CN112754761B - Medical external auditory canal cleaning equipment - Google Patents

Abstract

The invention relates to medical auxiliary equipment, in particular to medical external auditory canal cleaning equipment which comprises a liquid medicine extracting and injecting mechanism, an adjustable warm air drying mechanism and an adjusting moving and foundation mechanism, wherein the equipment can automatically perform extracting and liquid pushing actions, can generate warm air to dry and clean auditory canals, can adjust the temperature of the warm air, can perform spatial position adjustment on the liquid medicine extracting and injecting mechanism, is connected with the adjusting moving and foundation mechanism, and is connected with the adjustable warm air drying mechanism.

Description

Medical external auditory canal cleaning equipment

Technical Field

The invention relates to medical auxiliary equipment, in particular to medical external auditory canal cleaning equipment.

Background

Otolaryngology branch of academic or vocational study when carrying out ear diagnosis, often need carry out the external auditory canal cleanness for the convenience of observing, cleans through medical personnel manual operation syringe in the reality, consumes the manpower, consequently designs a medical external auditory canal cleaning equipment.

Disclosure of Invention

The invention mainly solves the technical problem of providing medical external auditory canal cleaning equipment, which can automatically perform extraction and liquid pushing actions, can generate warm air to dry and clean auditory canals, can adjust the temperature of the warm air, and can perform space position adjustment on a liquid medicine extraction and injection mechanism.

In order to solve the technical problems, the invention relates to medical auxiliary equipment, in particular to medical external auditory canal cleaning equipment which comprises a liquid medicine extracting and injecting mechanism, a temperature-adjustable hot air drying mechanism and an adjusting moving and basic mechanism, wherein the equipment can automatically perform extracting and liquid pushing actions, can generate hot air to dry and clean auditory canals, can adjust the temperature of the hot air, and can perform space position adjustment on the liquid medicine extracting and injecting mechanism.

The liquid medicine extracting and injecting mechanism is connected with the adjusting and moving and basic mechanism, and the adjustable warm air drying mechanism is connected with the adjusting and moving and basic mechanism.

As a further optimization of the technical scheme, the liquid medicine extracting and injecting mechanism of the medical external auditory canal cleaning equipment comprises a platform I, a plurality of hydraulic cylinders I, a plurality of piston rods I, a plurality of supporting seats I, a plurality of pivoted arms, a plurality of clamping heads I, a threaded sliding block, a plurality of hydraulic cylinders II, a plurality of piston rods II, a plurality of connecting rods I, a plurality of liquid pushing rods, a plurality of limiting blocks I, a plurality of liquid storage cylinders, a plurality of cylindrical plugs and a plurality of thin circular tubes, wherein the platform I is connected with the plurality of hydraulic cylinders I, the platform I is connected with the plurality of supporting seats I, the platform I is connected with the threaded sliding block, the plurality of hydraulic cylinders I are connected with the plurality of piston rods I in a sliding manner, the plurality of piston rods I are connected with the plurality of clamping heads I, the plurality of clamping heads I are connected with the plurality of pivoted arms in a sliding manner, the plurality of pivoted arms are hinged with the plurality of supporting seats I, the pivoted arms are connected with the plurality of hydraulic cylinders II, a plurality of pneumatic cylinders two and two sliding connection of a plurality of piston rods, a plurality of pneumatic cylinders two link to each other with a plurality of connecting rod one, a plurality of piston rods two link to each other with a plurality of liquid pushing poles, a plurality of connecting rod one link to each other with a plurality of stopper one, a plurality of liquid pushing poles and a plurality of stopper sliding connection, a plurality of stopper one link to each other with a plurality of liquid storage barrel, a plurality of liquid storage barrel link to each other with a plurality of cylinder stopper, a plurality of liquid storage barrel and a plurality of cylinder stopper friction coupling, a plurality of liquid storage barrel are connected and are linked together with a plurality of thin pipe.

As a further optimization of the technical scheme, the adjustable warm air drying mechanism of the medical external auditory canal cleaning equipment comprises a toothed support frame, a second platform, a cylinder, a second two support rods, a third hydraulic cylinder, a third piston rod, a second chuck, a through hole, an adjusting rod, a first belt pulley, a second belt pulley, a first transmission shaft, a second support seat, an impeller, a heating resistance wire and a third support rod, wherein the toothed support frame is connected with the second platform, the second platform is connected with the second two support rods, the second platform is connected with the third hydraulic cylinder, the second platform is connected with the first belt pulley, the third platform is hinged with the three phase support rods, the cylinder is connected with the second two support rods, the cylinder is hinged with the three support rods, the third hydraulic cylinder is connected with the third piston rod in a sliding manner, the third piston rod is connected with the second chuck, and the second chuck is connected with the through hole in a sliding manner, the adjusting rod is provided with a through hole and is connected with the supporting rod III, the belt shaft motor I is in rotating connection with the belt pulley I, the belt pulley I is in friction connection with the belt pulley II, the belt pulley II is connected with the transmission shaft I, the transmission shaft I is in rotating connection with the supporting seat II, the transmission shaft I is connected with the impeller, and the heating resistance wire is connected with the supporting rod III.

