CN113102308B - Flywheel maintenance equipment for flywheel energy storage - Google Patents

Abstract

The invention relates to a maintenance device, in particular to a flywheel maintenance device for flywheel energy storage, which comprises a flywheel fixing mechanism and a cleaning mechanism, wherein the device can adapt to flywheels with different sizes, can rotate to clean the flywheels, can drain a cleaning agent and is convenient to dry after cleaning is finished, and the flywheel fixing mechanism is connected with the cleaning mechanism.

Description

Flywheel maintenance equipment for flywheel energy storage

Technical Field

The invention relates to a maintenance device, in particular to a flywheel maintenance device for flywheel energy storage.

Background

In the cleaning and maintenance of the flywheel, the traditional maintenance means is manual cleaning, and wind drying is carried out through a fan, so that the flywheel maintenance equipment for flywheel energy storage is very inconvenient.

Disclosure of Invention

The invention mainly solves the technical problem of providing flywheel maintenance equipment for flywheel energy storage, the equipment can adapt to flywheels with different sizes, the equipment can rotate to clean the flywheels, and the equipment can drain a cleaning agent and is convenient to dry after cleaning is finished.

In order to solve the technical problem, the invention relates to a maintenance device, in particular to a flywheel maintenance device for flywheel energy storage, which comprises a flywheel fixing mechanism and a cleaning mechanism, the device can adapt to flywheels with different sizes, the device can rotate to clean the flywheels, and the device can drain a cleaning agent and is convenient to dry after cleaning is finished.

The flywheel fixing mechanism is connected with the cleaning mechanism.

As a further optimization of the technical scheme, the flywheel fixing mechanism of the flywheel maintenance equipment for flywheel energy storage comprises a base, a support, a rotating platform, a step square column, a blade plate, a suspension supporting leg, a floating platform, a clamping seat, a connecting rod, a connecting disc, a step rod, a lead screw with a twisting head, a threaded hole, a gear, a driving motor, a waterproof platform, an inner gear ring, a sliding groove, a built-in spring, a sliding cavity, a hydraulic rod, a hydraulic cylinder and an end cover, wherein the base is connected with the support, the support is rotatably connected with the rotating platform, the rotating platform is connected with the step square column, the step square column is slidably connected with the sliding cavity, the sliding cavity is arranged in the suspension supporting leg, the suspension supporting leg is connected with the floating platform, the blade plate is connected with the rotating platform, the clamping seat is connected with the connecting seat, the connecting seat is hinged with the connecting rod, the connecting disc is hinged with the connecting disc, the step rod is slidably connected with the floating platform, the hydraulic device comprises a screw rod with a twisting head, a threaded hole, a connecting disc, a floating platform, a gear, a driving motor, a waterproof platform, a base, an inner gear ring, a gear, a connecting seat, a built-in spring, a hydraulic rod, a hydraulic cylinder and an end cover, wherein the screw rod with the twisting head is in threaded connection with the threaded hole, the threaded hole is formed in the connecting disc, the screw rod with the twisting head is in rotating connection with the floating platform, the gear is connected with the driving motor, the driving motor is connected with the waterproof platform, the waterproof platform is connected with the base, the inner gear ring is meshed with the gear, the inner gear ring is arranged on the rotating platform, the sliding groove is formed in the floating platform, the connecting seat is connected in the sliding groove in a sliding mode, two ends of the built-in spring are respectively connected to a step square column and a suspension supporting leg, the hydraulic rod is connected with the floating platform in a sliding mode, the hydraulic rod is connected with the rotating platform in a sliding mode, the hydraulic cylinder is connected with the rotating platform, the end cover is in a contact mode, and is fixed on the rotating platform through bolts.

