Disclosure of Invention
The invention mainly solves the technical problem of providing medical multifunctional andrology department disinfection equipment, the equipment can move on the ground, the equipment can clean the ground and adsorb garbage into an adsorption box in the moving process, the equipment can discharge the garbage adsorbed into the adsorption box, the equipment can humidify air, and the equipment can disinfect the ground in the moving process.
In order to solve the technical problem, the invention relates to a male department disinfection device, in particular to a medical multifunctional male department disinfection device which comprises a travelling mechanism, an air humidifying mechanism and a disinfection and dust absorption linkage mechanism, wherein the device can travel on the ground, can clean the ground and adsorb garbage into an adsorption box in the process of traveling, can discharge the garbage adsorbed into the adsorption box, can humidify air, and can disinfect the ground in the process of traveling.
The traveling mechanism is connected with the air humidifying mechanism, the air humidifying mechanism is connected with the disinfecting and dust collecting linkage mechanism, and the disinfecting and dust collecting linkage mechanism is connected with the traveling mechanism.
As a further optimization of the technical scheme, the invention relates to a medical multifunctional sterilization device for andrological departments, which comprises a direction motor, a direction motor shaft, a friction wheel a, a friction wheel b, a connecting shaft a, a bearing block, a connecting shaft b, a direction wheel, a mounting plate a, a device mounting box, a mounting plate b, a power motor shaft, a belt a, a connecting shaft c, a friction wheel c, a connecting shaft with keys, a friction wheel with key grooves, a traveling ball, a connecting block of the traveling ball with the shaft, a mounting plate c, a handle, a limit triangular block, a limit shaft, a mounting plate d, a pressure spring, a mounting plate e and a limit friction wheel, wherein the direction motor is connected with the direction motor shaft which is connected with the mounting plate a, the direction motor shaft is connected with the friction wheel a in a friction way, the friction wheel a is connected with the friction wheel b in a friction way, the connecting shaft a is connected with the bearing block, the connecting shaft a is connected with a mounting plate a bearing, the connecting shaft a is connected with a mounting plate b bearing, a bearing block is connected with a connecting shaft b bearing, the connecting shaft b is connected with a direction wheel bearing, the mounting plate a is connected with an equipment mounting box, the mounting plate a is connected with a mounting plate b, the mounting plate a is connected with a power motor, the mounting plate a is connected with a connecting shaft c bearing, the mounting plate a is connected with a connecting block for a traveling ball with a shaft, the mounting plate a is connected with a mounting plate c, the mounting plate a is connected with a limiting shaft in a sliding manner, the mounting plate a is connected with a mounting plate d, the mounting plate a is connected with a mounting plate e, the equipment mounting box is connected with the mounting plate b, the equipment mounting box is connected with a connecting shaft c bearing, the power motor is connected with the power motor shaft, the power motor shaft is connected with a belt a in a friction manner, the belt a is connected with the connecting shaft c in a friction manner, the belt a is connected with a friction wheel c in a friction manner, the friction wheel c is connected with a connection with a connecting shaft with a key, the key connecting shaft is connected with the friction wheel with the key groove in a sliding mode, the connecting shaft with the key is connected with the mounting plate c bearing, the connecting shaft with the key is connected with the handle, the connecting shaft with the key is connected with the limiting friction wheel, the friction wheel with the key groove is connected with the advancing ball in a friction mode, the advancing ball is connected with the advancing ball connecting block bearing with the shaft, the limiting triangular block is connected with the limiting shaft, the limiting triangular block is connected with the mounting plate e in a sliding mode, the limiting shaft is connected with the mounting plate d, and the pressure spring is sleeved on the limiting shaft and located on the mounting plate a and the mounting plate d.
As a further optimization of the technical scheme, the invention relates to a medical multifunctional sterilization device for andrology departments, which comprises a belt b, a connecting shaft I, a friction wheel I, a connecting shaft II, a propeller, a rubber tube, a mounting plate I, an output tube connecting sleeve, an output tube, a linkage friction wheel, a plugging friction limiting block, a plugging friction block, a mounting plate II, a mounting plate III, a mounting plate circular plate, a circular plate limiting circular strip, an electric heater and a mounting plate IV, wherein one end of the belt b is in friction connection with the connecting shaft I, the other end of the belt b is in friction connection with the connecting shaft C, the belt b is in friction connection with the friction wheel I, the connecting shaft I is in bearing connection with the mounting plate A, the friction wheel I is in connection with the connecting shaft II, the connecting shaft II is in connection with the propeller, the connecting shaft II is in connection with the mounting plate A in bearing connection, the connecting shaft II is in connection with the mounting plate B in bearing connection, the rubber tube is in connection with the mounting plate I, the rubber tube is connected with an output tube connecting sleeve, the rubber tube is connected with a mounting plate a, the rubber tube is connected with a blocking friction limiting block, the rubber tube is connected with a mounting plate circular plate, a first mounting plate is connected with the output tube, the output tube connecting sleeve is connected with the output tube, the output tube is connected with an equipment mounting box, a linkage friction wheel is connected with a blocking friction block in a friction mode, the linkage friction wheel is connected with a connecting shaft a, the blocking friction limiting block is connected with a blocking friction block in a sliding mode, a second mounting plate is connected with a third mounting plate, a second mounting plate is connected with a circular plate limiting circular strip in a sliding mode, a second mounting plate is connected with the equipment mounting box, a third mounting plate is connected with a mounting plate b, the circular plate is connected with the circular plate limiting circular strip in a sliding mode, an electric heater is connected with the mounting plate a, and a fourth mounting plate is connected with the mounting plate a.