As a further optimization of the technical scheme, the adjusting movement and basic mechanism of the medical external auditory canal cleaning equipment comprises a platform III, a plurality of support rods IV, a shaft-mounted motor II, a gear I, a gear II, a transmission shaft II, a support seat III, a chain wheel I, a chain I, two chain wheels II, two screw rods I, two chutes I, two vertical frames, two gear III, a plurality of limit blocks II, a gear IV, two support seats IV, a plurality of liquid storage tanks, a shaft-mounted motor III, a gear V, a gear VI, a transmission shaft III, a support seat V, a belt pulley III, a belt pulley II, a belt pulley IV, a screw rod II, a horizontal frame, two shaft-mounted motors IV, two gears VII, two gears VIII and two screw rods III, the platform III is connected with the plurality of support rods IV, the platform III is connected with the shaft-mounted motor II, the platform III is connected with the support seat III, the platform III is connected with the two chutes I, the platform III is connected with a plurality of limit blocks II, the platform III is connected with two support seats IV, the platform III is connected with a plurality of liquid storage tanks, the motor II with a shaft is rotatably connected with a gear I, the gear I is meshed with a gear II, the gear II is connected with a transmission shaft II, the transmission shaft II is rotatably connected with the support seats III, the transmission shaft II is connected with a chain wheel I, the chain wheel I is meshed with a chain I, the chain I is meshed with two chain wheels II, the two chain wheels II are connected with two lead screws I, the two lead screws I are rotatably connected with two chutes, the two lead screws I are in threaded connection with two vertical frames, the two chute I is in sliding connection with two vertical frames, the two lead screws I is connected with two gear III, the two vertical frames are in sliding connection with a horizontal frame, the gear III is meshed with the gear IV, the gear IV is rotatably connected with two support seats IV, the motor III with a gear V, the gear five is meshed with the gear six, the gear six is connected with the transmission shaft three, the transmission shaft three is rotatably connected with the support seat five, the transmission shaft three is connected with the belt pulley three, the belt pulley three is in friction connection with the belt pulley two, the belt pulley two is in friction connection with the belt pulley four, the belt pulley four is connected with the screw rod two, the screw rod two is rotatably connected with the horizontal frame, the horizontal frame is rotatably connected with the two screw rods three, the two belt shaft motors four are connected with the two vertical frames, the two belt shaft motors four is rotatably connected with the two gear seven, the two gear seven is meshed with the two gear eight, the two gear eight is connected with the two screw rod three, the threaded slider is in threaded connection with the screw rod two, the threaded slider is slidably connected with the horizontal frame, the toothed support frame is meshed with the gear three and the gear four, and the toothed support frame is slidably connected with the plurality of limit blocks two.

As a further optimization of the technical scheme, sealing rings are arranged between the plurality of liquid storage cylinders and the plurality of cylindrical plugs of the medical external auditory canal cleaning equipment, so that sealing liquid can not flow outwards when the plurality of cylindrical plugs move in the plurality of liquid storage cylinders.

The medical external auditory canal cleaning equipment has the beneficial effects that:

according to the medical external auditory canal cleaning equipment, the equipment can automatically perform extraction and liquid pushing actions, the equipment can generate warm air to dry and clean auditory canals, the temperature of the warm air can be adjusted, and the equipment can perform space position adjustment on a liquid medicine extraction and injection mechanism.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of a medical external auditory canal cleaning device of the invention.

Fig. 2 is a schematic structural diagram of a medical external auditory canal cleaning device of the invention.

Fig. 3 is a schematic structural diagram of a third medical external auditory canal cleaning device of the present invention.

Fig. 4 is a first structural schematic diagram of a liquid medicine extracting and injecting mechanism 1 of a medical external auditory canal cleaning device of the present invention.

Fig. 5 is a second structural schematic diagram of the liquid medicine extracting and injecting mechanism 1 of the medical external auditory canal cleaning device of the present invention.

Fig. 6 is a first structural schematic diagram of the adjustable warm air drying mechanism 2 of the medical external auditory canal cleaning device of the present invention.

Fig. 7 is a second structural schematic diagram of the adjustable warm air drying mechanism 2 of the medical external auditory canal cleaning device of the present invention.

Fig. 8 is a third schematic structural diagram of an adjustable warm air drying mechanism 2 of a medical external auditory canal cleaning device of the present invention.

Fig. 9 is a schematic structural diagram of the adjusting and moving and base mechanism 3 of the medical external auditory canal cleaning device of the present invention.

Fig. 10 is a schematic structural diagram of an adjusting and moving and base mechanism 3 of a medical external auditory canal cleaning device of the present invention.

Fig. 11 is a third schematic structural diagram of the adjusting and moving and base mechanism 3 of the medical external auditory canal cleaning device of the present invention.

Fig. 12 is a fourth schematic structural view of the adjusting and moving and base mechanism 3 of the medical external auditory canal cleaning device of the present invention.