As a further optimization of the technical scheme, the cleaning mechanism of the flywheel maintenance equipment for flywheel energy storage comprises a pier seat with a sliding groove, a screw I, a sliding frame, a limiting rod, a hollow roller brush wheel with a belt shaft, a hole, a hollow shaft, a connecting pipe, an auxiliary support, a bearing seat, a movable seat, a coupling, a servo motor, a roller brush driving motor, a belt pulley, a belt pulley with a shaft, a cam, an abrasion-proof plate, a piston rod, a reset spring, a pressure box, a water inlet pipe, a belt pulley I, a belt pulley II, a servo motor I, an inner piston and a screw II, wherein the pier seat with the sliding groove is connected with a base, the pier seat with the sliding groove is rotatably connected with the screw I, the sliding frame is in threaded connection with the screw I, the sliding frame is in sliding connection with the pier seat with the sliding groove, the sliding frame is connected with the limiting rod, the hollow roller brush wheel with the hollow shaft is rotatably connected with the bearing seat, the hole is arranged on the roller brush wheel with the hollow shaft, the hollow shaft is connected and communicated with the hollow belt shaft rolling brush wheel, the hollow shaft is rotationally connected with the bearing seat, the hollow shaft is rotationally connected with the connecting pipe, the connecting pipe is connected with the auxiliary support, the auxiliary support is connected with the bearing seat, the bearing seat is connected with the movable seat, the movable seat is slidably connected with the limiting rod, the screw rod II is rotationally connected with the sliding seat, the screw rod II is connected with the coupling, the coupling is connected with the servo motor, the servo motor is connected with the sliding seat, the rolling brush driving motor is connected with the bearing seat, the rolling brush driving motor is connected with the belt pulley, the belt pulley is connected with the hollow belt shaft rolling brush wheel, the belt pulley is in friction connection with the belt, the belt is in friction connection with the belt shaft belt pulley, the belt shaft belt pulley is rotationally connected with the bearing seat, the belt shaft pulley is connected with the cam, the cam is in contact with the wear-resisting plate, the wear-resisting plate is connected with the piston rod, and the reset spring is sleeved on the piston rod, reset spring both ends are connected respectively on antifriction plate and pressure tank, piston rod and pressure tank sliding connection, the pressure tank links to each other and communicates with the inlet tube, the pressure tank links to each other with the bearing frame, connecting pipe one end is passed the bearing frame and is connected on the pressure tank, the connecting pipe communicates with the pressure tank mutually, belt pulley I and belt pulley II all link to each other with lead screw I, belt pulley I and belt pulley II all are connected with belt I friction, belt pulley II links to each other with servo motor I, servo motor I links to each other with the base, the inner piston links to each other with the piston rod, inner piston and pressure tank sliding connection.

As a further optimization of the technical scheme, the number of the lead screws I of the flywheel maintenance equipment for flywheel energy storage is two.

As a further optimization of the technical scheme, the one-way valve is arranged in the connecting pipe of the flywheel maintenance equipment for flywheel energy storage, the one-way valve is arranged at the joint of the connecting pipe and the hollow shaft, the opening direction is one-way liquid conveying to the hollow roller brush wheel with the shaft, the one-way valve is arranged in the water inlet pipe, and the opening direction is one-way liquid conveying to the pressure tank.

The flywheel maintenance equipment for flywheel energy storage has the beneficial effects that:

according to the flywheel maintenance equipment for flywheel energy storage, the equipment can adapt to flywheels with different sizes, the equipment can rotate to clean the flywheels, and the equipment can drain a cleaning agent and is convenient to dry after cleaning is finished.

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 flywheel maintenance equipment for flywheel energy storage according to the present invention.

Fig. 2 is a schematic structural diagram of a flywheel maintenance device for flywheel energy storage according to the second embodiment of the invention.

Fig. 3 is a schematic structural diagram three of flywheel maintenance equipment for flywheel energy storage according to the present invention.

Fig. 4 is a first structural schematic diagram of a flywheel fixing mechanism 1 of the flywheel maintenance equipment for flywheel energy storage according to the present invention.

Fig. 5 is a second structural schematic diagram of a flywheel fixing mechanism 1 of the flywheel maintenance equipment for flywheel energy storage according to the present invention.

Fig. 6 is a third schematic structural diagram of a flywheel fixing mechanism 1 of the flywheel maintenance equipment for flywheel energy storage according to the present invention.

Fig. 7 is a first structural schematic diagram of a cleaning mechanism 2 of the flywheel maintenance equipment for flywheel energy storage of the invention.

Fig. 8 is a schematic structural diagram II of a cleaning mechanism 2 of the flywheel maintenance equipment for flywheel energy storage of the invention.

Fig. 9 is a schematic structural diagram three of the cleaning mechanism 2 of the flywheel maintenance equipment for flywheel energy storage of the invention.