As a further optimization of the technical scheme, the invention relates to a medical multifunctional sterilization device for andrology departments, which comprises a linkage friction wheel a, a transmission shaft a, a reverse propeller a, a switching connecting block, a switching pushing shaft, a switching connecting plate, a switching spring, a switching connecting hole, a cleaning friction wheel, a cleaning belt, a cleaning limit strip, a cleaning brush, an adsorption pipe, a linkage friction wheel c, a transmission shaft b, a reverse propeller b, a linkage plugging block chute, a sterilization output pipe a, a sterilization output pipe b, a sterilization pipe connecting plate, a plugging supporting plate, a rotary barrel a, a rotary barrel b, an output propeller, a garbage output pipe and a disinfectant input pipe, wherein the linkage friction wheel a is connected with the transmission shaft a, the linkage friction wheel a is connected with the linkage plugging block in a friction manner, the linkage friction wheel a is connected with the belt b in a friction manner, the transmission shaft a is connected with the reverse propeller a, the cleaning device comprises a cleaning friction wheel, a transmission shaft a, a mounting plate a, a switching connecting block, a switching connecting plate, a switching spring, a cleaning limiting strip, a cleaning brush, a cleaning limiting strip, a mounting plate a, an adsorption pipe, a linkage friction wheel c, a linkage friction wheel b, a belt b and a reverse propeller b, wherein the transmission shaft a is connected with the mounting plate a through a bearing, the switching connecting block is connected with the switching pushing shaft, the switching connecting block is connected with the mounting plate a through a sliding connection, the switching pushing shaft is connected with the switching connecting plate a through a sliding connection, the switching connecting block is limited on the switching pushing shaft, the switching connecting hole is formed in the mounting plate a through a sliding connection, the cleaning belt is connected with the cleaning limiting strip through a sliding connection, the cleaning belt is connected with the cleaning brush, the cleaning limiting strip is connected with the mounting plate a through a sliding connection, one end of the adsorption pipe is connected with the switching connecting hole and communicated with the mounting plate a, the other end of the linkage friction wheel c is connected with the transmission shaft b, the linkage friction wheel c is connected with the belt b, the reverse propeller b is connected with the transmission shaft b, the transmission shaft b is connected with a bearing of the mounting plate a, the transmission shaft b is connected with a bearing of the mounting plate b, the linkage plugging block is in sliding connection with a sliding groove of the linkage plugging block, the sliding groove of the linkage plugging block is connected with the mounting plate b, the upper end of the disinfection output tube a is connected with the mounting plate b, the disinfection output tube a is connected and communicated with the disinfection output tube b, the disinfection output tube b is connected with a connecting plate of the disinfection tube, the connecting plate of the disinfection tube is connected with the mounting plate b, the plugging support plate is connected with the mounting plate b, the rotary barrel a is connected with a bearing of the rotary barrel b, the rotary barrel a is connected with an equipment installation box, the rotary barrel b is connected with an output screw propeller, the garbage output tube is connected and communicated with a second mounting plate, and the disinfectant input tube is connected and communicated with the second mounting plate.
As a further optimization of the technical scheme, the multifunctional medical andrology department disinfection equipment has the advantages that a large number of resistors are arranged in the electric heater, and the electric heater can generate heat after being powered on.
The medical multifunctional andrology department disinfection equipment has the beneficial effects that:
the medical multifunctional andrology department disinfection equipment can move on the ground, clean the ground and adsorb garbage into the adsorption tank in the moving process, discharge the garbage adsorbed into the adsorption tank out of the equipment, humidify air and disinfect the ground in the moving process.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
FIG. 1 is a first structural schematic diagram of a medical multifunctional sterilizing device for andrology department according to the present invention.
FIG. 2 is a second structural schematic view of the multifunctional medical andrology department disinfection equipment of the present invention.
Fig. 3 is a first structural schematic diagram of a traveling mechanism 1 of the multifunctional medical andrology department disinfection equipment.
Fig. 4 is a second structural schematic diagram of the traveling mechanism 1 of the multifunctional medical andrology department disinfection equipment of the invention.
