CN111101694B - Building body outer wall spraying equipment for building - Google Patents

Abstract

The invention relates to a building exterior wall spraying device, in particular to a multifunctional building exterior wall spraying device, which comprises a lifting platform mechanism, a multifunctional spray head mechanism, a double brake mechanism, a device ground motion power mechanism, a device ground motion steering mechanism and a device, wherein the device can convey materials for workers working at high altitude, the device can uniformly spray paint on the exterior wall of the building, the device can resist wind when spraying the paint, the device can freely move on the ground, the lifting platform mechanism is connected with the multifunctional sprayer mechanism, the double-brake mechanism is connected with the equipment ground motion power mechanism, the equipment ground motion power mechanism is connected with the equipment ground motion wheel mechanism, the equipment ground motion steering mechanism is connected with the equipment ground motion wheel mechanism, the equipment ground motion wheel mechanism is connected with the lifting platform mechanism, and the double-brake mechanism is connected with the equipment ground motion wheel mechanism.

Description

Building body outer wall spraying equipment for building

Technical Field

The invention relates to a building exterior wall spraying device, in particular to a building exterior wall spraying device for a building.

Background

When the coating is sprayed on the outer wall of a building with a higher floor, manual spraying is adopted in most cases, the saturation of the spraying cannot be guaranteed when the coating is sprayed, and the probability of safety accidents also exists in the manual spraying, so that the multifunctional spraying equipment for the outer wall of the building is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing the building outer wall spraying equipment for the building, which can convey materials by workers working at high altitude, uniformly spray paint on the outer wall of the building, resist wind when the equipment sprays the paint, and freely move on the ground.

In order to solve the technical problems, the invention relates to building outer wall spraying equipment, in particular to building outer wall spraying equipment, which comprises a lifting platform mechanism, a multifunctional spray head mechanism, a double brake mechanism, an equipment ground motion power mechanism, an equipment ground motion steering mechanism and an equipment ground motion wheel mechanism.

The lifting platform mechanism is connected with the multifunctional sprayer mechanism, the double-brake mechanism is connected with the equipment ground motion power mechanism, the equipment ground motion power mechanism is connected with the equipment ground motion wheel mechanism, the equipment ground motion steering mechanism is connected with the equipment ground motion wheel mechanism, the equipment ground motion wheel mechanism is connected with the lifting platform mechanism, and the double-brake mechanism is connected with the equipment ground motion wheel mechanism.

As a further optimization of the technical scheme, the lifting platform mechanism of the building exterior wall spraying equipment comprises a transmission gear, a power motor, a motor base, a platform sliding column, a rotating rod, a platform pulling rope and a lifting platform, wherein the transmission gear is connected with the power gear, the power gear is connected with the power motor, the power motor is connected with the motor base, the motor base is connected with the platform sliding column, the platform sliding column is connected with a rotating rod bearing, the rotating rod is in friction connection with the platform pulling rope, the lifting platform is in sliding connection with the platform sliding column, the transmission gear is connected with the rotating rod, and the lifting platform is connected with the platform pulling rope.

As a further optimization of the technical scheme, the multifunctional spray head mechanism of the building exterior wall spraying equipment comprises a multifunctional spray head rotating mechanism, a spray width adjusting mechanism and a spraying direction adjusting mechanism, wherein the multifunctional spray head rotating mechanism is connected with a lifting platform bearing, the spray width adjusting mechanism is connected with the multifunctional spray head rotating mechanism, and the spraying direction adjusting mechanism is connected with the spray width adjusting mechanism; the multifunctional spray head rotating mechanism comprises a motor base body, a power motor, a power chain wheel, a transmission chain and a transmission chain wheel, wherein the motor base body is connected with the power motor, the power motor is connected with the power chain wheel, the power chain wheel is connected with the transmission chain wheel, the transmission chain is connected with the transmission chain wheel, the motor base body is connected with a lifting table, and the transmission chain wheel is connected with a bearing of the lifting table; the spray amplitude adjusting mechanism comprises a power motor installation bin, a spray pipe, a sliding rack installation plate, a sliding rack installation frame, a sliding power motor, a gear installation shaft, a power gear, a sliding connecting rod, a spraying power motor shaft, a slip sheet boss, a spray amplitude adjusting screw propeller, a motor sliding installation seat, a screw pitch adjusting slider connection column and a screw pitch adjusting slider hole, wherein the motor installation bin is connected with the spray pipe, the spray pipe is connected with the sliding rack installation frame, the sliding rack installation plate is connected with the sliding rack, the sliding rack is connected with the sliding rack installation frame, the sliding rack installation frame is connected with the power gear, the sliding power motor is connected with the spray pipe, the gear installation shaft is connected with the sliding power motor, the power gear is connected with the sliding rack gear, the spraying power motor is connected with a motor sliding installation seat, a spraying power motor shaft is connected with the spraying power motor, a sliding sheet is connected with a sliding connecting rod, a sliding sheet boss is connected with the sliding sheet, a spraying amplitude adjusting screw propeller is connected with the spraying power motor shaft, the motor sliding installation seat is connected with a spray pipe in a sliding way, the sliding limit of the motor sliding installation seat is arranged on a motor installation cabin, a screw pitch adjusting sliding block is connected with a screw pitch adjusting sliding block hole in a sliding way, the screw pitch adjusting sliding block hole is formed in the spray pipe, a screw pitch adjusting sliding block connecting column is connected with the spraying amplitude adjusting screw propeller, a sliding rack installation plate is connected with the sliding connecting rod, a gear installation shaft is connected with a power gear, the sliding connecting rod is connected with the sliding sheet, the spraying power motor shaft is connected with a spraying amplitude adjusting screw propeller bearing, the sliding sheet boss is connected, the propeller pitch adjusting slide block is connected with the propeller pitch adjusting slide block connecting column; the spray amplitude adjusting propeller comprises a propeller mounting hole, a propeller and a propeller mounting seat, wherein the propeller mounting hole is connected with a propeller bearing, the propeller mounting hole is formed in the propeller mounting seat, and the propeller mounting seat is connected with a power-coated motor shaft bearing; the spraying direction adjusting mechanism comprises a motor sliding sleeve, a motor sliding sleeve mounting frame, a rack, a gear and a gear shaft, the motor sliding sleeve is connected with the spraying power motor, the motor sliding sleeve mounting frame is connected with the motor sliding sleeve, the rack is connected with the motor sliding sleeve mounting frame, the gear is connected with the rack and the gear, the gear shaft is connected with the gear, and the gear shaft is connected with the spraying power motor.

As further optimization of the technical scheme, the double-brake mechanism of the building outer wall spraying equipment comprises a motor mounting seat, a motor sliding mechanism, a driving belt wheel, a brake pad, a driven belt wheel, a transmission shaft, a cam brake mechanism and a sliding brake mechanism, wherein the motor mounting seat is connected with a lifting platform; the motor sliding mechanism comprises a brake motor, a sliding brake sliding rail and a sliding groove, the sliding brake sliding rail is connected with the motor mounting seat, a shaft of the brake motor is connected with the sliding brake sliding rail, and the sliding groove is formed in the sliding brake sliding rail; the cam brake mechanism comprises a power belt wheel, a transmission belt, a cam brake mechanism mounting column, a cam and a cam shaft, wherein the power belt wheel is connected with the transmission shaft, the transmission belt is connected with a driven belt wheel on the cam shaft, the cam brake mechanism mounting column is connected with a cam shaft bearing, the cam is connected with the cam shaft, and the power belt wheel is in friction connection with the transmission belt; the sliding brake mechanism comprises a slide block, a slide block limiting hole, a slide block brake shaft, a press shaft rod mounting plate, a high-elastic rubber sheet, a press shaft rod mounting plate limiting block, a limiting spring and a sliding brake mechanism mounting plate, wherein the slide block is connected with the sliding brake slide rail, the slide block is connected with the sliding brake slide rail in a sliding way, the slide block limiting hole is formed in the sliding brake mechanism mounting plate, the slide block brake shaft is connected with a press shaft rod mounting plate bearing, the press shaft rod mounting plate is connected with the high-elastic rubber sheet, the high-elastic rubber sheet is connected with the press shaft rod in a threaded way, the press shaft rod is connected with the press shaft rod mounting plate in a threaded way, the press shaft rod mounting plate limiting block is connected with the limiting spring, the limiting spring is connected with the press shaft rod mounting plate, the sliding brake mechanism mounting plate is connected with a lifting platform, the slide block is connected with, the sliding brake mechanism mounting plate is connected with a limiting spring.

As a further optimization of the technical scheme, the building exterior wall spraying equipment comprises a power motor mounting seat of an equipment ground motion power mechanism, a driving belt wheel, a belt, a fluctuation groove, a driven belt wheel, a fluctuation block, a fluctuation ball head and a power motor, wherein the power motor mounting seat is connected with a lifting platform, the driving belt wheel is in friction connection with the belt, the belt is in friction connection with the driven belt wheel, the driven belt wheel is connected with the power shaft, the fluctuation block can slide in the fluctuation groove, the fluctuation ball head is connected with the power shaft, the driving belt wheel is connected with the power motor, and the fluctuation ball head is connected with the fluctuation block.

