-6 through the air pipe I7-5, the heated gas is blown into the air passing cavity 7-2 of the drying and sterilizing barrel 7-1 through the hot air dredging pipe 7-7, then the air is sprayed out from the air outlet 7-3 to dry and sterilize the probe at high temperature.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.