Fig. 5 is a third structural schematic view of the traveling mechanism 1 of the multifunctional medical andrology department disinfection equipment of the invention.
Fig. 6 is a fourth structural schematic view of the traveling mechanism 1 of the multifunctional medical andrology department disinfection equipment of the invention.
Fig. 7 is a fifth structural schematic view of the traveling mechanism 1 of the multifunctional medical andrology department disinfection equipment of the invention.
Fig. 8 is a sixth schematic structural view of the traveling mechanism 1 of the medical multifunctional andrology department disinfection equipment of the invention.
Fig. 9 is a seventh structural schematic view of a traveling mechanism 1 of the medical multifunctional andrology department disinfection equipment of the invention.
Fig. 10 is an eighth schematic structural view of the traveling mechanism 1 of the multifunctional medical andrology department disinfection equipment of the invention.
Fig. 11 is a nine-part schematic structural view of the traveling mechanism 1 of the multifunctional medical andrology department disinfection equipment of the invention.
Fig. 12 is a first structural schematic diagram of the air humidifying mechanism 2 of the multifunctional medical andrology department disinfection equipment of the invention.
Fig. 13 is a second structural schematic diagram of the air humidifying mechanism 2 of the multifunctional medical andrology department disinfection equipment of the invention.
Fig. 14 is a third structural schematic diagram of the air humidifying mechanism 2 of the multifunctional medical andrology department sterilizing equipment of the invention.
Fig. 15 is a fourth structural schematic view of the air humidifying mechanism 2 of the multifunctional medical andrology department sterilizing equipment of the invention.
Fig. 16 is a first structural schematic view of a disinfection and dust collection linkage mechanism 3 of the medical multifunctional andrology department disinfection equipment.
Fig. 17 is a second structural schematic view of a disinfection and dust collection linkage mechanism 3 of the medical multifunctional andrology department disinfection equipment.
Fig. 18 is a third structural schematic view of a disinfection and dust collection linkage mechanism 3 of the medical multifunctional andrology department disinfection equipment.
Fig. 19 is a fourth structural schematic view of a disinfection and dust absorption linkage mechanism 3 of the medical multifunctional andrology department disinfection equipment.
Fig. 20 is a fifth structural schematic view of a disinfection and dust collection linkage mechanism 3 of the medical multifunctional andrology department disinfection equipment.
Fig. 21 is a sixth schematic structural view of a disinfection and dust collection linkage mechanism 3 of the medical multifunctional andrology department disinfection equipment.
Fig. 22 is a seventh structural schematic view of a disinfection and dust collection linkage mechanism 3 of the medical multifunctional andrology department disinfection equipment.
Fig. 23 is an eighth schematic structural view of the disinfecting and dust-collecting linkage mechanism 3 of the multifunctional medical andrology department disinfecting device of the present invention.
Fig. 24 is a ninth structural schematic view of a disinfection and dust collection linkage mechanism 3 of the medical multifunctional andrology department disinfection equipment.
In the figure: the device comprises a traveling mechanism 1, a direction motor 1-1, a direction motor shaft 1-2, a friction wheel a1-3, a friction wheel b1-4, a connecting shaft a1-5, a bearing block 1-6, a connecting shaft b1-7, a direction wheel 1-8, a mounting plate a1-9, an equipment mounting box 1-10, a mounting plate b1-11, a power motor 1-12, a power motor shaft 1-13, a belt a1-14, a connecting shaft c1-15, a friction wheel c1-16, a connecting shaft with keys 1-17, a friction wheel with key grooves 1-18, a traveling ball 1-19, a connecting block with traveling balls with shafts 1-20, a mounting plate c1-21, a handle 1-22, a limiting triangular block 1-23, a limiting shaft 1-24, a mounting plate d1-25, a pressure spring 1-26, a pressure spring, Mounting plates e1-27 and limiting friction wheels 1-28; the device comprises an air humidifying mechanism 2, a belt b2-1, a first connecting shaft 2-2, a first friction wheel 2-3, a second connecting shaft 2-4, a propeller 2-5, a rubber pipe 2-6, a first mounting plate 2-7, an output pipe connecting sleeve 2-8, an output pipe 2-9, a linkage friction wheel 2-10, a blocking friction limiting block 2-11, a blocking friction block 2-12, a second mounting plate 2-13, a third mounting plate 2-14, a circular plate 2-15, a circular plate limiting round bar 2-16, an electric heater 2-17 and a fourth mounting plate 2-18; a disinfection and dust collection linkage mechanism 3; linkage friction wheel a3-1, transmission shaft a3-2, reverse propeller a3-3, switching connecting block 3-4, switching pushing shaft 3-5, switching connecting plate 3-6, switching spring 3-7, switching connecting hole 3-8, cleaning friction wheel 3-9, cleaning belt 3-10, cleaning limit strip 3-11, cleaning brush 3-12, adsorption tube 3-13, linkage friction wheel c3-14, transmission shaft b3-15, reverse propeller b3-16, linkage block 3-17, linkage block chute 3-18, disinfection output tube a3-19, disinfection output tube b3-20, disinfection tube connecting plate 3-21, block supporting plate 3-22, rotary barrel a3-23, rotary barrel b3-24, output propeller 3-25, 3-26 parts of garbage output pipe and 3-27 parts of disinfectant input pipe.