As a further optimization of the technical scheme, the equipment ground motion steering mechanism of the stirring and crushing treatment equipment for the building comprises a steering wheel hub, a wheel hub rotating block, a wheel hub rotating shaft, a power motor, a power gear, a steering ball head and a rack, wherein the steering wheel hub is connected with the wheel hub rotating block, the wheel hub rotating block is connected with a wheel hub rotating shaft bearing, the wheel hub rotating shaft is connected with the rack, the power motor is connected with a lifting platform, the power gear is connected with the power motor, the steering ball head is connected with a transmission shaft, the rack is connected with the power gear, and the steering ball head is connected with the steering wheel hub in a sliding manner.

As a further optimization of the technical scheme, the equipment ground moving wheel mechanism of the building outer wall spraying equipment comprises a rear wheel mounting block, a rear wheel shaft, a rear wheel, an equipment ground moving wheel mechanism mounting plate, a front wheel and a front wheel mounting block, wherein the rear wheel mounting block is connected with the rear wheel shaft, the rear wheel shaft is connected with the rear wheel, the equipment ground moving wheel mechanism mounting plate is connected with a platform sliding column, the front wheel fluctuation block is connected, the front wheel mounting block is connected with the equipment ground moving wheel mechanism mounting plate, the rear wheel mounting block is connected with the equipment ground moving wheel mechanism mounting plate, the front wheel is connected with a fluctuation ball head in a sliding manner, and a fluctuation groove is formed in the front wheel.

As a further optimization of the technical scheme, the invention relates to building exterior wall spraying equipment, when a sliding power motor rotates forwards or reversely, a transmission gear shaft rotates forwards or reversely, the transmission gear shaft rotates a transmission gear to drive the gear to rotate so as to drive the gear to move transversely, the gear is connected with a motor sliding sleeve mounting rack, the motor sliding sleeve mounting rack is connected with a motor sliding sleeve, the motor sliding sleeve is connected with a spraying power motor so as to enable the spraying power motor to slide transversely in a motor mounting bin, the spraying power motor contacts two sides of the motor mounting during movement, the two sides of the motor mounting further serve as sliding limiting positions of the spraying power motor, when the limiting positions are triggered, the sliding power motor stops working, the other side of the sliding power motor is connected with a gear mounting shaft in a spraying amplitude adjusting mechanism, and the gear mounting shaft is connected with a power gear, the power gear is connected with the sliding rack, the sliding rack is connected with the sliding rack mounting plate, the sliding rack mounting plate is connected with the sliding connecting rod, the sliding connecting rod is connected with the sliding piece, the sliding piece is connected with the screw pitch adjusting sliding block in a sliding mode, the screw pitch adjusting sliding block is connected with the screw pitch adjusting sliding block connecting column, and the screw pitch adjusting sliding block connecting column is connected with the spray amplitude adjusting screw.

The building outer wall spraying equipment for the building has the beneficial effects that:

according to the building outer wall spraying equipment for the building, disclosed by the invention, the equipment can convey materials by workers working at high altitude, the equipment can uniformly spray coating on the outer wall of the building, the equipment can resist wind when the coating is sprayed, and the equipment can freely move on the ground.

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 building exterior wall spraying device for a building.

Fig. 2 is a schematic structural diagram of a building lifting platform mechanism 1 for building.

Fig. 3 is a schematic structural diagram of platform sliding columns 1-5 of the building outer wall spraying equipment for the building.

Fig. 4 is a schematic structural diagram of a multifunctional spray head mechanism 2 of the building exterior wall spraying equipment of the invention.

Fig. 5 is a schematic structural diagram of a multifunctional spray head rotating mechanism 2-1 of the building outer wall spraying equipment for the building.

Fig. 6 is a first structural schematic diagram of a spray width adjusting mechanism 2-2 of the building outer wall spraying equipment for the building.

Fig. 7 is a second structural schematic diagram of a spray width adjusting mechanism 2-2 of the building outer wall spraying equipment for the building.

Fig. 8 is a third structural schematic diagram of a spray width adjusting mechanism 2-2 of the building outer wall spraying equipment for the building.

Fig. 9 is a fourth structural schematic diagram of a spray width adjusting mechanism 2-2 of the building outer wall spraying equipment for the building.

Fig. 10 is a fifth schematic view of a spray width adjusting mechanism 2-2 of the building exterior wall spraying equipment for the building.

Fig. 11 is a schematic diagram of the spray amplitude adjusting propellers 2-2-14 of the building outer wall spraying equipment for the building.

Fig. 12 is a schematic structural view of a spraying direction adjusting mechanism 2-3 of the building exterior wall spraying equipment for the building.

Fig. 13 is a first structural schematic diagram of a double-brake mechanism 3 of the building exterior wall spraying equipment of the invention.

Fig. 14 is a second structural schematic diagram of a double-brake mechanism 3 of the building exterior wall spraying equipment of the invention.

Fig. 15 is a schematic structural diagram of a motor sliding mechanism 3-2 of the building exterior wall spraying device for the building.

Fig. 16 is a first structural schematic diagram of a cam brake mechanism 3-7 of the building exterior wall painting equipment for the building.

Fig. 17 is a second structural schematic diagram of the cam brake mechanism 3-7 of the building exterior wall painting equipment for the building.

Fig. 18 is a first structural schematic view of a sliding brake mechanism 3-8 of the building exterior wall spraying equipment of the invention.

Fig. 19 is a second structural schematic diagram of a sliding brake mechanism 3-8 of the building outer wall spraying equipment for the building.

Fig. 20 is a schematic structural diagram of a device ground motion power mechanism 4 of the building exterior wall painting device of the present invention.

Fig. 21 is a schematic structural diagram of a device ground motion steering mechanism 5 of the building exterior wall painting device of the invention.

Fig. 22 is a schematic structural diagram of a ground moving wheel mechanism 6 of the building exterior wall painting equipment of the invention.

In the figure: a lifting platform mechanism 1; a transmission gear 1-1; a power gear 1-2; 1-3 of a power motor; 1-4 of a motor base; 1-5 of a platform sliding column; rotating the rods 1-6; the platform pulls the rope 1-7; 1-8 of a lifting platform; a multifunctional nozzle mechanism 2; a multifunctional nozzle rotating mechanism 2-1; a motor base body 2-1-1; 2-1-2 of a power motor; 2-1-3 of a power chain wheel; 2-1-4 of a transmission chain; 2-1-5 of a transmission chain wheel; a spray width adjusting mechanism 2-2; a power motor installation bin 2-2-1; 2-2-2 of a spray pipe; a sliding rack mounting plate 2-2-3; 2-2-4 of a sliding rack; a sliding rack mounting rack 2-2-5; 2-2-6 of a sliding power motor; a gear mounting shaft 2-2-7; 2-2-8 of a power gear; 2-2-9 of a sliding connecting rod; spraying 2-2-10 parts of a power motor; spraying 2-2-11 parts of a power motor shaft; 2-2-12 parts of a slip sheet; 2-2-13 of a slip sheet boss; 2-2-14 parts of a jet amplitude adjusting propeller; a motor sliding mounting seat 2-2-15; a screw pitch adjusting slide block 2-2-16; a screw pitch adjusting slide block connecting column 2-2-17; a spraying direction adjusting mechanism 2-3; 2-3-1 of a motor sliding sleeve; a motor sliding sleeve mounting rack 2-3-2; 2-3-3 of a rack; 2-3-4 of gear; 2-3-5 parts of a gear shaft; a double brake mechanism 3; a motor mounting base 3-1; a motor sliding mechanism 3-2; 3-2-1 of a brake motor; a sliding brake slide rail 3-2-2; a driving pulley 3-3; 3-4 parts of a brake pad; 3-5 parts of a driven belt wheel; 3-6 parts of a transmission shaft; 3-7 parts of a cam brake mechanism; a power pulley 3-7-1; 3-7-2 parts of a transmission belt; 3-7-3 of a cam brake mechanism mounting column; 3-7-4 of a cam; 3-7-5 parts of a camshaft; 3-8 parts of a sliding brake mechanism; 3-8-1 of a sliding block; 3-8-2 parts of a slide block limiting hole; 3-8-3 parts of a sliding block brake shaft; a pressure shaft rod mounting plate 3-8-4; 3-8-5 parts of high-elastic rubber sheet; 3-8-6 parts of a pressure shaft rod; a limiting block 3-8-7 of a mounting plate of the pressure shaft rod; 3-8-8 parts of a limiting spring; 3-8-9 parts of a sliding brake mechanism mounting plate; a device ground motion power mechanism 4; a power motor mounting seat 4-1; a driving pulley 4-2; 4-3 of a belt; 4-4 of a fluctuation groove; 4-5 of a driven belt wheel; 4-6 of a fluctuation block; 4-7 of a fluctuation ball head; 4-8 of a power motor; 4-9 of a power shaft; a device ground motion steering mechanism 5; a steering hub 5-1; 5-2 of a hub turning block; 5-3 parts of a hub rotating shaft; 5-4 of a power motor; 5-5 parts of power gear; 5-6 of a steering ball head; 5-7 of racks; a device ground motion wheel mechanism 6; a rear wheel mounting block 6-1; a rear wheel shaft 6-2; 6-3 of a rear wheel; 6-4 of a device ground motion wheel mechanism mounting plate; 6-5 of front wheels; front wheel mounting blocks 6-6.