In the figure: a liquid medicine extracting and injecting mechanism 1; 1-1 of a platform I; 1-2 of a hydraulic cylinder; 1-3 of a piston rod I; 1-4 parts of a supporting seat; 1-5 of crank arm with shaft; 1-6 of a first chuck; 1-7 of a threaded slider; 1-8 parts of a second hydraulic cylinder; a second piston rod 1-9; 1-10 of a first connecting rod; 1-11 parts of a liquid pushing rod; 1-12 parts of a first limiting block; 1-13 parts of a liquid storage cylinder; cylindrical plugs 1-14; 1-15 parts of thin round tube; an adjustable warm air drying mechanism 2; a toothed support frame 2-1; 2-2 of a second platform; 2-3 of a cylinder; 2-4 parts of a second supporting rod; 2-5 parts of a hydraulic cylinder III; a piston rod III 2-6; 2-7 parts of a second chuck; 2-8 of through holes; adjusting rods 2-9; 2-10 of a first motor with a shaft; 2-11 parts of a first belt pulley; 2-12 parts of a first belt; 2-13 parts of a second belt pulley; a first transmission shaft 2-14; 2-15 parts of a second supporting seat; 2-16 parts of an impeller; 2-17 parts of heating resistance wires; supporting rods III 2-18; a regulating movement and foundation mechanism 3; platform three 3-1; supporting rod four 3-2; a second motor with a shaft 3-3; 3-4 parts of a first gear; 3-5 parts of a second gear; 3-6 parts of a second transmission shaft; 3-7 parts of a supporting seat; 3-8 parts of a first chain wheel; 3-9 parts of a chain; 3-10 parts of a second chain wheel; 3-11 parts of a first lead screw; 3-12 of a first sliding chute; 3-13 of a vertical frame; gear three 3-14; 3-15 parts of a second limiting block; gear four 3-16; a fourth supporting seat is 3-17; 3-18 parts of a liquid storage tank; a third motor with a shaft 3-19; 3-20 parts of a gear; six gears 3-21; a third transmission shaft 3-22; a fifth supporting seat is 3-23; 3-24 parts of a belt pulley III; 3-25 parts of a second belt; belt pulleys four 3-26; 3-27 parts of a second screw rod; horizontal frames 3-28; a fourth motor with a shaft 3-29; 3-30 parts of a gear wheel seven; eight gears 3-31; and a third screw rod is 3-32.

Detailed Description

The first specific implementation way is as follows:

the present embodiment will be described with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, and the present invention relates to a medical auxiliary device, and more specifically, to a medical external auditory canal cleaning device, in which a liquid medicine extracting and injecting mechanism 1, an adjustable warm air drying mechanism 2, and an adjusting and moving and base mechanism 3 are provided, the device is capable of automatically performing extracting and liquid pushing actions, the device is capable of generating warm air to dry and clean the auditory canal, the device is capable of adjusting the warm air temperature, and the device is capable of spatially adjusting the position of the liquid medicine extracting and injecting mechanism.