Detailed Description
The first embodiment is as follows:
the present embodiment will be 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, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, and fig. 24, and the present invention relates to a sterilization apparatus for an andrology department, and more particularly, to a medical multi-functional andrology department sterilization apparatus, which includes a travel mechanism 1, an air humidification mechanism 2, and a sterilization and dust collection linkage mechanism 3, and is capable of traveling on the ground, cleaning the ground and adsorbing trash during the traveling, and discharging the trash adsorbed into an adsorption tank, humidifying the air, and sterilizing the ground during the traveling.
The travelling mechanism 1 is connected with the air humidifying mechanism 2, the air humidifying mechanism 2 is connected with the disinfecting and dust collecting linkage mechanism 3, and the disinfecting and dust collecting linkage mechanism 3 is connected with the travelling mechanism 1.
The second embodiment is as follows:
the following describes this 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, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, and fig. 24, and this embodiment further describes this embodiment, where the travel mechanism 1 includes a direction motor 1-1, a direction motor shaft 1-2, a friction wheel a1-3, a friction wheel b1-4, a connecting shaft a1-5, a bearing block 1-6, a connecting shaft b1-7, a direction wheel 1-8, a mounting plate a1-9, an equipment mounting box 1-10, a mounting plate b1-11, a power motor 1-12, a power motor shaft 1-13, a belt a1-14, a 35c 1-15, a friction connecting shaft c1-16, 1-17 of a connecting shaft with keys, 1-18 of a friction wheel with a key groove, 1-19 of a traveling ball, 1-20 of a connecting block of the traveling ball with the shaft, c1-21 of a mounting plate, 1-22 of a handle, 1-23 of a limit triangular block, 1-24 of a limit shaft, d1-25 of the mounting plate, 1-26 of a pressure spring, e1-27 of the mounting plate and 1-28 of the limit friction wheel, 1-1 of a direction motor is connected with 1-2 of a direction motor shaft, 1-1 of the direction motor is connected with 1-9 of the mounting plate, 1-2 of the direction motor shaft is connected with a1-3 of the friction wheel, a1-3 of the friction wheel is connected with b1-4 of the friction wheel, b1-4 of the friction wheel is connected with a1-5 of the connecting shaft, a1-5 of the connecting shaft is connected with 1-6 of a bearing of the bearing block, a1-5 of the connecting shaft is connected with a1-9 of the mounting plate, a connecting shaft a1-5 is in bearing connection with a mounting plate b1-11, a bearing block 1-6 is in bearing connection with a connecting shaft b1-7, a connecting shaft b1-7 is in bearing connection with a steering wheel 1-8, a mounting plate a1-9 is in bearing connection with an equipment mounting box 1-10, a mounting plate a1-9 is in bearing connection with a mounting plate b1-11, a mounting plate a1-9 is in bearing connection with a power motor 1-12, a mounting plate a1-9 is in bearing connection with a connecting shaft c1-15, a mounting plate a1-9 is in connection with a connecting block 1-20 for a traveling ball with a shaft, a mounting plate a1-9 is in connection with a mounting plate c1-21, a mounting plate a1-9 is in sliding connection with a limiting shaft 1-24, a mounting plate a1-9 is in connection with a mounting plate d1-25, a mounting plate a1-9 is in connection with a mounting plate e1-27, the equipment installation box 1-10 is connected with the installation plate b1-11, the equipment installation box 1-10 is in bearing connection with a connecting shaft c1-15, the power motor 1-12 is connected with a power motor shaft 1-13, the power motor shaft 1-13 is in friction connection with a belt a1-14, the belt a1-14 is in friction connection with the connecting shaft c1-15, the belt a1-14 is in friction connection with a friction wheel c1-16, the friction wheel c1-16 is connected with a keyed connecting shaft 1-17, the keyed connecting shaft 1-17 is in sliding connection with a keyed friction wheel 1-18, the keyed connecting shaft 1-17 is in bearing connection with the installation plate c1-21, the keyed connecting shaft 1-17 is connected with a handle 1-22, the keyed connecting shaft 1-17 is connected with a limiting friction wheel 1-28, the keyed friction wheel 1-18 is in friction connection with a traveling ball 1-19, the marching balls 1-19 are in bearing connection with a marching ball connecting block 1-20 with a shaft, the limiting triangular blocks 1-23 are connected with limiting shafts 1-24, the limiting triangular blocks 1-23 are in sliding connection with a mounting plate e1-27, the limiting shafts 1-24 are connected with a mounting plate d1-25, pressure springs 1-26 are sleeved on the limiting shafts 1-24, the upper limits of the limiting shafts are located at