Detailed Description

The first 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, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, and fig. 22, and the present invention relates to a building exterior wall painting apparatus, and more specifically, to a building exterior wall painting apparatus processing apparatus for a multi-functional building, which includes a lifting platform mechanism 1, a multi-functional sprayer mechanism 2, a dual brake mechanism 3, an apparatus ground motion power mechanism 4, an apparatus ground motion steering mechanism 5, and an apparatus ground motion wheel mechanism 6. Lifting platform mechanism 1 link to each other with multi-functional shower nozzle mechanism 2, dual brake mechanism 3 links to each other with equipment ground motion power unit 4, equipment ground motion power unit 4 links to each other with equipment ground motion wheel mechanism 6, equipment ground motion steering mechanism 5 links to each other with equipment ground motion wheel mechanism 6, equipment ground motion wheel mechanism 6 links to each other with lifting platform mechanism 1, dual brake mechanism 3 links to each other with equipment ground motion wheel mechanism 6.

The second embodiment is as follows:

the embodiment will be further described with reference to the following drawings 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22. the embodiment is described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 9, 11, 12, 14, 15, 16, 17, 18, 19, 20, 21, 22. the embodiment includes a lifting platform mechanism 1 comprising a transmission gear 1-1, a power gear 1-2, a power motor 1-3, a motor base 1-4, a platform sliding column 1-5, a rotating rod 1-6, a platform pulling rope 1-7, and a lifting platform 1-8, wherein the transmission gear 1-1 is connected with the power gear 1-2, the power gear 1-2 is connected with the power motor 1-3, the power motor 1-3 is connected with the motor base 1-4, the motor seat body 1-4 is connected with the platform sliding column 1-5, the platform sliding column 1-5 is connected with the rotating rod 1-6 by a bearing, the rotating rod 1-6 is connected with the platform pulling rope 1-7 by friction, the lifting platform 1-8 is connected with the platform sliding column 1-5 by sliding, the transmission gear 1-1 is connected with the rotating rod 1-6, the lifting platform 1-8 is connected with the platform pulling rope 1-7, the device can be used for workers working aloft to convey materials, the power motor 1-3 rotates, the power motor 1-3 is connected with the power gear 1-2 by gear, the power gear 1-2 rotates and links the transmission gear 1-1 to enable the transmission gear 1-1 to simultaneously rotate, the transmission gear 1-1 is connected with the rotating rod 1-6, and the rotating rod 1-6 is connected with the platform pulling rope 1-7, the platform pulling ropes 1-7 move upwards and are wound on the rotating rods 1-6, the platform pulling ropes 1-7 are connected with the lifting tables 1-8, the platform pulling ropes 1-7 move upwards to pull the lifting tables 1-8 to move upwards synchronously, the lifting tables 1-8 reach the upper limit of rising when the platform pulling ropes 1-7 are all wound on the rotating rods 1-6, the platform pulling ropes 1-7 are unwound from the lifting tables 1-8 to move downwards when the power motors 1-3 rotate reversely, the lifting tables 1-8 reach the lower limit when the platform pulling ropes 1-7 are completely unwound, when the lifting tables 1-8 move to convey materials for workers working at high altitude, the lifting tables 1-8 release the materials to reach the upper limit and the height which is relatively ideal when the lifting tables 1-8 are not wound at the lower limit, the worker in the high-altitude operation takes the materials down, and the equipment finishes the work of conveying the materials for the worker in the high-altitude operation.

The third concrete implementation mode:

the present embodiment will be 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, and fig. 22, and the present embodiment is described below, in which the multi-function nozzle mechanism 2 includes a multi-function nozzle rotating mechanism 2-1, a spray width adjusting mechanism 2-2, and a spray direction adjusting mechanism 2-3, the multi-function nozzle rotating mechanism 2-1 is connected to a bearing of the elevating table 1-8, the spray width adjusting mechanism 2-2 is connected to the multi-function nozzle rotating mechanism 2-1, and the spray direction adjusting mechanism 2-3 is connected to the spray width adjusting mechanism 2-2. The multifunctional spray nozzle rotating mechanism 2-1 comprises a motor base body 2-1-1, a power motor 2-1-2, a power chain wheel 2-1-3, a transmission chain 2-1-4 and a transmission chain wheel 2-1-5, the motor base body 2-1-1 is connected with the power motor 2-1-2, the power motor 2-1-2 is connected with the power chain wheel 2-1-3, the power chain wheel 2-1-3 is connected with the transmission chain 2-1-4, the transmission chain 2-1-4 is connected with the transmission chain wheel 2-1-5, the motor base body 2-1-1 is connected with an elevating platform 1-8, the transmission chain wheel 2-1-5 is connected with the elevating platform 1-8, and the spray width adjusting mechanism 2-2 comprises a power motor installation bin 2-2-1-1, 2-2-2 parts of spray pipe, 2-2-3 parts of sliding rack mounting plate, 2-2-4 parts of sliding rack, 2-2-5 parts of sliding rack mounting frame, 2-2-6 parts of sliding power motor, 2-2-7 parts of gear mounting shaft, 2-2-8 parts of power gear, 2-2-9 parts of sliding connecting rod, 2-2-10 parts of spraying power motor, 2-2-11 parts of spraying power motor shaft, 2-2-12 parts of sliding vane, 2-2-13 parts of sliding vane lug boss, 2-2-14 parts of spraying amplitude adjusting screw propeller, 2-2-15 parts of motor sliding mounting seat, 2-2-16 parts of screw pitch adjusting slider and 2-2-17 parts of screw pitch adjusting slider connecting column, 2-2-1 parts of motor mounting bin is connected with 2-2-2 parts of spray pipe, the spray pipe 2-2-2 is connected with the sliding rack mounting rack 2-2-5, the sliding rack mounting rack 2-2-3 is connected with the sliding rack 2-2-4, the sliding rack 2-2-4 is connected with the sliding rack mounting rack 2-2-5, the sliding rack mounting rack 2-2-5 is connected with the power gear 2-2-8, the sliding power motor 2-2-6 is connected with the spray pipe 2-2-2, the gear mounting shaft 2-2-7 is connected with the sliding power motor 2-2-6, the power gear 2-2-8 is connected with the sliding rack 2-2-4, the sliding connecting rod 2-2-9 is connected with the sliding rack mounting rack 2-2-3, a spraying power motor 2-2-10 is connected with a motor sliding installation seat 2-2-15, a spraying power motor shaft 2-2-11 is connected with the spraying power motor 2-2-10, a slip sheet 2-2-12 is connected with a sliding connecting rod 2-2-9, a slip sheet boss 2-2-13 is connected with the slip sheet 2-2-12, a spray amplitude adjusting screw propeller 2-2-14 is connected with the spraying power motor shaft 2-2-11, the motor sliding installation seat 2-2-15 is connected with a spray pipe 2-2-2 in a sliding way, the sliding limit of the motor sliding installation seat 2-2-15 is arranged on a motor installation cabin 2-2-1, a screw pitch adjusting slide block 2-2-16 is connected with the spray pipe 2-2-2 in a sliding way, the propeller pitch adjusting slider connecting column 2-2-17 is connected with the spray amplitude adjusting propeller 2-2-14, the sliding rack mounting plate 2-2-3 is connected with the sliding connecting rod 2-2-9, the gear mounting shaft 2-2-7 is connected with the power gear 2-2-8, the sliding connecting rod 2-2-9 is connected with the sliding blade 2-2-12, the spraying power motor shaft 2-2-11 is connected with the spray amplitude adjusting propeller 2-2-14 through a bearing, the sliding blade boss 2-2-13 is connected with the propeller pitch adjusting slider 2-2-16, the sliding position of the motor sliding mounting seat 2-2-15 is limited on the motor mounting bin 2-2-1, the propeller pitch adjusting slider 2-2-16 is connected with the propeller pitch adjusting slider connecting column 2-2-17, 2-2-14 parts of a jet amplitude adjusting propeller; comprises a propeller mounting hole 2-2-14-1, a propeller 2-2-14-2 and a propeller mounting seat 2-2-14-3, the propeller mounting hole 2-2-14-1 is connected with a propeller 2-2-14-2 bearing, the propeller mounting hole 2-2-14-1 is arranged on the propeller mounting seat 2-2-14-3, the propeller mounting seat 2-2-14-3 is connected with a power coating motor shaft 2-2-11 bearing, a spraying direction adjusting mechanism 2-3 comprises a motor sliding sleeve 2-3-1, a motor sliding sleeve mounting frame 2-3-2, a rack 2-3-3, a gear 2-3-4 and a gear shaft 2-3-5, the motor sliding sleeve 2-3-1 is connected with the spraying power motor 2-2-10, the motor sliding sleeve mounting rack 2-3-2 is connected with the motor sliding sleeve 2-3-1, the rack 2-3-3 is connected with the motor sliding sleeve mounting rack 2-3-2, the gear 2-3-4 is connected with the rack 2-3-3 gear, the gear shaft 2-3-5 is connected with the gear 2-3-4, the gear shaft 2-3-5 is connected with the spraying power motor 2-2-10, the device can resist wind when spraying paint, the paint is fed in from one end of the spraying pipe 2-2-2 under pressure, the power motor 2-1-2 rotates, the power chain wheel 2-1-3 is connected with the power motor 2-1-2, so that the power chain wheel 2-1-3 synchronously rotates, the power chain wheel 2-1-3 is connected with the transmission chain 2-1-4, the transmission chain 2-1-4 drives the transmission chain wheel 2-1-5, the transmission chain wheel is connected with the spray pipe 2-2-2, namely, the multifunctional spray head mechanism 2 integrally rotates by taking the center of the power chain wheel 2-1-3 as an axis when the power motor 2-1-2 rotates, when the multifunctional spray head mechanism 2 rotates to an angle parallel to the outer wall of a building, the multifunctional spray head mechanism 2 enters a state of spraying paint on the outer wall of the building, the sliding power motor 2-2-6 is connected with the gear shaft 2-3-5, the gear shaft 2-3-5 is connected with the gear 2-3-4, so that the gear 2-3-4 synchronously rotates when the power motor 2-2-6 rotates in a sliding mode, the gear 2-3-4 is linked with the rack 2-3-3 to move transversely when rotating, the rack 2-3-3 is connected with the motor sliding sleeve mounting rack 2-3-2, the motor sliding sleeve mounting rack 2-3-2 is connected with the motor sliding sleeve 2-3-1, the motor sliding sleeve 2-3-1 is connected with the spraying power motor 2-2-10, the spraying power motor 2-2-10 is connected with the motor sliding mounting seat 2-2-15, the motor sliding mounting seat 2-2-15 is connected with the spray pipe 2-2-2 in a sliding manner, so that the spraying power motor 2-2-10 synchronously moves transversely on the spray pipe 2-2-2 when the gear 2-3-4 rotates, and the spraying power motor 2-2-10 is connected with the spraying power motor shaft 2-2-11, the spraying power motor shaft 2-2-11 is connected with the spraying amplitude adjusting propeller 2-2-14, namely the spraying amplitude adjusting propeller 2-2-14 can generate transverse movement when the power motor 2-2-6 rotates, the spraying amplitude adjusting propeller 2-2-14 synchronously rotates when the spraying power motor 2-2-10 rotates, a spraying wind field is formed, the coating in the spraying pipe 2-2-2 is uniformly scattered and sprayed out, the coating sprayed out from one transverse side of the spraying pipe 2-2-2 is slightly more and longitudinally uniform when the spraying amplitude adjusting propeller 2-2-14 transversely moves, the position of the spraying amplitude adjusting propeller 2-2-14 can be adjusted to form a wind resisting angle to realize the wind resisting function when side wind is met during spraying, and the equipment can uniformly spray the coating on the outer wall of a building body, the other side of the sliding power motor 2-2-6 is connected with a gear mounting shaft 2-2-7 in the spray amplitude adjusting mechanism 2-2, the gear mounting shaft 2-2-7 is connected with a power gear 2-2-8, the power gear 2-2-8 is connected with a sliding rack 2-2-4, the sliding rack 2-2-4 is connected with a sliding rack mounting plate 2-2-3, the sliding rack mounting plate 2-2-3 is connected with a sliding connecting rod 2-2-9, the sliding connecting rod 2-2-9 is connected with a sliding vane 2-2-12, the sliding vane 2-2-12 is connected with a propeller pitch adjusting slider 2-2-16, the propeller pitch adjusting slider 2-2-16 is connected with a propeller pitch adjusting slider connecting column 2-2-17, the propeller pitch adjusting slider connecting column 2-2-17 is connected with the spray amplitude adjusting propeller 2-2-14, so that when the sliding power motor 2-2-6 rotates forwards or reversely, the linkage spray amplitude adjusting propeller 2-2-14 rotates by taking the propeller mounting hole 2-2-14-1 as an axis, and when the spraying power motor 2-2-10 moves to the two-layer trigger limit of the motor mounting hole 2-2-1, the sliding power motor 2-2-6 stops working, the spray amplitude adjusting propeller 2-2-14 achieves the maximum spray amplitude and the minimum spray amplitude, actual operating personnel can adjust the spray amplitude and the wind resistance angle to be relatively ideal according to the operating requirements, when the spray amplitude adjusting propeller 2-2-14 rotates in actual operation, the coating can be uniformly sprayed into a wind field formed by the propeller according to the physical characteristics of the propeller, thereby realizing the function of spraying the coating on the outer wall of the building body.