The liquid medicine extracting and injecting mechanism 1 is connected with the adjusting and moving and basic mechanism 3, and the adjustable warm air drying mechanism 2 is connected with the adjusting and moving and basic mechanism 3.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, and the present embodiment further describes the present embodiment, where the liquid medicine extracting and injecting mechanism 1 includes a first platform 1-1, a plurality of first hydraulic cylinders 1-2, a plurality of first piston rods 1-3, a plurality of first support seats 1-4, a plurality of crank arms 1-5 with shafts, a plurality of first chucks 1-6, a threaded slider 1-7, a plurality of second hydraulic cylinders 1-8, a plurality of second piston rods 1-9, a plurality of first connecting rods 1-10, a plurality of liquid pushing rods 1-11, a plurality of first limit blocks 1-12, a plurality of liquid storage cylinders 1-13, a plurality of cylindrical plugs 1-14, and a plurality of thin circular tubes 1-15, where the first platform 1-1 is connected to the plurality of first hydraulic cylinders 1-2, the platform I1-1 is connected with a plurality of supporting seats I1-4, the platform I1-1 is connected with a threaded sliding block 1-7, a plurality of hydraulic cylinders I1-2 are slidably connected with a plurality of piston rods I1-3, a plurality of piston rods I1-3 are connected with a plurality of clamping heads I1-6, a plurality of clamping heads I1-6 are slidably connected with a plurality of shaft-provided crank arms 1-5, a plurality of shaft-provided crank arms 1-5 are hinged with a plurality of supporting seats I1-4, a plurality of shaft-provided crank arms 1-5 are connected with a plurality of hydraulic cylinders II 1-8, a plurality of hydraulic cylinders II 1-8 are slidably connected with a plurality of piston rods II 1-9, a plurality of hydraulic cylinders II 1-8 are connected with a plurality of connecting rods I1-10, a plurality of piston rods II 1-9 are connected with a plurality of liquid pushing rods 1-11, the connecting rods 1-10 are connected with the limiting blocks 1-12, the liquid pushing rods 1-11 are slidably connected with the limiting blocks 1-12, the limiting blocks 1-12 are connected with the liquid storage cylinders 1-13, the liquid pushing rods 1-11 are connected with the cylindrical plugs 1-14, the liquid storage cylinders 1-13 are frictionally connected with the cylindrical plugs 1-14, the liquid storage cylinders 1-13 are connected with the thin circular tubes 1-15 and communicated with the thin circular tubes, when liquid medicine is extracted, the hydraulic cylinders 1-2 are decompressed to drive the piston rods 1-3 to return, the piston rods 1-3 drive the clamping heads 1-6 to move, the clamping heads 1-6 drive the shaft-provided crank arms 1-5 to rotate around the supporting seats 1-4, the multiple crank arms 1-5 with shafts drive the multiple hydraulic cylinders two 1-8 to move so as to drive the multiple liquid storage cylinders 1-13 to rotate in the direction vertical to the horizontal plane, the multiple hydraulic cylinders two 1-8 are decompressed to drive the multiple piston rods two 1-9 to return, the multiple piston rods two 1-9 drive the multiple liquid pushing rods 1-11 to move, the multiple liquid pushing rods 1-11 drive the multiple cylindrical plugs 1-14 to move in the multiple liquid storage cylinders 1-13 to form negative pressure, liquid medicine is pumped into the multiple liquid storage cylinders 1-13 from the multiple liquid storage tanks 3-18 through the multiple thin circular tubes 1-15, when liquid medicine needs to be injected, the multiple hydraulic cylinders one 1-2 are pressurized to drive the multiple piston rods one 1-3 to extend, the multiple piston rods one 1-3 drive the multiple chucks one 1-6 to move, the multiple chucks one 1-6 drive the multiple crank arms 1-5 with shafts to rotate around the multiple supporting seats one 1-4, the multiple crank arms 1-5 with shafts drive the multiple hydraulic cylinders two 1-8 to move so as to drive the multiple liquid storage cylinders 1-13 to rotate in the horizontal direction, the multiple hydraulic cylinders two 1-8 are pressurized to drive the multiple piston rods two 1-9 to extend out, the multiple piston rods two 1-9 drive the multiple liquid pushing rods 1-11 to move, the multiple liquid pushing rods 1-11 drive the multiple cylindrical plugs 1-14 to move in the multiple liquid storage cylinders 1-13 to press the liquid medicine in the multiple liquid storage cylinders 1-13, and the liquid medicine is injected into the external auditory canal of a patient from the multiple liquid storage cylinders 1-13 through the multiple thin circular tubes 1-15, so that the equipment has the functions of automatic liquid extraction and liquid medicine injection.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, and the embodiment further describes the first embodiment, where the adjustable warm air drying mechanism 2 includes a toothed support frame 2-1, a platform two 2-2, a cylinder 2-3, two support rods two 2-4, a hydraulic cylinder three 2-5, a piston rod three 2-6, a chuck two 2-7, a through hole 2-8, an adjusting rod 2-9, a belt shaft motor one 2-10, a belt pulley one 2-11, a belt pulley one 2-12, a belt pulley two 2-13, a transmission shaft one 2-14, a support seat two 2-15, an impeller 2-16, a heating resistance wire 2-17, and a support rod three 2-18, the toothed support frame 2-1 is connected with the platform two 2-2, a second platform 2-2 is connected with two second support rods 2-4, a second platform 2-2 is connected with a third hydraulic cylinder 2-5, a second platform 2-2 is connected with a first motor with a shaft 2-10, a second platform 2-2 is hinged with a third support rod 2-18, a cylinder 2-3 is connected with the two second support rods 2-4, the cylinder 2-3 is connected with a second support seat 2-15, the cylinder 2-3 is hinged with the third support rod 2-18, the hydraulic cylinder three 2-5 is connected with a third piston rod 2-6 in a sliding way, the third piston rod 2-6 is connected with a second chuck 2-7, the second chuck 2-7 is connected with a through hole 2-8 in a sliding way, a regulating rod 2-9 is provided with a through hole 2-8, a regulating rod 2-9 is connected with the third support rod 2-18, the first motor with a shaft 2-10 is connected with a first belt pulley 2-11 in a rotating way, the belt pulley I2-11 is in friction connection with the belt pulley I2-12, the belt pulley I2-12 is in friction connection with the belt pulley II 2-13, the belt pulley II 2-13 is connected with the transmission shaft I2-14, the transmission shaft I2-14 is in rotation connection with the support seat II 2-15, the transmission shaft I2-14 is connected with the impeller 2-16, the heating resistance wire 2-17 is connected with the support rod III 2-18, after treatment, the belt shaft motor II 3-3 drives the gear I3-4 to rotate, the gear I3-4 drives the gear II 3-5 to rotate, the gear II 3-5 drives the transmission shaft II 3-6 to rotate, the transmission shaft II 3-6 drives the sprocket I3-8 to rotate, the sprocket I3-8 drives the chain I3-9 to move, the chain I3-9 drives the two sprocket II 3-10 to rotate, two chain wheels two 3-10 drive two screw rods one 3-11 to rotate, two screw rods one 3-11 drive two vertical frames 3-13 to slide in two chutes one 3-12 towards the direction close to the belt shaft motor two 3-3, at the same time, two screw rods one 3-11 drive two gears three 3-14 to rotate, wherein one gear three 3-14 drives a gear four 3-16 to rotate, the other gear three 3-14 and the gear four 3-16 drive the belt gear supporting frame 2-1 to ascend, and further drive the platform two 2-2 to ascend to a working position, at the moment, the belt shaft motor one 2-10 drives the belt pulley one 2-11 to rotate, the belt pulley one 2-11 drives the belt pulley one 2-12 to move, the belt pulley one 2-12 drives the belt pulley two 2-13 to rotate, the belt pulley two 2-13 drives the transmission shaft one 2-14 to rotate, when the temperature needs to be adjusted, a hydraulic cylinder three 2-5 pressurizes to push a piston rod three 2-6 to extend out, the piston rod three 2-6 drives a chuck two 2-7 to move, the chuck two 2-7 slides in a through hole 2-8 to drive an adjusting rod 2-9 to move, the adjusting rod 2-9 drives a supporting rod three 2-18 to move, and the supporting rod three 2-18 drives the heating resistance wire 2-17 to move to change the air flow contact area with the impeller 2-16, so that the equipment has the function of adjusting the temperature of warm air.