mounting plates a1-9 and d1-25, the equipment can advance on the ground, a handle 1-22 is pushed, the handle 1-22 moves to drive a keyed connecting shaft 1-17 to move towards a mounting plate c1-21, the keyed connecting shaft 1-17 moves to drive a limiting friction wheel 1-28 and a friction wheel c1-16 to move, and when the friction wheel c1-16 moves to be in contact with a belt a1-14, the limiting friction wheel 1-28 moves in the limiting triangular blocks 1-23, Under the action of a limiting shaft 1-24, a mounting plate d1-25, a pressure spring 1-26 and a mounting plate e1-27, the limiting shaft is limited by a limiting triangular block 1-23 and a mounting plate e1-27, at the moment, a direction motor 1-1 works, the direction motor 1-1 works to drive a direction motor shaft 1-2 to rotate, a direction motor shaft 1-2 rotates a friction wheel a1-3, the friction wheel a1-3 rotates to drive a connecting shaft a1-5 to rotate through a friction wheel b1-4, the connecting shaft a1-5 rotates to drive a connecting shaft b1-7 and a direction wheel 1-8 to rotate through a bearing block 1-6, the advancing direction of equipment is adjusted when the direction wheel 1-8 rotates, a power motor 1-12 works, the power motor 1-12 works to drive a power motor shaft 1-13 to rotate, the power motor shafts 1-13 rotate to drive the connecting shafts c1-15 to rotate through the belts a1-14, the friction wheels c1-16 to rotate in the process of movement of the belts a1-14, the friction wheels c1-16 to rotate to drive the keyed connecting shafts 1-17 to rotate, the keyed connecting shafts 1-17 to rotate to drive the keyed friction wheels 1-18 to rotate, the keyed friction wheels 1-18 to rotate to drive the traveling balls 1-19 to rotate under the limitation of the keyed traveling ball connecting blocks 1-20, and the traveling balls 1-19 travel on the ground when rotating.
The third concrete implementation mode:
the present embodiment is further 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, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, fig. 22, fig. 23, and fig. 24, wherein the air humidifying mechanism 2 includes a belt b2-1, a first connecting shaft 2-2, a first friction wheel 2-3, a second connecting shaft 2-4, a propeller 2-5, a rubber tube 2-6, a first mounting plate 2-7, a second output tube connecting sleeve 2-8, a second output tube 2-9, a linkage friction wheel 2-10, a second blocking friction limiting block 2-11, a second blocking friction block 2-12, a second mounting plate 2-13, a third mounting plate 2-14, a second mounting plate 2-15, a second circular plate, a third mounting plate 2-9, and a third mounting plate, 2-16 circular plate limiting round strips, 2-17 electric heaters and 2-18 mounting plates, wherein one end of a belt b2-1 is in friction connection with a first connecting shaft 2-2, the other end of the belt b2-1 is in friction connection with a connecting shaft c1-15, the belt b2-1 is in friction connection with a first friction wheel 2-3, the connecting shaft a 2-2 is in bearing connection with a mounting plate a1-9, the first friction wheel 2-3 is in bearing connection with a second connecting shaft 2-4, the second connecting shaft 2-4 is in connection with a propeller 2-5, the second connecting shaft 2-4 is in bearing connection with a mounting plate a1-9, the second connecting shaft 2-4 is in bearing connection with a mounting plate b1-11, the first rubber tube 2-6 is in connection with a mounting plate 2-7, the rubber tube 2-6 is in connection with an output tube connecting sleeve 2-8, the rubber tube 2-6 is in connection with a mounting plate a1-9, the rubber pipe 2-6 is connected with the plugging friction limiting block 2-11, the rubber pipe 2-6 is connected with the mounting plate circular plate 2-15, the mounting plate I2-7 is connected with the output pipe 2-9, the output pipe connecting sleeve 2-8 is connected with the output pipe 2-9, the output pipe 2-9 is connected with the equipment mounting box 1-10, the linkage friction wheel 2-10 is connected with the plugging friction block 2-12 in a friction way, the linkage friction wheel 2-10 is connected with the connecting shaft a1-5, the plugging friction limiting block 2-11 is connected with the plugging friction block 2-12 in a sliding way, the mounting plate II 2-13 is connected with the mounting plate III 2-14, the mounting plate II 2-13 is connected with the mounting plate circular plate 2-15 in a sliding way, the mounting plate II 2-13 is connected with the circular plate limiting circular strip 2-16, the mounting plate II 2-13 is connected with the equipment mounting box 1-10, the mounting plate III 2-14 is connected with the mounting plate b1-11, the mounting plate circular plate 2-15 is connected with the circular plate limiting circular strip 2-16 in a sliding mode, the electric heater 2-17 is connected with the mounting plate a1-9, and the mounting plate IV 2-18 is connected with the mounting plate a 1-9.