In the figure: a flywheel fixing mechanism 1; a base 1-1; 1-2 of support; 1-3 of a rotating table; 1-4 of a stepped square column; 1-5 of a leaf plate; 1-6 of suspension legs; 1-7 of a floating platform; 1-8 parts of a clamping seat; connecting seats 1-9; 1-10 of a connecting rod; connecting discs 1-11; 1-12 of stair rods; screw rods 1-13 with screwing heads; threaded holes 1-14; gears 1-15; driving motors 1 to 16; 1-17 of waterproof platform; 1-18 parts of inner gear ring; 1-19 of a chute; 1-20 parts of built-in spring; a sliding chamber 1-21; hydraulic rods 1-22; 1-23 of a hydraulic cylinder; end caps 1-24; a cleaning mechanism 2; 2-1 of pier base with sliding groove; a lead screw I2-2; a sliding frame 2-3; 2-4 of a limiting rod; hollow rolling brush wheel with shaft 2-5; opening 2-6; hollow shafts 2-7; connecting pipes 2-8; 2-9 parts of auxiliary support; 2-10 parts of a bearing seat; 2-11 parts of a movable seat; 2-12 parts of a coupler; 2-13 of servo motor; 2-14 of a rolling brush driving motor; 2-15 parts of belt pulley; 2-16 parts of a belt; belt pulley 2-17 with shaft; 2-18 of the cam; wear plates 2-19; 2-20 parts of a piston rod; 2-21 parts of a return spring; 2-22 parts of a pressure tank; 2-23 parts of a water inlet pipe; pulley I2-24; belts I2-25; pulley II 2-26; servo motors I2-27; 2-28 of inner piston; and a lead screw II 2-29.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, and fig. 9, and the invention relates to a maintenance device, and more specifically to a flywheel maintenance device for flywheel energy storage, which includes a flywheel fixing mechanism 1 and a cleaning mechanism 2, the device can adapt to flywheels of different sizes, the device can rotate to clean the flywheel, and the device can drain a cleaning agent and simultaneously clean the cleaning agent and facilitate drying after the cleaning is finished.

The flywheel fixing mechanism 1 is connected with the cleaning mechanism 2.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, and fig. 9, and the embodiment further describes the embodiment, where the flywheel fixing mechanism 1 includes a base 1-1, a support 1-2, a rotating table 1-3, a stepped square column 1-4, a vane plate 1-5, a floating leg 1-6, a floating table 1-7, a locking seat 1-8, a connecting seat 1-9, a connecting rod 1-10, a connecting disk 1-11, a stepped rod 1-12, a screw rod with a screwing head 1-13, a threaded hole 1-14, a gear 1-15, a driving motor 1-16, a waterproof table 1-17, an inner gear ring 1-18, a sliding chute 1-19, an internal spring 1-20, a sliding cavity 1-21, a sliding cavity 1-14, a gear 1-15, a driving motor 1-16, a waterproof table 1-17, an inner gear ring 1-18, a sliding groove 1-19, a built-in spring, and a sliding cavity, Hydraulic rods 1-22, hydraulic cylinders 1-23 and end covers 1-24, wherein a base 1-1 is connected with a support 1-2, the support 1-2 is rotatably connected with a rotating table 1-3, the rotating table 1-3 is connected with a step square column 1-4, the step square column 1-4 is slidably connected with a sliding cavity 1-21, the sliding cavity 1-21 is arranged in a suspension leg 1-6, the suspension leg 1-6 is connected with a floating table 1-7, a blade plate 1-5 is connected with the rotating table 1-3, a clamping seat 1-8 is connected with a connecting seat 1-9, the connecting seat 1-9 is hinged with a connecting rod 1-10, the connecting rod 1-10 is hinged with a connecting plate 1-11, the connecting plate 1-11 is slidably connected with a step rod 1-12, the step rod 1-12 is connected with the floating table 1-7, screw rods 1-13 with twisting heads are in threaded connection with threaded holes 1-14, the threaded holes 1-14 are arranged on connecting discs 1-11, the screw rods 1-13 with twisting heads are in rotary connection with floating platforms 1-7, gears 1-15 are connected with driving motors 1-16, the driving motors 1-16 are connected with waterproof platforms 1-17, the waterproof platforms 1-17 are connected with bases 1-1, inner gear rings 1-18 are meshed with the gears 1-15, the inner gear rings 1-18 are arranged on the rotating platforms 1-3, sliding chutes 1-19 are arranged on the floating platforms 1-7, connecting seats 1-9 are in sliding connection in the sliding chutes 1-19, built-in springs 1-20 are arranged in sliding cavities 1-21, two ends of the built-in springs 1-20 are respectively connected to stepped square columns 1-4 and suspension legs 1-6, the hydraulic rod 1-22 is connected with the floating platform 1-7, the hydraulic rod 1-22 is connected with the rotating platform 1-3 in a sliding mode, the hydraulic rod 1-22 is connected with the hydraulic cylinder 1-23, the hydraulic cylinder 1-23 is connected with the rotating platform 1-3, the hydraulic cylinder 1-23 is in contact with the end cover 1-24, the end cover 1-24 is fixed on the rotating platform 1-3 through bolts, a hose capable of allowing liquid detergent to enter is externally connected with a water inlet pipe 2-23, a flywheel needing cleaning and maintenance is placed on the rotating platform 1-3, then the pressure tank 2-22 is driven to move downwards through the water inlet pipe 2-23, the pressure tank 2-22 can drive the floating platform 1-7 to move downwards until the right angle of the clamping seat 1-8 is flush with the upper edge of the flywheel, then the screw head 1-13 is driven to be screwed, the screw rod 1-13 with the screwing head can drive the connecting disc 1-11 to move downwards through the threaded hole 1-14, the connecting disc 1-11 can push the connecting seat 1-9 to move through the connecting rod 1-10, and the connecting seat 1-9 can drive the clamping seat 1-8 to move until the clamping seat 1-8 is clamped on the inner ring of the flywheel, so that the flywheel is fixed.