The fourth concrete implementation mode:

the following describes the present embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, and fig. 12, and the present embodiment further describes the first embodiment, in which the adjusting, moving and base mechanism 3 includes a platform three 3-1, a plurality of support rods four 3-2, a motor two 3-3 with a shaft, a gear one 3-4, a gear two 3-5, a transmission shaft two 3-6, a support base three 3-7, a sprocket one 3-8, a chain one 3-9, two sprocket two 3-10, two screw rods one 3-11, two sliding grooves one 3-12, two vertical frames 3-13, two gears three 3-14, a plurality of limit blocks two 3-15, a gear four 3-16, two support bases four 3-17, two guide rods one 3-11, two sliding grooves one 3-12, two vertical frames 3-13, two gears three 3-14, a plurality of limit blocks two 3-15, a gear four 3-16, two support bases four 3-17, 3-18 parts of a plurality of liquid storage tanks, 3-19 parts of a motor with a shaft, 3-20 parts of a gear five, 3-21 parts of a gear six, 3-22 parts of a transmission shaft three, 3-23 parts of a support seat five, 3-24 parts of a belt pulley three, 3-25 parts of a belt pulley two, 3-26 parts of a belt pulley four, 3-27 parts of a screw rod two, 3-28 parts of a horizontal frame, 3-29 parts of two motors with shafts four, 3-30 parts of two gears seven, 3-31 parts of two gears eight, and 3-32 parts of two screw rods three, wherein a platform three 3-1 is connected with a plurality of support rods four 3-2, a platform three 3-1 is connected with the motor with the shaft two 3-3, the platform three 3-1 is connected with the support seat three 3-7, the platform three 3-1 is connected with two sliding chutes one 3-12, and the platform three 3-1 is connected with a plurality of limit blocks two 3-15, a platform III 3-1 is connected with two supporting seats IV 3-17, the platform III 3-1 is connected with a plurality of liquid storage tanks 3-18, a motor II 3-3 with a shaft is rotationally connected with a gear I3-4, the gear I3-4 is meshed with a gear II 3-5, the gear II 3-5 is connected with a transmission shaft II 3-6, the transmission shaft II 3-6 is rotationally connected with a supporting seat III 3-7, the transmission shaft II 3-6 is connected with a chain wheel I3-8, the chain wheel I3-8 is meshed with a chain I3-9, the chain I3-9 is meshed with two chain wheel II 3-10, the two chain wheel II 3-10 is connected with two screw rods I3-11, the two screw rods I3-11 are rotationally connected with two sliding grooves I3-12, the two screw rods I3-11 are in threaded connection with two vertical frames 3-13, two sliding chutes I3-12 are connected with two vertical frames 3-13 in a sliding way, two screw rods I3-11 are connected with two gears III 3-14, two vertical frames 3-13 are connected with horizontal frames 3-28 in a sliding way, gears III 3-14 are meshed with gears IV 3-16, gears IV 3-16 are connected with two support bases IV 3-17 in a rotating way, a motor III 3-19 with a shaft is connected with gears V3-20 in a rotating way, gears V3-20 are meshed with gears VI 3-21, gears VI 3-21 are connected with transmission shafts III 3-22, transmission shafts III 3-22 are connected with support bases V3-23 in a rotating way, transmission shafts III 3-22 are connected with belt pulleys III 3-24, and belt pulleys III 3-24 are connected with belt pulleys II 3-25 in a friction way, a belt II 3-25 is in frictional connection with a belt pulley IV 3-26, the belt pulley IV 3-26 is connected with a screw rod II 3-27, the screw rod II 3-27 is in rotational connection with a horizontal frame 3-28, the horizontal frame 3-28 is in rotational connection with two screw rods III 3-32, two shaft motors IV 3-29 are connected with two vertical frames 3-13, two shaft motors IV 3-29 are in rotational connection with two gears VII 3-30, two gears VII 3-30 are engaged with two gears VIII 3-31, two gears VIII 3-31 are connected with two screw rods III 3-32, a threaded slide block 1-7 is in threaded connection with the screw rod II 3-27, a threaded slide block 1-7 is in sliding connection with the horizontal frame 3-28, a toothed support frame 2-1 is in sliding connection with the gear III 3-14, The gear four 3-16 is engaged, the toothed support frame 2-1 is slidably connected with a plurality of limiting blocks two 3-15, the belt shaft motor three 3-19 drives the gear five 3-20 to rotate, the gear five 3-20 drives the gear six 3-21 to rotate, the gear six 3-21 drives the transmission shaft three 3-22 to rotate, the belt pulley three 3-24 of the transmission shaft three 3-22 rotates, the belt pulley three 3-24 drives the belt pulley two 3-25 to move, the belt pulley two 3-25 drives the belt pulley four 3-26 to rotate, the belt pulley four 3-26 drives the screw rod two 3-27 to rotate, the screw rod two 3-27 drives the threaded slide block 1-7 to slide on the horizontal frame 3-28, the two belt shaft motor four 3-29 drives the two gear seven 3-30 to rotate, the two gear seven 3-30 drives the two gear eight 3-31 to rotate, the two gears eight 3-31 drive the two screw rods three 3-32 to rotate, and the two screw rods three 3-32 drive the horizontal frames 3-28 to slide in the two vertical frames 3-13, so that the device has three-direction position adjusting functions of a liquid medicine extracting and liquid pushing mechanism.