The fourth concrete implementation mode:
the present embodiment will be further described 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, 24, wherein the disinfection and dust collection linkage mechanism 3 includes a linkage friction wheel a3-1, a transmission shaft a3-2, a reverse propeller a3-3, a switching connection block 3-4, a switching push shaft 3-5, a switching connection plate 3-6, a switching spring 3-7, a switching connection hole 3-8, a cleaning friction wheel 3-9, a cleaning belt 3-10, a cleaning limit strip 3-11, a cleaning brush 3-12, a suction pipe 3-13, a linkage friction wheel c3-14, 3-14, A transmission shaft b3-15, a reverse propeller b3-16, a linkage plugging block 3-17, a linkage plugging block sliding groove 3-18, a disinfection output pipe a3-19, a disinfection output pipe b3-20, a disinfection pipe connecting plate 3-21, a plugging support plate 3-22, a rotary barrel a3-23, a rotary barrel b3-24, an output propeller 3-25, a garbage output pipe 3-26 and a disinfectant input pipe 3-27, a linkage friction wheel a3-1 is connected with a transmission shaft a3-2, a linkage friction wheel a3-1 is in friction connection with the linkage plugging block 3-17, a linkage friction wheel a3-1 is in friction connection with a belt b2-1, a transmission shaft a3-2 is connected with the reverse propeller a3-3, a transmission shaft a3-2 is connected with a cleaning friction wheel 3-9, a transmission shaft a3-2 is in bearing connection with an installation plate a1-9, a transmission shaft a3-2 is connected with a mounting plate b1-11 through a bearing, a switching connecting block 3-4 is connected with a switching pushing shaft 3-5, a switching connecting block 3-4 is connected with a mounting plate a1-9 in a sliding way, a switching pushing shaft 3-5 is connected with a switching connecting plate 3-6 in a sliding way, a switching connecting plate 3-6 is connected with a mounting plate a1-9, a switching spring 3-7 is sleeved on the switching pushing shaft 3-5 and limited on the switching connecting block 3-4 and the switching connecting plate 3-6, a switching connecting hole 3-8 is formed in the mounting plate a1-9, a cleaning friction wheel 3-9 is connected with a cleaning belt 3-10 in a friction way, the cleaning belt 3-10 is connected with a cleaning limiting strip 3-11 in a sliding way, the cleaning belt 3-10 is connected with a cleaning brush 3-12, cleaning limit strips 3-11 are connected with a mounting plate a1-9, one end of an adsorption tube 3-13 is connected and communicated with a switching connecting hole 3-8, the other end is connected and communicated with a mounting plate a1-9, a linkage friction wheel c3-14 is connected with a transmission shaft b3-15, a linkage friction wheel c3-14 is connected with a belt b2-1 in a friction mode, a transmission shaft b3-15 is connected with a reverse propeller b3-16, a transmission shaft b3-15 is connected with a mounting plate a1-9 bearing, a transmission shaft b3-15 is connected with a mounting plate b1-11 bearing, a linkage blocking block 3-17 is connected with a linkage blocking block sliding groove 3-18 in a sliding mode, a linkage blocking block sliding groove 3-18 is connected with a mounting plate b1-11, the upper end of a disinfection output tube a3-19 is connected with a mounting plate b1-11, a disinfection output tube a3-19 is connected and communicated with a disinfection output tube b3-20, the disinfection output pipe b3-20 is connected with a disinfection pipe connecting plate 3-21, the disinfection pipe connecting plate 3-21 is connected with a mounting plate b1-11, the plugging support plate 3-22 is connected with a mounting plate b1-11, the rotary barrel a3-23 is connected with a rotary barrel b3-24 bearing, the rotary barrel a3-23 is connected with an equipment mounting box 1-10, the rotary barrel b3-24 is connected with an output propeller 3-25, the garbage output pipe 3-26 is connected and communicated with a mounting plate two 2-13, the disinfectant input pipe 3-27 is connected and communicated with a mounting plate two 2-13, the equipment can humidify the air connecting shaft, the belt b2-1 drives the connecting shaft 2-2 to rotate when the c1-15 rotates, the belt b2-1 drives the connecting shaft two 2-4 to rotate in the movement process of the belt b2-1 by driving the connecting shaft two 2-4 by a friction wheel one 2-3, the second connecting shaft 2-4 rotates