The third concrete implementation mode:

the following describes the embodiment with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, and fig. 9, and the embodiment further describes the embodiment, where the cleaning mechanism 2 includes a block base 2-1 with a sliding slot, a lead screw I2-2, a sliding base 2-3, a limit rod 2-4, a hollow roller brush wheel 2-5 with a shaft, an opening 2-6, a hollow shaft 2-7, a connecting pipe 2-8, an auxiliary support 2-9, a bearing base 2-10, a movable base 2-11, a coupling 2-12, a servo motor 2-13, a roller brush driving motor 2-14, a belt pulley 2-15, a belt 2-16, a pulley 2-17 with a shaft, a cam 2-18, a wear plate 2-19, a piston rod 2-20, and a return spring 2-21, 2-22 parts of pressure box, 2-23 parts of water inlet pipe, I2-24 parts of belt pulley, I2-25 parts of belt pulley, II2-26 parts of belt pulley, I2-27 parts of servo motor, 2-28 parts of inner piston, II2-29 parts of screw rod, 2-1 parts of pier seat with sliding chute is connected with 1-1 part of base, 2-1 parts of pier seat with sliding chute is connected with I2-2 parts of screw rod in rotation, 2-3 parts of sliding frame is connected with I2-2 parts of screw rod, 2-3 parts of sliding frame is connected with 2-1 parts of pier seat with sliding chute in sliding mode, 2-3 parts of sliding frame is connected with 2-4 parts of limit rod, 2-5 parts of hollow roller brush with shaft are connected with 2-10 parts of bearing seat in rotation, 2-6 parts of opening are arranged on 2-5 parts of hollow roller brush with shaft, 2-7 parts of hollow roller brush with shaft are connected and communicated with 2-5 parts of roller brush with hollow shaft, the hollow shaft 2-7 is rotatably connected with a bearing seat 2-10, the hollow shaft 2-7 is rotatably connected with a connecting pipe 2-8, the connecting pipe 2-8 is connected with an auxiliary support 2-9, the auxiliary support 2-9 is connected with the bearing seat 2-10, the bearing seat 2-10 is connected with a movable seat 2-11, the movable seat 2-11 is slidably connected with a limit rod 2-4, a lead screw II2-29 is rotatably connected with a sliding frame 2-3, a lead screw II2-29 is in threaded connection with the movable seat 2-11, a lead screw II2-29 is connected with a coupler 2-12, a coupler 2-12 is connected with a servo motor 2-13, a servo motor 2-13 is connected with the sliding frame 2-3, a rolling brush driving motor 2-14 is connected with the bearing seat 2-10, a rolling brush driving motor 2-14 is connected with a belt pulley 2-15, the belt pulleys 2-15 are connected with hollow shaft roller brush wheels 2-5, the belt pulleys 2-15 are in friction connection with belts 2-16, the belts 2-16 are in friction connection with shaft belt pulleys 2-17, the shaft belt pulleys 2-17 are in rotation connection with bearing seats 2-10, the shaft belt pulleys 2-17 are connected with cams 2-18, the cams 2-18 are in contact with wear plates 2-19, the wear plates 2-19 are connected with piston rods 2-20, return springs 2-21 are sleeved on the piston rods 2-20, two ends of the return springs 2-21 are respectively connected with the wear plates 2-19 and pressure boxes 2-22, the piston rods 2-20 are in sliding connection with the pressure boxes 2-22, the pressure boxes 2-22 are connected and communicated with water inlet pipes 2-23, the pressure boxes 2-22 are connected with the bearing seats 2-10, one end of a connecting pipe 2-8 is connected to a pressure tank 2-22 through a bearing seat 2-10, the connecting pipe 2-8 is communicated with the pressure tank 2-22, a belt pulley I2-24 and a belt pulley II2-26 are both connected with a