The fifth concrete implementation mode:

the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, and 12, and will be further described with reference to the present embodiment, in which a sealing ring is provided between the plurality of liquid storage cylinders 1 to 13 and the plurality of cylindrical plugs 1 to 14, so that the sealing liquid is kept from flowing out when the plurality of cylindrical plugs 1 to 14 move in the plurality of liquid storage cylinders 1 to 13.

The working principle of the device is as follows: the device can automatically execute the actions of drawing and pushing liquid, when liquid medicine is drawn, the plurality of hydraulic cylinders I1-2 are decompressed to drive the plurality of piston rods I1-3 to return, the plurality of piston rods I1-3 drive the plurality of clamping heads I1-6 to move, the plurality of clamping heads I1-6 drive the plurality of crank arms with shafts 1-5 to rotate around the plurality of supporting seats I1-4, the plurality of crank arms with shafts 1-5 drive the plurality of hydraulic cylinders II 1-8 to move so as to drive the plurality of liquid storage cylinders 1-13 to rotate in the direction vertical to the horizontal plane, the plurality of hydraulic cylinders II 1-8 are decompressed to drive the plurality of piston rods II 1-9 to return, the plurality of piston rods II 1-9 drive the plurality of liquid pushing rods 1-11 to move, the plurality of liquid pushing rods 1-11 drive the plurality of cylindrical plugs 1-14 to move in the plurality of liquid storage cylinders 1-13 to form negative pressure, when liquid medicine needs to be injected, the plurality of hydraulic cylinders I1-2 are pressurized to drive the plurality of piston rods I1-3 to extend out, the plurality of piston rods I1-3 drive the plurality of clamping heads I1-6 to move, the plurality of clamping heads I1-6 drive the plurality of crank arms 1-5 with shafts to rotate around the plurality of supporting seats I1-4, the plurality of crank arms 1-5 with shafts drive the plurality of hydraulic cylinders II 1-8 to move so as to drive the plurality of liquid storage cylinders 1-13 to rotate in the horizontal direction, the plurality of hydraulic cylinders II 1-8 are pressurized to drive the plurality of piston rods II 1-9 to extend out, the plurality of piston rods II 1-9 drive the plurality of liquid pushing rods 1-11 to move, and the plurality of liquid pushing rods 1-11 drive the plurality of cylindrical plugs 1-14 to move in the plurality of liquid storage cylinders 1-13 to form compression for the plurality of liquid storage cylinders 1-13 1-13, injecting the liquid medicine from a plurality of liquid storage cylinders 1-13 to the external auditory canal of a patient through a plurality of thin circular tubes 1-15, so that the equipment has the functions of automatically extracting and injecting the liquid medicine; the device can generate warm air to dry and clean auditory meatus, after treatment is finished, the shaft-mounted motor II 3-3 drives the gear I3-4 to rotate, the gear I3-4 drives the gear II 3-5 to rotate, the gear II 3-5 drives the transmission shaft II 3-6 to rotate, the transmission shaft II 3-6 drives the chain wheel I3-8 to rotate, the chain wheel I3-8 drives the chain wheel I3-9 to move, the chain wheel I3-9 drives the two chain wheels II 3-10 to rotate, the two chain wheels II 3-10 drive the two screw rods I3-11 to rotate, the two screw rods I3-11 drive the two vertical frames 3-13 to slide in the two sliding grooves I3-12 towards the direction close to the shaft-mounted motor II 3-3, and the two screw rods I3-11 drive the two gear wheels III 3-14 to rotate, one of the gears three 3-14 drives the gear four 3-16 to rotate, the other gear three 3-14 and the gear four 3-16 drive the toothed support frame 2-1 to ascend, further drive the platform two 2-2 to ascend to a working position, at the moment, the belt pulley I2-11 is driven by the belt shaft motor I2-10 to rotate, the belt pulley I2-11 drives the belt I2-12 to move, the belt I2-12 drives the belt pulley II 2-13 to rotate, the belt pulley II 2-13 drives the transmission shaft I2-14 to rotate, the transmission shaft I2-14 drives the impeller 2-16 to rotate to generate air blowing, the air blowing is heated by the heating resistance wire 2-17 and blown to the external auditory canal of a patient, and the equipment has the function of drying the external auditory canal by hot air; the device can adjust the temperature of warm air, when the temperature needs to be adjusted, a hydraulic cylinder III 2-5 pressurizes and pushes a piston rod III 2-6 to extend out, the piston rod III 2-6 drives a chuck II 2-7 to move, the chuck II 2-7 slides in a through hole 2-8 to drive an adjusting rod 2-9 to move, the adjusting rod 2-9 drives a supporting rod III 2-18 to move, the supporting rod III 2-18 drives a heating resistance wire 2-17 to move to change the contact area of the heating resistance wire and an air flow generated by an impeller 2-16, and the device has the function of adjusting the temperature of the warm air; the device can adjust the space position of the liquid medicine extracting and injecting mechanism, the motor three 3-19 with a shaft drives the gear five 3-20 to rotate, the gear five 3-20 drives the gear six 3-21 to rotate, the gear six 3-21 drives the transmission shaft three 3-22 to rotate, the belt pulley three 3-24 of the transmission shaft three 3-22 rotates, the belt pulley three 3-24 drives the belt two 3-25 to move, the belt two 3-25 drives the belt pulley four 3-26 to rotate, the belt pulley four 3-26 drives the screw rod two 3-27 to rotate, the screw rod two 3-27 drives the threaded slide block 1-7 to slide on the horizontal frame 3-28, the motor four 3-29 with two shafts drives the two gears seven 3-30 to rotate, the two gears seven 3-30 drive the two gears eight 3-31 to rotate, the two gears eight 3-31 drive the two screw rods three 3-32 to rotate, and the two screw rods three 3-32 drive the horizontal frames 3-28 to slide in the two vertical frames 3-13, so that the device has three-direction position adjusting functions of a liquid medicine extracting and liquid pushing mechanism.