The fourth concrete implementation mode:

the embodiment will be further described with reference to the following drawings 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21 and 22. the embodiment 3 includes a motor mounting seat 3-1, a motor sliding mechanism 3-2, a driving pulley 3-3, a brake pad 3-4, a driven pulley 3-5, a transmission shaft 3-6, a cam brake mechanism 3-7 and a sliding brake mechanism 3-8, wherein the motor mounting seat 3-1 is connected with an elevator platform 1-8, the motor sliding mechanism 3-2 is connected with the motor mounting seat 3-1, the driving pulley 3-3 is connected with the motor sliding mechanism 3-2, a brake block 3-4 is in friction connection with a driving belt wheel 3-3, a driven belt wheel 3-5 is in friction connection with the brake block 3-4, a transmission shaft 3-6 is connected with the driven belt wheel 3-5, a cam brake mechanism 3-7 is connected with a motor sliding mechanism 3-2, a sliding brake mechanism 3-8 is connected with a lifting platform 1-8, the motor sliding mechanism 3-2 comprises a brake motor 3-2-1 and a sliding brake sliding rail 3-2-2, the brake motor 3-2-1 is connected with a motor mounting seat 3-1, the sliding brake sliding rail 3-2-2 is connected with the motor mounting seat 3-1, the brake motor 3-2-1 is connected with the sliding brake sliding rail 3-2-2, the cam brake mechanism 3-7 comprises a power belt wheel 3-7-1, 3-7-2 parts of a transmission belt, 3-7-3 parts of a cam brake mechanism mounting column, 3-7-4 parts of a cam, 3-7-5 parts of a cam shaft, 3-7-1 parts of a power belt wheel, 3-6 parts of a transmission shaft, 3-7-2 parts of the transmission belt, 3-7-5 parts of a driven belt wheel on the cam shaft, 3-7-3 parts of the cam brake mechanism mounting column, 3-7-5 parts of the cam shaft, 3-7-4 parts of the cam, 3-7-5 parts of the cam shaft, 3-7-1 parts of the power belt wheel, 3-7-2 parts of the transmission belt, 3-8 parts of a sliding brake mechanism, 3-8-1 parts of a sliding block, 3-8-2 parts of a sliding block limiting hole, 3-8-3, 3-8-4 parts of a pressure shaft lever mounting plate, 3-8-5 parts of high-elastic rubber sheets, 3-8-6 parts of a pressure shaft lever, 3-8-7 parts of a pressure shaft lever mounting plate limiting block, 3-8-8 parts of a limiting spring, 3-8-9 parts of a sliding brake mechanism mounting plate, 3-8-1 parts of a slide block, 3-2-2 parts of a sliding brake slide rail, 3-8-1 parts of the slide block, 3-2 parts of the sliding brake slide rail, 3-8-2 parts of a slide block limiting hole, 3-8-9 parts of the sliding brake mechanism mounting plate, 3-8-3 parts of the slide block brake shaft, 3-8-4 parts of the pressure shaft lever mounting plate, 3-8-5 parts of the pressure shaft lever mounting plate, 3-8-4 parts of the high-elastic rubber, 3-8-5 of high-elastic rubber sheets are in threaded connection with 3-8-6 of a pressure shaft rod, 3-8-6 of the pressure shaft rod is in threaded connection with 3-8-4 of a pressure shaft rod mounting plate, 3-8-7 of a pressure shaft rod mounting plate is in threaded connection with 3-8-8 of a limiting spring, 3-8-8 of the limiting spring is in threaded connection with 3-8-4 of the pressure shaft rod mounting plate, 3-8-9 of a sliding brake mechanism mounting plate is connected with 1-8 of an elevating platform, 3-8-1 of a slide block is in sliding connection with 3-8-2 of a slide block limiting hole, 3-8-3 of the slide block brake shaft is connected with 3-8-9 of the sliding brake mechanism mounting plate, 3-8-7 of the pressure shaft rod mounting plate is connected with 3-8-9 of the sliding brake, the mounting plate 3-8-9 of the sliding brake mechanism is connected with the limiting spring 3-8-8.

The fifth 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, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, and fig. 22, and the present embodiment further describes the first embodiment, in which the power motor mounting seat 4-1 of the equipment ground motion power mechanism 4, the driving pulley 4-2, the belt 4-3, the fluctuation groove 4-4, the driven pulley 4-5, the fluctuation block 4-6, the fluctuation ball head 4-7, the power motor 4-8, and the power shaft 4-9 are provided, the power motor mounting seat 4-1 is connected with the lifting platform 1-8, the driving sprocket 4-2 is connected with the belt 4-3, the belt 4-3 is connected with the driven pulley 4-5, the driven belt wheel 4-5 is connected with the power shaft 4-9, the fluctuation block 4-6 can slide in the fluctuation groove 4-4, the fluctuation ball head 4-7 is connected with the power shaft 4-9, the driving belt wheel 4-2 is connected with the power motor 4-8, and the fluctuation ball head 4-7 is connected with the fluctuation block 4-6.