screw I2-2, the belt pulley I2-24 and the belt pulley II2-26 are both connected with a belt I2-25 in a friction mode, the belt pulley II2-26 is connected with a servo motor I2-27, the servo motor I2-27 is connected with a base 1-1, an inner piston 2-28 is connected with a piston rod 2-20, the inner piston 2-28 is connected with the pressure tank 2-22 in a sliding mode, a coupler 2-12 is driven to rotate through the operation of a servo motor 2-13, the coupler 2-12 drives a screw II2-29 to rotate, and therefore the vertical height of a movable seat 2-11 is changed, the height of the hollow roller brush wheel 2-5 with the shaft can be attached to a fixed flywheel, the servo motor I2-27 operates to drive the belt pulley II2-26 to rotate, the belt pulley II2-26 drives the belt pulley I2-24 to rotate through the belt I2-25, the belt pulley II2-26 and the belt pulley I2-24 drive the two lead screws I2-2 to synchronously rotate so as to drive the sliding frame 2-3 to move, so that the radial position of the hollow roller brush wheel 2-5 with the shaft is changed, the position of the hollow roller brush wheel 2-5 with the shaft can cover the radius length of the flywheel, then the roller brush driving motors 2-14 and the driving motors 1-16 are synchronously operated, the roller brush driving motors 2-14 drive the belt pulleys 2-15 to rotate, the belt pulleys 2-15 drive the belt pulley 2-17 with the belt 2-16 to rotate, the belt pulley 2-17 with the shaft can drive the cam 2-18 to rotate, the cam 2-18 can drive the wear-resisting plate 2-19 to reciprocate up and down through the cooperation with the return spring 2-21, the wear-resisting plate 2-19 can drive the inner piston 2-28 to reciprocate up and down through the piston rod 2-20, the inner piston 2-28 can cause the pressure difference change in the pressure tank 2-22, so that the cleaning agent in the external hose is continuously sucked into the pressure tank 2-22 through the check valve in the water inlet pipe 2-23 and then is sprayed into the hollow belt roller brush wheel 2-5 through the connecting pipe 2-8 after being pressurized, the belt pulley 2-15 can drive the hollow belt roller brush wheel 2-5 to rotate when rotating, and the cleaning agent can flow out from the hole 2-6 while moving in the hollow belt roller brush wheel 2-5, so that the cleaning agent coming out of the holes 2-6 can be uniformly mixed, the connecting pipe 2-8 can not obstruct the rotation of the hollow rolling brush wheel with shaft 2-5, the hollow rolling brush wheel with shaft 2-5 can continuously scrub the flywheel when rotating, and the cleaning agent can be continuously cleaned without cutting off, the driving motor 1-16 can drive the gear 1-15 to rotate, the gear 1-15 can drive the inner gear ring 1-18 to rotate, the inner gear ring 1-18 can drive the rotating platform 1-3 to rotate, the rotating platform 1-3 can drive the clamped flywheel to rotate, thus the cleaned position can be continuously changed, the cleaning efficiency is improved, when the rotating platform 1-3 rotates, the blade plate 1-5 can rotate, the blade plate 1-5 can drive the air to flow to the periphery, thereby the cleaning agent can directly fall to the ground after cleaning, after cleaning is finished, the hollow belt shaft rolling brush wheel 2-5 is driven to be far away from the flywheel through adjustment of the servo motors 2-13 and the servo motors I2-27, then the rotating table 1-3 is kept to rotate continuously, water can be quickly separated from the flywheel under the double action of the blade plate 1-5 and centrifugal force, and the flywheel is dried conveniently.