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.

Claims (2)

1. The utility model provides a medical external auditory canal cleaning equipment, includes liquid medicine extraction injection mechanism (1), adjustable warm dry mechanism of air (2), regulation removal and basic mechanism (3), its characterized in that: the liquid medicine extracting and injecting mechanism (1) is connected with the adjusting moving and basic mechanism (3), and the adjustable warm air drying mechanism (2) is connected with the adjusting moving and basic mechanism (3);

the liquid medicine extracting and injecting mechanism (1) comprises a first platform (1-1), a plurality of hydraulic cylinders (1-2), a plurality of first piston rods (1-3), a plurality of first supporting seats (1-4), a plurality of crank arms (1-5) with shafts, a plurality of first clamping heads (1-6), a threaded sliding block (1-7), a plurality of second hydraulic cylinders (1-8), a plurality of second piston rods (1-9), a plurality of first connecting rods (1-10), a plurality of liquid pushing rods (1-11), a plurality of first limiting blocks (1-12), a plurality of liquid storage cylinders (1-13), a plurality of cylindrical plugs (1-14) and a plurality of thin circular tubes (1-15), wherein the first platform (1-1) is connected with the plurality of first hydraulic cylinders (1-2), and the first platform (1-1) is connected with the plurality of first supporting seats (1-4), the platform I (1-1) is connected with the threaded sliding block (1-7), the hydraulic cylinders I (1-2) are connected with the piston rods I (1-3) in a sliding manner, the piston rods I (1-3) are connected with the clamping heads I (1-6), the clamping heads I (1-6) are connected with the pivot crank arms I (1-5) in a sliding manner, the pivot crank arms I (1-5) are hinged with the supporting seats I (1-4), the pivot crank arms I (1-5) are connected with the hydraulic cylinders II (1-8), the hydraulic cylinders II (1-8) are connected with the piston rods II (1-9) in a sliding manner, the hydraulic cylinders II (1-8) are connected with the connecting rods I (1-10), the piston rods II (1-9) are connected with the liquid pushing rods (1-11), the connecting rods I (1-10) are connected with the limiting blocks I (1-12), the liquid pushing rods (1-11) are connected with the limiting blocks I (1-12) in a sliding mode, the limiting blocks I (1-12) are connected with the liquid storage cylinders (1-13), the liquid pushing rods (1-11) are connected with the cylindrical plugs (1-14), the liquid storage cylinders (1-13) are connected with the cylindrical plugs (1-14) in a friction mode, and the liquid storage cylinders (1-13) are connected and communicated with the thin circular tubes (1-15);

The adjustable warm air drying mechanism (2) comprises a toothed support frame (2-1), a platform II (2-2), a cylinder (2-3), two support rods II (2-4), a hydraulic cylinder III (2-5), a piston rod III (2-6), a clamping head II (2-7), a through hole (2-8), an adjusting rod (2-9), a belt shaft motor I (2-10), a belt pulley I (2-11), a belt I (2-12), a belt pulley II (2-13), a transmission shaft I (2-14), a support seat II (2-15), an impeller (2-16), a heating resistance wire (2-17) and a support rod III (2-18), wherein the toothed support frame (2-1) is connected with the platform II (2-2), the platform II (2-2) is connected with the two support rods II (2-4), the second platform (2-2) is connected with the third hydraulic cylinder (2-5), the second platform (2-2) is connected with the first motor (2-10) with a shaft, the second platform (2-2) is hinged with the third support rod (2-18), the cylinder (2-3) is connected with the second two support rods (2-4), the cylinder (2-3) is connected with the second support seat (2-15), the cylinder (2-3) is hinged with the third support rod (2-18), the third hydraulic cylinder (2-5) is connected with the third piston rod (2-6) in a sliding manner, the third piston rod (2-6) is connected with the second chuck (2-7), the second chuck (2-7) is connected with the second through hole (2-8) in a sliding manner, the adjusting rod (2-9) is provided with the through hole (2-8), the adjusting rod (2-9) is connected with the third support rod (2-18), a first motor (2-10) with a shaft is rotationally connected with a first belt pulley (2-11), the first belt pulley (2-11) is in frictional connection with a first belt (2-12), the first belt (2-12) is in frictional connection with a second belt pulley (2-13), the second belt pulley (2-13) is connected with a first transmission shaft (2-14), the first transmission shaft (2-14) is rotationally connected with a second support seat (2-15), the first transmission shaft (2-14) is connected with an impeller (2-16), and a heating resistance wire (2-17) is connected with a third support rod (2-18);