The sixth specific 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, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, fig. 18, fig. 19, fig. 20, fig. 21, and fig. 22, and the present embodiment further describes the first embodiment, where the device ground motion steering mechanism 5 includes a steering hub 5-1, a hub rotation block 5-2, a hub rotation shaft 5-3, a power motor 5-4, a power gear 5-5, a steering ball 5-6, and a rack 5-7, the steering hub 5-1 is connected with the hub rotation block 5-2, the hub rotation block 5-2 is connected with the hub rotation shaft 5-3 in a bearing manner, the hub rotation shaft 5-3 is connected with the rack 5-7, the motor 5-4 is connected with the lifting platform 1-8, the power gear 5-5 is connected with the power motor 5-4, the steering ball 5-6 is connected with the transmission shaft 3-6, the rack 5-7 is connected with the power gear 5-5 through a gear, and the steering ball 5-6 is connected with the steering hub 5-1 in a sliding mode.

The seventh embodiment:

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, wherein the ground moving wheel mechanism 6 includes a rear wheel mounting block 6-1, a rear wheel shaft 6-2, a rear wheel 6-3, a ground moving wheel mechanism mounting plate 6-4, a front wheel 6-5, a front wheel mounting block 6-6, a rear wheel mounting block 6-1 connected to the rear wheel shaft 6-2, a rear wheel shaft 6-2 connected to the rear wheel 6-3, a ground moving wheel mechanism mounting plate 6-4 connected to the platform sliding column 1-5, a front wheel 6-5 wave block 4-6, the front wheel mounting block 6-6 is connected with the equipment ground moving wheel mechanism mounting plate 6-4, the rear wheel mounting block 6-1 is connected with the equipment ground moving wheel mechanism mounting plate 6-4, the front wheel 6-5 is connected with the fluctuation ball head 4-7 in a sliding way, the fluctuation groove 4-4 is arranged on the front wheel 6-5, the equipment can move freely on the ground, the power motor 4-8 is connected with the driving pulley 4-2, the driving pulley 4-2 is connected with the belt 4-3, the belt 4-3 is connected with the driven pulley 4-5, the driven pulley 4-5 is connected with the power shaft 4-9, the transmission shaft 3-6 is connected with the fluctuation ball head 4-7, the fluctuation ball head 4-7 is connected with the fluctuation block 4-6, and the fluctuation block 4-6 is linked to rotate synchronously when the power motor 4-8 rotates, the undulation block 4-6 is arranged in the undulation groove 4-4, the undulation groove 4-4 is arranged on the front wheel 6-5, the undulation block 4-6 is linked with the front wheel to rotate when rotating, the front wheel 6-5 is connected with the front wheel installation block 6-6 through a bearing, the front wheel installation block 6-6 is connected with the equipment ground motion wheel mechanism installation plate 6-4, the equipment ground motion wheel mechanism installation plate 6-4 is connected with the rear wheel installation block 6-1, the rear wheel installation block 6-1 is connected with the rear wheel shaft 6-2 through a bearing, the rear wheel shaft 6-2 is connected with the rear wheel 6-3, namely, the power motor 4-8 rotates to enable the whole equipment to move forwards or backwards, the power motor 5-4 is connected with the power gear 5-5, the power gear 5-5 is connected with the rack 5-7 through a gear, so that the rack 5-7 is linked to move transversely when the power motor 5-, the rack 5-7 is connected with the hub rotating shaft 5-3 through a bearing, the hub rotating shaft 5-3 is connected with the hub rotating block 5-2, the hub rotating block 5-2 is connected with the steering hub 5-1, the steering hub 5-1 is connected with the steering ball head 5-6 in a sliding way, namely, the steering hub 5-1 rotates leftwards or rightwards by taking the steering ball head 5-6 as the center when the power gear 5-5 rotates forwards or reversely, the steering hub 5-1 is connected with the front wheel 6-5 in a friction way, the front wheel rotates leftwards when the steering hub 5-1 rotates leftwards or rightwards, so that the integral steering function of the equipment is realized, the brake motor 3-2-1 is connected with the driving pulley 3-3, and the driving pulley 3-3 is connected with the brake pad 3-4 in a friction way, the brake block 3-4 is connected with the driven pulley 3-5, the driven pulley 3-5 is connected with the transmission shaft 3-6, namely, the transmission shaft 3-6 is linked to rotate when the brake motor 3-2-1 rotates, if the transmission shaft 3-6 rotates in the forward direction, the brake block 3-4 rotates in the reverse direction to realize the brake function, the brake block 3-4 is arranged right above the cam 3-7-4 on the cam brake mechanism 3-7, the cam 3-7-4 is connected with the cam shaft 3-7-5, the pulley on the cam shaft 3-7-5 is in friction connection with the transmission belt 3-7-2, the transmission belt 3-7-2 is in friction connection with the power pulley 3-7-1, the power pulley 3-7-1 is connected with the brake motor 3-2-1, namely, when the brake motor 3-2-1 rotates, the cam 3-7-4 rotates synchronously, the shape characteristic of the cam 3-7-4 does not rotate for a circle to press the brake pad 3-4 once during rotation, thereby realizing the gain of the brake function, the slide block 3-8-1 is connected with the motor sliding mechanism 3-2 in a sliding way, the sliding brake slide rail 3-2-2 is connected with the brake motor 3-2-1, the slide block 3-8-1 is connected with the slide block limiting hole 3-8-2 in a sliding way, the slide block limiting hole 3-8-2 is arranged on the sliding brake mechanism mounting plate 3-8-9, the press shaft mounting plate 3-8-4 is connected with the press shaft rod 3-8-6, namely, one side of the slide block 3-8-1 at the sliding brake slide rail 3-8-1 when the brake motor 3-2-1 rotates 2-2 slide, one side of the slide block does a transverse reciprocating motion in a slide block limiting hole 3-8-2, when the slide block 3-8-1 moves, the press shaft rod mounting plate 3-8-4 is shifted to enable the press shaft rod mounting plate 3-8-4 to rotate towards one side and drive the press shaft rod 3-8-6 to press the transmission shaft 3-6 to stop rotating, when the slide block 3-8-1 is reset, the transmission shaft 3-6 is not pressed, the press shaft rod mounting plate 3-8-4 is shifted to be connected with a limiting spring 3-8-8, the limiting spring 3-8-8 is connected with a limiting block 3-8-7 of the press shaft rod mounting plate, the slide block brake shaft 3-8-3 is connected with a limiting block 3-8-7 bearing of the press shaft rod mounting plate, and the slide block brake shaft 3-8-3 is connected with a sliding brake mechanism mounting plate 3-8- And the limiting spring 3-8-8 on the limiting block 3-8-7 of the pressure shaft rod mounting plate pulls the sliding brake mechanism mounting plate 3-8-9 to rotate by taking the sliding block brake shaft 3-8-3 as a center so as to realize the reset of the pressure shaft rod 3-8-6, namely the pressure shaft rod 3-8-6 presses the transmission shaft 3-6 once when the brake motor 3-2-1 rotates for one circle, thereby further enhancing the brake function.

The specific implementation mode is eight:

the 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, wherein the sliding power motor 2-2-6 rotates in forward or reverse direction to rotate the transmission gear shaft 2-3-5 in forward or reverse direction, the transmission gear shaft 2-3-5 rotates the transmission gear 2-3-4 to rotate the gear 2-3-4 to drive the rack 2-3-3 to move transversely, the rack 2-3-3 is connected with the motor sliding sleeve mounting bracket 2-3-2, the motor sliding sleeve mounting bracket 2-3-2 is connected with the motor sliding sleeve 2-3-1, the motor sliding sleeve 2-3-1 is connected with the spraying power motor 2-2-10, so that the spraying power motor 2-2-10 slides transversely in the motor installation bin 2-2-1, the spraying power motor 2-2-10 contacts with two sides of the motor installation 2-2-1 during movement, two sides of the motor installation 2-2-1 further serve as sliding limit positions of the spraying power motor 2-2-10, the sliding power motor 2-2-6 stops working when the limit positions are triggered, the other side of the sliding power motor 2-2-6 is connected with a gear installation shaft 2-2-7 in the spray amplitude adjusting mechanism 2-2, and the gear installation shaft 2-2-7 is connected with a power gear 2-2-8, the power gear 2-2-8 is connected with the sliding rack 2-2-4, the sliding rack 2-2-4 is connected with the sliding rack mounting plate 2-2-3, the sliding rack mounting plate 2-2-3 is connected with the sliding connecting rod 2-2-9, the sliding connecting rod 2-2-9 is connected with the sliding vane 2-2-12, the sliding vane 2-2-12 is connected with the screw pitch adjusting sliding block 2-2-16, the screw pitch adjusting sliding block 2-2-16 is connected with the screw pitch adjusting sliding block connecting column 2-2-17, the screw pitch adjusting sliding block connecting column 2-2-17 is connected with the spray amplitude adjusting screw 2-2-14, so that the spray amplitude adjusting screw 2-2-4 is linked when the sliding power motor 2-2-6 rotates forwards or backwards 14 rotates by taking the propeller mounting hole 2-2-14-1 as an axis, when the spraying power motor 2-2-10 moves to the two layers of trigger limit positions of the motor mounting 2-2-1, the sliding power motor 2-2-6 stops working, the spraying amplitude adjusting propeller 2-2-14 reaches the maximum spraying amplitude and the minimum spraying amplitude, and the spraying amplitude adjusting limit position of the spraying amplitude adjusting propeller 2-2-14 is also formed when the spraying power motor 2-2-10 triggers the limit positions.