The fourth concrete implementation mode:

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, and fig. 9, and the present embodiment further describes the first embodiment in which the number of the lead screws I2-2 is two.

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, and fig. 9, and the present embodiment further describes the first embodiment, in which a check valve is disposed in the connecting pipe 2-8, and is disposed at the connection between the connecting pipe 2-8 and the hollow shaft 2-7, the opening direction is one-way to convey liquid into the hollow roller brush wheel 2-5 with a shaft, the water inlet pipe 2-23 is disposed with a check valve, and the opening direction is one-way to convey liquid into the pressure tank 2-22.

The working principle of the device is as follows: the device can adapt to flywheels with different sizes, a water inlet pipe 2-23 is externally connected with a hose capable of being filled with liquid detergent, the flywheels needing cleaning and maintenance are placed on a rotating table 1-3, then a pressure tank 2-22 is driven to move downwards through the water inlet pipe 2-23, the pressure tank 2-22 can drive a floating table 1-7 to move downwards until the right angle of a clamping seat 1-8 is flush with the upper edge of the flywheels, then a screw driving head lead screw 1-13 is screwed, the screw driving head lead screw 1-13 can drive a connecting disc 1-11 to move downwards through a threaded hole 1-14, the connecting disc 1-11 can push a connecting seat 1-9 to move through a connecting rod 1-10, the connecting seat 1-9 can drive the clamping seat 1-8 to move until the clamping seat 1-8 is clamped on an inner ring of the flywheels, thereby completing the fixation of the flywheel; the equipment can rotate to clean the flywheel, the servo motors 2-13 operate to drive the couplers 2-12 to rotate, the couplers 2-12 can drive the lead screws II2-29 to rotate, so that the vertical height of the movable seats 2-11 is changed, the height of the hollow belt shaft rolling brush wheel 2-5 can be attached to the fixed flywheel, the servo motors I2-27 operate to drive the belt pulleys II2-26 to rotate, the belt pulleys II2-26 can drive the belt pulleys I2-24 to rotate through the belts I2-25, so that the belt pulleys II2-26 and the belt pulleys I2-24 can drive the two lead screws I2-2 to synchronously rotate, the sliding frames 2-3 are driven to move, the radial positions of the hollow belt shaft rolling brush wheels 2-5 are changed, and the radial lengths of the flywheel can be covered by the hollow belt shaft rolling brush wheels 2-5, then the roller brush driving motors 2-14 and the driving motors 1-16 are synchronously operated, the roller brush driving motors 2-14 drive the belt pulleys 2-15 to rotate, the belt pulleys 2-15 drive the belt shaft belt pulleys 2-17 to rotate through the belts 2-16, the belt shaft belt pulleys 2-17 drive the cams 2-18 to rotate, the cams 2-18 drive the wear plates 2-19 to reciprocate up and down through the cooperation with the return springs 2-21, the wear plates 2-19 drive the inner pistons 2-28 to reciprocate up and down through the piston rods 2-20, and the inner pistons 2-28 cause the pressure difference change in the pressure tanks 2-22, so that the cleaning agent in the external hose is continuously sucked into the pressure tanks 2-22 through the one-way valves in the water inlet pipes 2-23 and then is sprayed into the hollow belt shaft roller brush wheel 2-22 from the connecting pipes 2-8 after being pressurized 5, the belt pulleys 2-15 can drive the hollow belt shaft rolling brush wheel 2-5 to rotate when rotating, so that cleaning agents can flow out of the holes 2-6 while moving in the hollow belt shaft rolling brush wheel 2-5, the cleaning agents flowing out of the holes 2-6 can be kept to be uniformly mixed, the connecting pipe 2-8 can not obstruct the rotation of the hollow belt shaft rolling brush wheel 2-5, the hollow belt shaft rolling brush wheel 2-5 can continuously brush the flywheel when rotating, the cleaning agents can be continuously cleaned without cutting off, the driving motors 1-16 can drive the gears 1-15 to rotate, the gears 1-15 can drive the inner gear rings 1-18 to rotate, the inner gear rings 1-18 can drive the rotating platforms 1-3 to rotate, and the rotating platforms 1-3 can drive the clamped flywheel to rotate, thus, the position to be cleaned can be changed continuously, and the cleaning efficiency is improved; the equipment can drain the cleaning agent and is convenient to dry after cleaning is finished, when the rotating table 1-3 rotates, the blade plate 1-5 drives air to flow around, so that the cleaning agent can directly fall to the ground after cleaning is finished, the hollow belt shaft rolling brush wheel 2-5 is driven to be away from the flywheel through adjustment of the servo motors 2-13 and the servo motors I2-27, then the rotating table 1-3 is kept to continue rotating, water can be rapidly separated from the flywheel through dual effects of the blade plate 1-5 and centrifugal force, and the drying of the flywheel is facilitated.