to drive the propeller 2-5 to rotate, the propeller 2-5 can blow air into the rubber tube 2-6 when rotating, water in a space formed by the equipment installation box 1-10, the installation plate b1-11, the second installation plate 2-13 and the third installation plate 2-14 can be evaporated after the electric heater 2-17 is powered on, the evaporated air is blown into the rubber tube 2-6 under the action of the propeller 2-5, the air in the rubber tube 2-6 is discharged to two sides of the equipment through the output tube connecting sleeve 2-8 and the output tube 2-9, when the advancing direction of the equipment is adjusted, the connecting shaft a1-5 rotates to drive the linkage friction wheel 2-10 to rotate, the linkage friction wheel 2-10 rotates to drive the blocking friction block 2-12 to slide first under the limitation of the blocking friction limiting block 2-11, the blocking friction blocks 2-12 are pressed towards the rubber pipes 2-6 on one side when sliding, the rubber pipes 2-6 deform when being pressed, steam in the rubber pipes 2-6 is exhausted through the output pipes 2-9 on the other side, water steam can be exhausted to one side of the equipment in the process, the equipment can clean the ground and adsorb garbage into the adsorption box in the process of operation, the equipment can exhaust the garbage adsorbed into the adsorption box, the transmission shaft a3-2 is driven to rotate through the linkage friction wheel a3-1 in the process of movement of the belt b2-1, the transmission shaft a3-2 rotates to drive the reverse propeller a3-3 to rotate, the reverse propeller a3-3 rotates to downwards adsorb air, the switching connecting block 3-4 is driven to move in the direction far away from the switching connecting plate 3-6 when the transmission shaft a3-2 rotates, when the switching connecting block 3-4 moves to the limit position, the hole on the switching connecting block 3-4 is superposed with the switching connecting hole 3-8, the adsorption force acts on the adsorption tube 3-13 through the switching connecting hole 3-8, the garbage in the cleaning brush 3-12 below the adsorption tube 3-13 can be adsorbed into a space formed by two mounting plates three 2-14, an equipment mounting box 1-10 and a mounting plate two 2-13, the cleaning friction wheel 3-9 is also driven to rotate when the transmission shaft a3-2 rotates, the cleaning belt 3-10 is driven to move along the cleaning limit strip 3-11 when the cleaning friction wheel 3-9 rotates, the cleaning brush 3-12 is driven to move when the cleaning limit strip 3-11 moves, the garbage on the ground is cleaned when the cleaning brush 3-12 moves, the air is also blown upwards when the reverse propeller a3-3 rotates, garbage in a space formed by the two mounting plates III 2-14, the equipment mounting box 1-10 and the mounting plate II 2-13 can be discharged outside the equipment through the garbage output pipe 3-26, the equipment can disinfect the ground in the advancing process, when the belt b2-1 moves, the belt b2-1 moves to drive the linkage friction wheel a3-1 to move, the linkage friction wheel a3-1 moves to drive the linkage blocking block 3-17 to move in the direction far away from the blocking support plate 3-22, the blocking support plate 3-22 does not squeeze the disinfection output pipe b3-20 any more when moving, the pipes of the disinfection output pipe a3-19 and the disinfection output pipe b3-20 are in the open state, when the belt b2-1 moves, the linkage friction wheel c3-14 drives the transmission shaft b3-15 to rotate, the transmission shaft b3-15 rotates to drive the reverse propeller b3-16 to rotate, when the reverse propeller b3-16 rotates, air is blown downwards to press disinfectant in a space formed by the mounting plate three 2-14 on one side, the equipment mounting box 1-10 and the mounting plate two 2-13 downwards, the pressed disinfectant is discharged onto the output propeller 3-25 through the disinfection output pipe a3-19 and the disinfection output pipe b3-20, and the disinfectant is scattered into mist through the physical characteristics and the shape characteristics of the output propeller 3-25.
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, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, and 24, and the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 14, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23, and 24.