The working principle of the device is as follows: the device can convey materials by workers working aloft, a power motor 1-3 rotates, the power gear 1-2 rotates and is linked with a transmission gear 1-1 to enable the transmission gear 1-1 to simultaneously rotate through meshing with a power gear 1-2, the transmission gear 1-1 drives a rotating rod 1-6 to rotate, the rotating rod 1-6 drives a platform pulling rope 1-7 to enable the platform pulling rope 1-7 to move upwards and to be wound on the rotating rod 1-6, the platform pulling rope 1-7 drives a lifting platform 1-8, the platform pulling rope 1-7 moves upwards to pull the lifting platform 1-8 to synchronously move upwards, the lifting platform 1-8 reaches the upper limit of ascending when the platform pulling rope 1-7 is completely wound on the rotating rod 1-6, and the platform pulling rope 1-7 is unwound from the lifting platform 1-8 when the power motor 1-3 rotates reversely 1-8 move downwards, the lifting platform 1-8 moves until the platform pulls the rope 1-7 to completely unwind, the lifting platform 1-8 reaches the lower limit, when materials are conveyed to workers working aloft, the lifting platform 1-8 puts the materials to the position which does not reach the upper limit and is relatively ideal in height when the lower limit is reached, the workers working aloft take the materials, the equipment finishes the work of conveying the materials to the workers working aloft, the equipment can resist wind when coating is sprayed, the coating is fed from one end of the spray pipe 2-2-2 under pressure, the power motor 2-1-2 rotates, the power chain wheels 2-1-3 synchronously rotate through the meshing of the power chain wheels 2-1-3, the power chain wheels 2-1-3 drive the transmission chain 2-1-4, the transmission chain wheels 2-1-5 are driven by the transmission chain wheels 2-1-4, the transmission chain wheel 2-1-4 is connected with the spray pipe 2-2-2, namely when the power motor 2-1-2 rotates, the whole multifunctional spray head mechanism 2 rotates by taking the center of the power chain wheel 2-1-3 as an axis, when the multifunctional spray head mechanism 2 rotates to an angle parallel to the outer wall of a building body, the multifunctional spray head mechanism 2 enters a state of spraying paint on the outer wall of the building body, the sliding power motor 2-2-6 drives the gear shaft 2-3-5 to rotate, the gear shaft 2-3-5 drives the gear 2-3-4, so that the gear 2-3-4 synchronously rotates when the sliding power motor 2-2-6 rotates, the gear 2-3-4 is linked with the rack 2-3-3 to move transversely when rotating, the rack 2-3-3 drives the motor sliding sleeve mounting rack 2-3-2, the motor sliding sleeve mounting rack 2-3-2 drives the motor sliding sleeve 2-3-1, the motor sliding sleeve 2-3-1 drives the spraying power motor 2-2-10, the spraying power motor 2-2-10 drives the motor sliding mounting seat 2-2-15, the motor sliding mounting seat 2-2-15 drives the spray pipe 2-2-2, so that the spraying power motor 2-2-10 synchronously moves transversely on the spray pipe 2-2-2 when the gear 2-3-4 rotates, the spraying power motor 2-2-10 rotates to drive the spraying power motor shaft 2-2-11 to rotate, the spraying power motor shaft 2-2-11 drives the spray amplitude adjusting propeller 2-2-14, namely the spray amplitude adjusting propeller 2-2-2-6 rotates 14 can generate transverse movement, the spraying amplitude adjusting propellers 2-2-14 synchronously rotate when the spraying power motors 2-2-10 rotate, and form a spraying wind field to uniformly scatter and spray the coating in the spraying pipe 2-2-2, the coating sprayed from one transverse side of the spraying pipe 2-2-2 is slightly longitudinally uniform when the spraying amplitude adjusting propellers 2-2-14 transversely move, the position of the spraying amplitude adjusting propellers 2-2-14 can be adjusted to form a wind resisting angle to realize the wind resisting function when side wind is met during spraying, the equipment can uniformly spray the coating on the outer wall of a building, the other side of the sliding power motor 2-2-6 is connected with a gear mounting shaft 2-2-7 in the spraying amplitude adjusting mechanism 2-2, the gear mounting shaft 2-2-7 drives a power gear 2-2-8, the power gear 2-2-8 drives the sliding rack 2-2-4, the sliding rack 2-2-4 drives the sliding rack mounting plate 2-2-3, the sliding rack mounting plate 2-2-3 drives the sliding connecting rod 2-2-9, the sliding connecting rod 2-2-9 drives the sliding blade 2-2-12, the sliding blade 2-2-12 drives the screw pitch adjusting slider 2-2-16, the screw pitch adjusting slider 2-2-16 drives the screw pitch adjusting slider connecting column 2-2-17, the screw pitch adjusting slider connecting column 2-2-17 is linked with the jet amplitude adjusting screw 2-2-14, so that the jet amplitude adjusting screw 2-2-14 is linked to form a screw mounting hole by the screw mounting hole when the sliding power motor 2-2-6 rotates in the forward direction or the reverse direction 2-2-14-1 rotates as an axis, when the spraying power motor 2-2-10 moves to the two-layer trigger limit of the motor installation 2-2-1, the sliding power motor 2-2-6 stops working, the spray amplitude adjusting propeller 2-2-14 reaches the maximum spray amplitude and the minimum spray amplitude, the actual operator can adjust to the relatively ideal spray amplitude and wind resistance angle according to the operation requirement, and when the spray amplitude adjusting propeller 2-2-14 rotates in the actual operation, the coating can be uniformly sprayed into a wind field formed by the spray amplitude adjusting propeller according to the physical characteristics of the spray amplitude adjusting propeller, so that the function of spraying the coating on the outer wall of a building is realized. The equipment can move freely on the ground, a power motor 4-8 rotates to drive a driving belt wheel 4-2, the driving belt wheel 4-2 drives a belt 4-3, the belt 4-3 drives a driven belt wheel 4-5 to be connected, the driven belt wheel 4-5 drives a power shaft 4-9, the power shaft 4-9 is connected with a fluctuation ball head 4-7, the fluctuation ball head 4-7 is connected with a fluctuation block 4-6, the fluctuation block 4-6 is linked to rotate synchronously when the power motor 4-8 rotates, the fluctuation block 4-6 is arranged in a fluctuation groove 4-4, the fluctuation groove 4-4 is arranged on a front wheel 6-5, the fluctuation block 4-6 is linked to rotate by the front wheel when rotating, the front wheel 6-5 is connected with a front wheel mounting block 6-6 bearing, the front wheel mounting block 6-6 is connected with an equipment ground motion wheel mechanism mounting plate 6-4, the device ground motion wheel mechanism mounting plate 6-4 is connected with a rear wheel mounting block 6-1, the rear wheel mounting block 6-1 is connected with a rear wheel shaft 6-2 bearing, the rear wheel shaft 6-2 is connected with a rear wheel 6-3, namely, a power motor 4-8 rotates to enable the whole device to move forwards or backwards, the power motor 5-4 is connected with a power gear 5-5, the power gear 5-5 is connected with a rack 5-7 gear, so that the rack 5-7 is linked to move transversely when the power motor 5-4 rotates, the rack 5-7 is connected with a hub rotating shaft 5-3 bearing, the hub rotating shaft 5-3 is connected with a hub rotating block 5-2, the hub rotating block 5-2 is connected with a steering hub 5-1, and the steering hub 5-1 is connected with a steering ball head 5-6 in a sliding manner, namely, when the power gear 5-5 rotates forwards or backwards, the steering wheel hub 5-1 rotates leftwards or rightwards by taking the steering ball head 5-6 as a center, the steering wheel hub 5-1 is in friction connection with the front wheel 6-5, when the steering wheel hub 5-1 rotates leftwards or rightwards, the front wheel follows to rotate leftwards, and then the whole steering function of the equipment is realized, the brake motor 3-2-1 is connected with the driving pulley 3-3, the driving pulley 3-3 is in friction connection with the brake pad 3-4, the brake pad 3-4 is connected with the driven pulley 3-5, the driven pulley 3-5 is connected with the transmission shaft 3-6, namely, the transmission shaft 3-6 is linked to rotate when the brake motor 3-2-1 rotates, and if the brake pad 3-4 rotates reversely when the transmission shaft 3-6 rotates forwards, the braking function is realized, the brake block 3-4 is arranged right above the cam 3-7-4 on the cam brake mechanism 3-7, the cam 3-7-4 is connected with the cam shaft 3-7-5, the belt wheel on the cam shaft 3-7-5 is connected with the transmission belt 3-7-2 in a friction way, the transmission belt 3-7-2 is connected with the power belt wheel 3-7-1 in a friction way, the power belt wheel 3-7-1 is connected with the brake motor 3-2-1, namely, when the brake motor 3-2-1 rotates, the cam 3-7-4 synchronously rotates, the shape characteristic of the cam 3-7-4 per se does not rotate for one circle to press the brake block 3-4 once when rotating, further, the gain of the brake function is realized, and the slide block 3-8-1 is connected with the motor sliding mechanism 3-2 in a sliding way, the sliding brake sliding rail 3-2-2 is connected with the brake motor 3-2-1, the sliding block 3-8-1 is connected with the sliding block limiting hole 3-8-2 in a sliding way, the sliding block limiting hole 3-8-2 is arranged on the sliding brake mechanism mounting plate 3-8-9, the press shaft rod mounting plate 3-8-4 is connected with the press shaft rod 3-8-6, namely, one side of the sliding block 3-8-1 slides in the sliding brake sliding rail 3-2-2 when the brake motor 3-2-1 rotates, one side of the sliding block performs transverse reciprocating motion in the sliding block limiting hole 3-8-2, the press shaft rod mounting plate 3-8-4 is shifted when the sliding block 3-8-1 moves, so that the press shaft rod mounting plate 3-8-4 rotates to one side, and drives the pressing shaft rod 3-8-6 to press the transmission shaft 3-6 to stop rotating, the slide block 3-8-1 is not pressing the transmission shaft 3-6 when resetting, the pressing shaft rod mounting plate 3-8-4 is poked to be connected with the limiting spring 3-8-8, the limiting spring 3-8-8 is connected with the pressing shaft rod mounting plate limiting block 3-8-7, the slide block brake shaft 3-8-3 is connected with the pressing shaft rod mounting plate limiting block 3-8-7 through a bearing, the slide block brake shaft 3-8-3 is connected with the sliding brake mechanism mounting plate 3-8-9, the limiting spring 3-8-8 on the pressing shaft rod mounting plate limiting block 3-8-7 pulls the sliding brake mechanism mounting plate 3-8-9 to rotate by taking the slide block brake shaft 3-8-3 as the center to realize the pressing shaft rod 3-8-6, resetting, namely pressing the transmission shaft 3-6 once when the brake motor 3-2-1 rotates for one circle by the pressure shaft rod 3-8-6, thereby further enhancing the braking function.