The adjusting, moving and foundation mechanism (3) comprises a platform III (3-1), a plurality of support rods IV (3-2), a shaft-mounted motor II (3-3), a gear I (3-4), a gear II (3-5), a transmission shaft II (3-6), a support seat III (3-7), a chain wheel I (3-8), a chain I (3-9), two chain wheel II (3-10), two screw rods I (3-11), two sliding chutes I (3-12), two vertical frames (3-13), two gears III (3-14), a plurality of limit blocks II (3-15), a gear IV (3-16), two support seat IV (3-17), a plurality of liquid storage tanks I (3-18), a shaft-mounted motor III (3-19), a gear V (3-20), Six gears (3-21), three transmission shafts (3-22), five support seats (3-23), three belt pulleys (3-24), two belts (3-25), four belt pulleys (3-26), two screw rods (3-27), a horizontal frame (3-28), four two belt shaft motors (3-29), seven gears (3-30), eight gears (3-31) and three screw rods (3-32), wherein the three platform (3-1) is connected with the four support rods (3-2), the three platform (3-1) is connected with the two belt shaft motors (3-3), the three platform (3-1) is connected with the three support seats (3-7), the three platform (3-1) is connected with the two first sliding chutes (3-12), the three platform (3-1) is connected with the two limit blocks (3-15), the platform III (3-1) is connected with the two supporting seats IV (3-17), the platform III (3-1) is connected with the liquid storage tanks (3-18), the motor II (3-3) with a shaft is rotationally connected with the gear I (3-4), the gear I (3-4) is meshed with the gear II (3-5), the gear II (3-5) is connected with the transmission shaft II (3-6), the transmission shaft II (3-6) is rotationally connected with the supporting seats III (3-7), the transmission shaft II (3-6) is connected with the chain wheel I (3-8), the chain wheel I (3-8) is meshed with the chain I (3-9), the chain I (3-9) is meshed with the two chain wheel II (3-10), the two chain wheel II (3-10) is connected with the two lead screws I (3-11), two first screw rods (3-11) are rotatably connected with two first sliding chutes (3-12), the two first screw rods (3-11) are in threaded connection with two vertical frames (3-13), the two first sliding chutes (3-12) are in sliding connection with the two vertical frames (3-13), the two first screw rods (3-11) are connected with two third gears (3-14), the two vertical frames (3-13) are in sliding connection with a horizontal frame (3-28), the third gears (3-14) are meshed with a fourth gear (3-16), the fourth gear (3-16) is rotatably connected with two fourth supporting seats (3-17), a third motor with a shaft (3-19) is rotatably connected with a fifth gear (3-20), the fifth gear (3-20) is meshed with a sixth gear (3-21), a sixth gear (3-21) is connected with a third transmission shaft (3-22), the third transmission shaft (3-22) is rotationally connected with a fifth support seat (3-23), the third transmission shaft (3-22) is connected with a third belt pulley (3-24), the third belt pulley (3-24) is frictionally connected with a second belt (3-25), the second belt (3-25) is frictionally connected with a fourth belt pulley (3-26), the fourth belt pulley (3-26) is connected with a second lead screw (3-27), the second lead screw (3-27) is rotationally connected with a horizontal frame (3-28), the horizontal frame (3-28) is rotationally connected with two third lead screws (3-32), two fourth belt shaft motors (3-29) are connected with two vertical frames (3-13), and the fourth belt shaft motors (3-29) are rotationally connected with two seventh gears (3-30), the two gears seven (3-30) are meshed with the two gears eight (3-31), the two gears eight (3-31) are connected with the two screw rods three (3-32), the threaded sliding blocks (1-7) are in threaded connection with the screw rods two (3-27), the threaded sliding blocks (1-7) are in sliding connection with the horizontal frames (3-28), the toothed supporting frame (2-1) is meshed with the gears three (3-14) and the gears four (3-16), and the toothed supporting frame (2-1) is in sliding connection with the limiting blocks two (3-15).

2. The medical external auditory canal cleaning device according to claim 1, characterized in that: sealing rings are arranged between the plurality of liquid storage cylinders (1-13) and the plurality of cylindrical plugs (1-14), and when the plurality of cylindrical plugs (1-14) move in the plurality of liquid storage cylinders (1-13), sealing liquid is kept not to flow outwards.

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