The working principle of the device is as follows: the equipment can travel on the ground, push the handle 1-22, the handle 1-22 moves to drive the keyed connecting shaft 1-17 to move towards the mounting plate c1-21, the keyed connecting shaft 1-17 moves to drive the limiting friction wheel 1-28 and the friction wheel c1-16 to move, the friction wheel c1-16 moves to contact with the belt a1-14, the limiting friction wheel 1-28 is limited by the limiting triangular block 1-23 and the mounting plate e1-27 under the action of the limiting triangular block 1-23, the limiting shaft 1-24, the mounting plate d1-25, the pressure spring 1-26 and the mounting plate e1-27, at the moment, the directional motor 1-1 works to drive the directional motor shaft 1-2 to rotate, the directional motor shaft 1-2 rotates the friction wheel a1-3, the friction wheel a1-3 rotates to drive the connecting shaft a1-5 to rotate through the friction wheel b1-4, the connecting shaft a1-5 rotates to drive the connecting shaft b1-7 and the direction wheel 1-8 to rotate through the bearing block 1-6, the advancing direction of the equipment is adjusted when the direction wheel 1-8 rotates, the power motor 1-12 works to drive the power motor shaft 1-13 to rotate, the power motor shaft 1-13 rotates to drive the connecting shaft c1-15 to rotate through the belt a1-14, the friction wheel c1-16 rotates in the movement process of the belt a1-14, the friction wheel c1-16 rotates to drive the keyed connecting shaft 1-17 to rotate, the keyed connecting shaft 1-17 drives the keyed friction wheel 1-18 to rotate, and the keyed friction wheel 1-18 rotates to drive the advancing balls 1-19 to rotate through the travel ball connecting block 1-20 with the belt shaft The device can humidify air, the connecting shaft c1-15 rotates and drives the connecting shaft I2-2 to rotate through the belt b2-1, the connecting shaft II 2-4 rotates through the friction wheel I2-3 in the process of movement of the belt b2-1, the connecting shaft II 2-4 rotates and drives the propeller 2-5 to rotate, the propeller 2-5 can blow air into the rubber tube 2-6 when rotating, the device installation box 1-10, the installation plate b1-11, the installation plate II 2-13 and the installation plate III 2-14 can be used for evaporating water in a space formed by the electric heater 2-17 and the power supply, the evaporated air blows into the rubber tube 2-6 under the action of the propeller 2-5, and the air in the rubber tube 2-6 can be connected through the output tube connecting sleeve 2-8, The output pipe 2-9 is discharged to two sides of the equipment, when the advancing direction of the equipment is adjusted, the connecting shaft a1-5 rotates to drive the linkage friction wheel 2-10 to rotate, the linkage friction wheel 2-10 rotates to drive the blocking friction block 2-12 to slide firstly under the limitation of the blocking friction limiting block 2-11, the blocking friction block 2-12 presses the rubber pipe 2-6 at one side when sliding, the rubber pipe 2-6 deforms when pressed, steam in the rubber pipe 2-6 is discharged through the output pipe 2-9 at the other side, steam can be discharged to one side of the equipment in the process, the equipment can clean the ground and adsorb garbage into the adsorption box in the process, the equipment can discharge the garbage adsorbed into the adsorption box, the transmission shaft a3-2 is driven to rotate through the linkage friction wheel a3-1 in the process of the movement of the belt b2-1, the transmission shaft a3-2 rotates to drive the reverse propeller a3-3 to rotate, the reverse propeller a3-3 can absorb air downwards when rotating, the switching connecting block 3-4 is also driven to move towards the direction far away from the switching connecting plate 3-6 when the transmission shaft a3-2 rotates, when the switching connecting block 3-4 moves to the extreme position, the hole on the switching connecting block 3-4 is superposed with the switching connecting hole 3-8, the absorption force acts on the absorption tube 3-13 through the switching connecting hole 3-8, garbage in the cleaning brush 3-12 below the absorption tube 3-13 can be absorbed into a space formed by the two mounting plates three 2-14, the equipment mounting box 1-10 and the mounting plate two 2-13, and the cleaning friction wheel 3-9 is also driven to rotate when the transmission shaft a3-2 rotates, the cleaning friction wheel 3-9 drives the cleaning belt 3-10 to move along the cleaning limit strip 3-11 when rotating, the cleaning limit strip 3-11 drives the cleaning brush 3-12 to move when moving, the cleaning brush 3-12 cleans the garbage on the ground when moving, air is blown upwards when the reverse propeller a3-3 rotates, the garbage in the space formed by the two mounting plates three 2-14, the equipment mounting box 1-10 and the mounting plate two 2-13 can be discharged outside the equipment through the garbage output pipe 3-26, the equipment can disinfect the ground in the advancing process, when the belt b2-1 moves, the belt b2-1 moves to drive the linkage friction wheel a3-1 to move, the linkage friction wheel a3-1 moves to drive the linkage block 3-17 to move in the direction far away from the block support plate 3-22, when the plugging support plates 3-22 move, the disinfection output tube b3-20 is not squeezed any more, the tubes of the disinfection output tube a3-19 and the disinfection output tube b3-20 are in an open state, when the belt b2-1 moves, the transmission shaft b3-15 is driven to rotate by the linkage friction wheel c3-14, the transmission shaft b3-15 rotates to drive the reverse propeller b3-16 to rotate, air is blown downwards when the reverse propeller b3-16 rotates to press disinfectant in a space formed by the mounting plate III 2-14 at one side, the equipment mounting box 1-10 and the mounting plate II 2-13 downwards, the pressed disinfectant is discharged onto the output propeller 3-25 through the disinfection output pipe a3-19 and the disinfection output pipe b3-20, the sterilizing liquid is scattered into water mist through the physical characteristics and the shape characteristics of the output propellers 3-25.
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.