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 building body outer wall spraying equipment for building, includes lift platform mechanism (1), multi-functional shower nozzle mechanism (2), dual brake mechanism (3), equipment ground motion power unit (4), equipment ground motion steering mechanism (5), equipment ground motion wheel mechanism (6), its characterized in that: the lifting platform mechanism (1) comprises a transmission gear (1-1), a power gear (1-2), a power motor (1-3), a motor base body (1-4), a platform sliding column (1-5), a rotating rod (1-6), a platform pulling rope (1-7) and a lifting platform (1-8), wherein the transmission gear (1-1) is connected with the power gear (1-2), the power gear (1-2) is connected with the power motor (1-3), the power motor (1-3) is connected with the motor base body (1-4), the motor base body (1-4) is connected with the platform sliding column (1-5), the platform sliding column (1-5) is connected with a bearing of the rotating rod (1-6), and the rotating rod (1-6) is in friction connection with the platform pulling rope (1-7), the lifting platform (1-8) is connected with the platform sliding column (1-5) in a sliding manner, the transmission gear (1-1) is connected with the rotating rod (1-6), and the lifting platform (1-8) is connected with the platform pulling rope (1-7);

the multifunctional spray head mechanism (2) comprises a multifunctional spray head rotating mechanism (2-1), a spray amplitude adjusting mechanism (2-2) and a spray direction adjusting mechanism (2-3), wherein the multifunctional spray head rotating mechanism (2-1) is in bearing connection with a lifting platform (1-8), the spray amplitude adjusting mechanism (2-2) is connected with the multifunctional spray head rotating mechanism (2-1), and the spray direction adjusting mechanism (2-3) is connected with the spray amplitude adjusting mechanism (2-2); the multifunctional spray head rotating mechanism (2-1) comprises a motor base body (2-1-1), a power motor (2-1-2), a power chain wheel (2-1-3), a transmission chain (2-1-4) and a transmission chain wheel (2-1-5), wherein the motor base body (2-1-1) is connected with the power motor (2-1-2), the power motor (2-1-2) is connected with the power chain wheel (2-1-3), the power chain wheel (2-1-3) is connected with the transmission chain (2-1-4), the transmission chain (2-1-4) is connected with the transmission chain wheel (2-1-5), the motor base body (2-1-1) is connected with a lifting platform (1-8), the transmission chain wheel (2-1-5) is connected with the lifting platform (1-8) through a bearing; the spray amplitude adjusting mechanism (2-2) comprises a power motor mounting bin (2-2-1), a spray pipe (2-2-2), a sliding rack mounting plate (2-2-3), a sliding rack (2-2-4), a sliding rack mounting frame (2-2-5), a sliding power motor (2-2-6), a gear mounting shaft (2-2-7), a power gear (2-2-8), a sliding connecting rod (2-2-9), a spraying power motor (2-2-10), a spraying power motor shaft (2-2-11), a sliding sheet (2-2-12), a sliding sheet boss (2-2-13), a spray amplitude adjusting screw propeller (2-2-14), a motor sliding mounting seat (2-2-15), A propeller pitch adjusting slider (2-2-16), a propeller pitch adjusting slider connecting column (2-2-17) and a propeller pitch adjusting slider hole (2-2-18), a motor installation bin (2-2-1) is connected with a spray pipe (2-2-2), the spray pipe (2-2-2) is connected with a sliding rack installation frame (2-2-5), the sliding rack installation frame (2-2-3) is connected with a sliding rack (2-2-4), the sliding rack (2-2-4) is connected with a sliding rack installation frame (2-2-5), the sliding rack installation frame (2-2-5) is connected with a power gear (2-2-8), and a sliding power motor (2-2-6) is connected with the spray pipe (2-2-2), the gear installation shaft (2-2-7) is connected with a sliding power motor (2-2-6), the power gear (2-2-8) is connected with a sliding rack (2-2-4) through a gear, a sliding connecting rod (2-2-9) is connected with a sliding rack installation plate (2-2-3), a spraying power motor (2-2-10) is connected with a motor sliding installation seat (2-2-15), a spraying power motor shaft (2-2-11) is connected with a spraying power motor (2-2-10), a sliding sheet (2-2-12) is connected with the sliding connecting rod (2-2-9), a sliding sheet boss (2-2-13) is connected with a sliding sheet (2-2-12), and a spraying amplitude adjusting propeller (2-2-14) is connected with the spraying power motor shaft (2-2-11) A motor sliding installation seat (2-2-15) is connected with a spray pipe (2-2-2) in a sliding way, the sliding limit of the motor sliding installation seat (2-2-15) is arranged on a motor installation bin (2-2-1), a propeller pitch adjusting sliding block (2-2-16) is connected with a propeller pitch adjusting sliding block hole (2-2-18) in a sliding way, the propeller pitch adjusting sliding block hole (2-2-18) is arranged on the spray pipe (2-2-2), a propeller pitch adjusting sliding block connecting column (2-2-17) is connected with a spray amplitude adjusting propeller (2-2-14), a sliding rack installation plate (2-2-3) is connected with a sliding connecting rod (2-2-9), a gear installation shaft (2-2-7) is connected with a power gear (2-2-8), a sliding connecting rod (2-2-9) is connected with a sliding vane (2-2-12), a spraying power motor shaft (2-2-11) is connected with a bearing of a spray amplitude adjusting propeller (2-2-14), a sliding vane boss (2-2-13) is connected with a propeller pitch adjusting slider (2-2-16), a motor sliding installation seat (2-2-15) is limited on a motor installation bin (2-2-1) in a sliding manner, and the propeller pitch adjusting slider (2-2-16) is connected with a propeller pitch adjusting slider connecting column (2-2-17); the spraying amplitude adjusting propeller (2-2-14) comprises a propeller mounting hole (2-2-14-1), a propeller (2-2-14-2) and a propeller mounting seat (2-2-14-3), the propeller mounting hole (2-2-14-1) is connected with a bearing of the propeller (2-2-14-2), the propeller mounting hole (2-2-14-1) is formed in the propeller mounting seat (2-2-14-3), and the propeller mounting seat (2-2-14-3) is connected with a bearing of a power coating motor shaft (2-2-11); the spraying direction adjusting mechanism (2-3) comprises a motor sliding sleeve (2-3-1), a motor sliding sleeve mounting rack (2-3-2), a rack (2-3-3), a gear (2-3-4) and a gear shaft (2-3-5), the motor sliding sleeve (2-3-1) is connected with a spraying power motor (2-2-10), the motor sliding sleeve mounting rack (2-3-2) is connected with the motor sliding sleeve (2-3-1), the rack (2-3-3) is connected with the motor sliding sleeve mounting rack (2-3-2), the gear (2-3-4) is connected with the rack (2-3-3) through a gear, the gear shaft (2-3-5) is connected with the gear (2-3-4), the gear shaft (2-3-5) is connected with a spraying power motor (2-2-10);