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 may be made by one of ordinary skill in the art within the spirit and scope of the present invention are also within the scope of the present invention.

Claims (1)

1. The utility model provides a flywheel curing equipment for flywheel energy storage, includes flywheel fixed establishment (1), clean mechanism (2), its characterized in that: the flywheel fixing mechanism (1) is connected with the cleaning mechanism (2);

the flywheel fixing mechanism (1) comprises a base (1-1), a support (1-2), a rotating table (1-3), a step square column (1-4), a leaf plate (1-5), a suspension supporting leg (1-6), a floating table (1-7), a clamping seat (1-8), a connecting seat (1-9), a connecting rod (1-10), a connecting disc (1-11), a step rod (1-12), a screw rod (1-13) with a twisting head, a threaded hole (1-14), a gear (1-15), a driving motor (1-16), a waterproof table (1-17), an inner gear ring (1-18), a sliding groove (1-19), a built-in spring (1-20), a sliding cavity (1-21), a hydraulic rod (1-22), The hydraulic cylinder (1-23) and the end cover (1-24), the base (1-1) is connected with the support (1-2), the support (1-2) is rotatably connected with the rotating platform (1-3), the rotating platform (1-3) is connected with the step square column (1-4), the step square column (1-4) is slidably connected with the sliding cavity (1-21), the sliding cavity (1-21) is arranged in the suspension support leg (1-6), the suspension support leg (1-6) is connected with the floating platform (1-7), the vane plate (1-5) is connected with the rotating platform (1-3), the clamping seat (1-8) is connected with the connecting seat (1-9), the connecting seat (1-9) is hinged with the connecting rod (1-10), the connecting rod (1-10) is hinged with the connecting disk (1-11), the connecting disc (1-11) is connected with the stair rod (1-12) in a sliding manner, the stair rod (1-12) is connected with the floating platform (1-7), the lead screw (1-13) with the screwing head is in threaded connection with the threaded hole (1-14), the threaded hole (1-14) is arranged on the connecting disc (1-11), the lead screw (1-13) with the screwing head is rotationally connected with the floating platform (1-7), the gear (1-15) is connected with the driving motor (1-16), the driving motor (1-16) is connected with the waterproof platform (1-17), the waterproof platform (1-17) is connected with the base (1-1), the inner gear ring (1-18) is meshed with the gear (1-15), the inner gear ring (1-18) is arranged on the rotating platform (1-3), the chute (1-19) is arranged on the floating platform (1-7), the connecting seat (1-9) is connected in a sliding groove (1-19) in a sliding mode, an internal spring (1-20) is arranged in a sliding cavity (1-21), two ends of the internal spring (1-20) are connected to a step square column (1-4) and a suspension supporting leg (1-6) respectively, a hydraulic rod (1-22) is connected with a floating platform (1-7), the hydraulic rod (1-22) is connected with a rotating platform (1-3) in a sliding mode, the hydraulic rod (1-22) is connected with a hydraulic cylinder (1-23), the hydraulic cylinder (1-23) is connected with the rotating platform (1-3), the hydraulic cylinder (1-23) is in contact with an end cover (1-24), and the end cover (1-24) is fixed on the rotating platform (1-3) through a bolt;