the dual-brake mechanism (3) comprises a motor mounting seat (3-1), a motor sliding mechanism (3-2), a driving belt wheel (3-3), a brake pad (3-4), a driven belt wheel (3-5), a transmission shaft (3-6), a cam brake mechanism (3-7) and a sliding brake mechanism (3-8), wherein the motor mounting seat (3-1) is connected with a lifting platform (1-8), the motor sliding mechanism (3-2) is connected with the motor mounting seat (3-1), the driving belt wheel (3-3) is connected with the motor sliding mechanism (3-2), the brake pad (3-4) is in friction connection with the driving belt wheel (3-3), the driven belt wheel (3-5) is in friction connection with the brake pad (3-4), and the transmission shaft (3-6) is connected with the driven belt wheel (3-5), the cam brake mechanism (3-7) is connected with the motor sliding mechanism (3-2), and the sliding brake mechanism (3-8) is connected with the lifting platform (1-8); the motor sliding mechanism (3-2) comprises a brake motor (3-2-1), a sliding brake sliding rail (3-2-2) and a sliding chute (3-2-3), the sliding brake sliding rail (3-2-2) is connected with the motor mounting seat (3-1), the shaft of the brake motor (3-2-1) is connected with the sliding brake sliding rail (3-2-2), and the sliding chute (3-2-3) is arranged on the sliding brake sliding rail (3-2-2); the cam brake mechanism (3-7) comprises a power belt wheel (3-7-1), a transmission belt (3-7-2), a cam brake mechanism mounting column (3-7-3), a cam (3-7-4) and a cam shaft (3-7-5), the power belt wheel (3-7-1) is connected with the transmission shaft (3-6), the transmission belt (3-7-2) is connected with a driven belt wheel on the cam shaft (3-7-5), the cam brake mechanism mounting column (3-7-3) is connected with a bearing of the cam shaft (3-7-5), the cam (3-7-4) is connected with the cam shaft (3-7-5), and the power belt wheel (3-7-1) is in friction connection with the transmission belt (3-7-2); the sliding brake mechanism (3-8) comprises a sliding block (3-8-1), a sliding block limiting hole (3-8-2), a sliding block brake shaft (3-8-3), a pressing shaft rod mounting plate (3-8-4), a high-elastic rubber sheet (3-8-5), a pressing shaft rod (3-8-6), a pressing shaft rod mounting plate limiting block (3-8-7), a limiting spring (3-8-8) and a sliding brake mechanism mounting plate (3-8-9), wherein the sliding block (3-8-1) is connected with a sliding brake sliding rail (3-2-2), the sliding block (3-8-1) is connected with the sliding brake sliding rail (3-2-2) in a sliding manner, the sliding block limiting hole (3-8-2) is formed in the sliding brake mechanism mounting plate (3-8-9), a sliding block brake shaft (3-8-3) is in bearing connection with a pressing shaft rod mounting plate (3-8-4), the pressing shaft rod mounting plate (3-8-4) is connected with a high-elastic rubber sheet (3-8-5), the high-elastic rubber sheet (3-8-5) is in threaded connection with a pressing shaft rod (3-8-6), the pressing shaft rod (3-8-6) is in threaded connection with the pressing shaft rod mounting plate (3-8-4), a limiting block (3-8-7) of the pressing shaft rod mounting plate is connected with a limiting spring (3-8-8), the limiting spring (3-8-8) is connected with the pressing shaft rod mounting plate (3-8-4), a sliding brake mechanism mounting plate (3-8-9) is connected with a lifting platform (1-8), the sliding block (3-8-1) is connected with the sliding block limiting hole (3-8-2) in a sliding mode, the sliding block brake shaft (3-8-3) is connected with the sliding brake mechanism mounting plate (3-8-9), the shaft pressing rod mounting plate limiting block (3-8-7) is connected with the sliding brake mechanism mounting plate (3-8-9), and the sliding brake mechanism mounting plate (3-8-9) is connected with the limiting spring (3-8-8);

the ground motion power mechanism (4) of the equipment comprises a power motor mounting seat (4-1), a driving belt wheel (4-2), a belt (4-3), a fluctuation groove (4-4), a driven belt wheel (4-5), a fluctuation block (4-6), a fluctuation ball head (4-7), a power motor (4-8) and a power shaft (4-9), wherein the power motor mounting seat (4-1) is connected with a lifting platform (1-8), the driving chain wheel (4-2) is in friction connection with the belt (4-3), the belt (4-3) is in friction connection with the driven belt wheel (4-5), the driven belt wheel (4-5) is connected with the power shaft (4-9), the fluctuation block (4-6) can slide in the fluctuation groove (4-4), and the fluctuation ball head (4-7) is connected with the power shaft (4-9), the driving belt wheel (4-2) is connected with a power motor (4-8), and the fluctuation ball head (4-7) is connected with a fluctuation block (4-6);

the equipment ground motion steering mechanism (5) comprises a steering wheel hub (5-1), a wheel hub rotating block (5-2), a wheel hub rotating shaft (5-3), a power motor (5-4), a power gear (5-5), a steering ball head (5-6) and a rack (5-7), wherein the steering wheel hub (5-1) is connected with the wheel hub rotating block (5-2), the wheel hub rotating block (5-2) is connected with the wheel hub rotating shaft (5-3) through a bearing, the wheel hub rotating shaft (5-3) is connected with the rack (5-7), the power motor (5-4) is connected with a lifting platform (1-8), the power gear (5-5) is connected with the power motor (5-4), and the steering ball head (5-6) is connected with a transmission shaft (3-6), the rack (5-7) is connected with the power gear (5-5) through a gear, and the steering ball head (5-6) is connected with the steering hub (5-1) in a sliding manner;

the equipment ground motion wheel mechanism (6) comprises a rear wheel mounting block (6-1), a rear wheel shaft (6-2), a rear wheel (6-3), an equipment ground motion wheel mechanism mounting plate (6-4), a front wheel (6-5) and a front wheel mounting block (6-6), wherein the rear wheel mounting block (6-1) is connected with the rear wheel shaft (6-2), the rear wheel shaft (6-2) is connected with the rear wheel (6-3), the equipment ground motion wheel mechanism mounting plate (6-4) is connected with a platform sliding column (1-5), the front wheel mounting block (6-6) is connected with the equipment ground motion wheel mechanism mounting plate (6-4), the rear wheel mounting block (6-1) is connected with the equipment ground motion wheel mechanism mounting plate (6-4), the front wheel (6-5) is connected with a fluctuation ball head (4-7) in a sliding manner, the fluctuation groove (4-4) is arranged on the front wheel (6-5);

elevating platform mechanism (1) link to each other with multi-functional shower nozzle mechanism (2), dual brake mechanism (3) link to each other with equipment ground motion power unit (4), equipment ground motion power unit (4) link to each other with equipment ground motion wheel mechanism (6), equipment ground motion steering mechanism (5) link to each other with equipment ground motion wheel mechanism (6), equipment ground motion wheel mechanism (6) link to each other with elevating platform mechanism (1), dual brake mechanism (3) link to each other with equipment ground motion wheel mechanism (6).

2. The building exterior wall spraying equipment for the building according to claim 1, characterized in that: when the sliding power motor (2-2-6) rotates forwards or reversely, the transmission gear shaft (2-3-5) rotates the transmission gear (2-3-4) to rotate the gear (2-3-4) so as to drive the rack (2-3-3) to move transversely, the rack (2-3-3) is connected with the motor sliding sleeve mounting rack (2-3-2), the motor sliding sleeve mounting rack (2-3-2) is connected with the motor sliding sleeve (2-3-1), the motor sliding sleeve (2-3-1) is connected with the spraying power motor (2-2-10) so as to ensure that the spraying power motor (2-2-10) slides transversely in the motor mounting bin (2-2-1), the spraying power motor (2-2-10) contacts with the two sides of the motor installation (2-2-1) when moving, the two sides of the motor installation (2-2-1) further become the sliding limit of the spraying power motor (2-2-10), the sliding power motor (2-2-6) stops working when the limit is triggered, the other side of the sliding power motor (2-2-6) is connected with a gear installation shaft (2-2-7) in the spraying amplitude adjusting mechanism (2-2), the gear installation shaft (2-2-7) is connected with a power gear (2-2-8), the power gear (2-2-8) is connected with a sliding rack (2-2-4), the sliding rack (2-2-4) is connected with a sliding rack installation plate (2-2-3), the sliding rack mounting plate (2-2-3) is connected with a sliding connecting rod (2-2-9), the sliding connecting rod (2-2-9) is connected with a sliding sheet (2-2-12), the sliding sheet (2-2-12) is connected with a propeller pitch adjusting sliding block (2-2-16) in a sliding manner, the propeller pitch adjusting sliding block (2-2-16) is connected with a propeller pitch adjusting sliding block connecting column (2-2-17), the propeller pitch adjusting sliding block connecting column (2-2-17) is connected with a spray amplitude adjusting propeller (2-2-14), so that the spray amplitude adjusting propeller (2-2-14) is linked to rotate by taking a propeller mounting hole (2-2-14-1) as an axis when the sliding power motor (2-2-6) rotates forwards or reversely, and when the spraying power motor (2-2-10) moves to the two-layer trigger limit of the motor installation (2-2-1), the sliding power motor (2-2-6) stops working, the spray amplitude adjusting propeller (2-2-14) reaches the maximum spray amplitude and the minimum spray amplitude, and the spray amplitude adjusting limit of the spray amplitude adjusting propeller (2-2-14) is also formed when the spraying power motor (2-2-10) triggers the limit.

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