the cleaning mechanism (2) comprises a pier seat (2-1) with a sliding groove, a lead screw I (2-2), a sliding frame (2-3), a limiting rod (2-4), a hollow rolling brush wheel (2-5) with a shaft, a hole (2-6), a hollow shaft (2-7), a connecting pipe (2-8), an auxiliary support (2-9), a bearing seat (2-10), a movable seat (2-11), a coupler (2-12), a servo motor (2-13), a rolling brush driving motor (2-14), a belt pulley (2-15), a belt (2-16), a belt pulley (2-17) with a shaft, a cam (2-18), an abrasion-resistant plate (2-19), a piston rod (2-20), a reset spring (2-21), a pressure box (2-22), A water inlet pipe (2-23), a belt pulley I (2-24), a belt I (2-25), a belt pulley II (2-26), a servo motor I (2-27), an inner piston (2-28), a screw II (2-29), a pier seat (2-1) with a chute is connected with a base (1-1), the pier seat (2-1) with the chute is rotationally connected with the screw I (2-2), a sliding frame (2-3) is in threaded connection with the screw I (2-2), the sliding frame (2-3) is in sliding connection with the pier seat (2-1) with the chute, the sliding frame (2-3) is connected with a limit rod (2-4), a hollow rolling brush wheel (2-5) with a shaft is rotationally connected with a bearing seat (2-10), and an opening (2-6) is arranged on the hollow rolling brush wheel (2-5) with the shaft, the hollow shaft (2-7) is connected and communicated with the hollow brush roller with the shaft (2-5), the hollow shaft (2-7) is rotationally connected with a bearing seat (2-10), the hollow shaft (2-7) is rotationally connected with a connecting pipe (2-8), the connecting pipe (2-8) is connected with an auxiliary support (2-9), the auxiliary support (2-9) is connected with the bearing seat (2-10), the bearing seat (2-10) is connected with a movable seat (2-11), the movable seat (2-11) is in sliding connection with a limiting rod (2-4), a screw rod II (2-29) is rotationally connected with a sliding frame (2-3), the screw rod II (2-29) is in threaded connection with the movable seat (2-11), the screw rod II (2-29) is connected with a coupler (2-12), the coupler (2-12) is connected with a servo motor (2-13), the servo motor (2-13) is connected with a sliding frame (2-3), a rolling brush driving motor (2-14) is connected with a bearing seat (2-10), the rolling brush driving motor (2-14) is connected with a belt pulley (2-15), the belt pulley (2-15) is connected with a hollow rolling brush wheel (2-5) with a shaft, the belt pulley (2-15) is in friction connection with a belt (2-16), the belt (2-16) is in friction connection with a belt pulley (2-17), the belt pulley (2-17) with the shaft is in rotation connection with the bearing seat (2-10), the belt pulley (2-17) with the shaft is connected with a cam (2-18), and the cam (2-18) is in contact with an abrasion resistant plate (2-19), the wear-resisting plate (2-19) is connected with the piston rod (2-20), the reset spring (2-21) is sleeved on the piston rod (2-20), two ends of the reset spring (2-21) are respectively connected with the wear-resisting plate (2-19) and the pressure box (2-22), the piston rod (2-20) is in sliding connection with the pressure box (2-22), the pressure box (2-22) is connected and communicated with the water inlet pipe (2-23), the pressure box (2-22) is connected with the bearing seat (2-10), one end of the connecting pipe (2-8) penetrates through the bearing seat (2-10) and is connected with the pressure box (2-22), the connecting pipe (2-8) is communicated with the pressure box (2-22), the belt pulley I (2-24) and the belt pulley II (2-26) are both connected with the screw rod I (2-2), the belt pulleys I (2-24) and the belt pulleys II (2-26) are in friction connection with the belt I (2-25), the belt pulleys II (2-26) are connected with the servo motors I (2-27), the servo motors I (2-27) are connected with the base (1-1), the inner pistons (2-28) are connected with the piston rods (2-20), and the inner pistons (2-28) are in sliding connection with the pressure boxes (2-22);

the number of the lead screws I (2-2) is two;

the connecting pipe (2-8) is internally provided with a one-way valve which is arranged at the joint of the connecting pipe (2-8) and the hollow shaft (2-7), the opening direction is one-way to convey liquid into the hollow roller brush wheel with the shaft (2-5), the water inlet pipe (2-23) is internally provided with a one-way valve, and the opening direction is one-way to convey liquid into the pressure tank (2-22).

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