CN111281310A - Indoor crystal lamp cleaning device - Google Patents

Abstract

The invention relates to a cleaning device, in particular to an indoor crystal lamp cleaning device which comprises a dustproof wall, a base, a lifting frame and an air drying mechanism, wherein the device can wrap a crystal lamp, can adapt to and adjust the wrapping range, can clean the crystal lamp, can adjust the height of a crystal, is positioned at the upper part of the base, is in sliding fit with the base, and is fixed at the lower part of the base, and the air drying mechanism is fixed at the lower part of the base.

Description

Indoor crystal lamp cleaning device

Technical Field

The invention relates to a cleaning device, in particular to an indoor crystal lamp cleaning device.

Background

The crystal ceiling lamp is large in atmosphere, attractive in appearance, time and labor are wasted when the crystal ceiling lamp is cleaned, and the crystal lamp is conveniently and quickly cleaned, so that the indoor crystal lamp cleaning device is designed.

Disclosure of Invention

The invention mainly solves the technical problem of providing an indoor crystal lamp cleaning device, the device can wrap a crystal lamp, the device can adapt to and adjust the wrapping range, the device can clean the crystal lamp, and the device can adjust the height of the crystal.

In order to solve the technical problem, the invention relates to a cleaning device, in particular to an indoor crystal lamp cleaning device which comprises a dustproof wall, a base, a lifting frame and an air drying mechanism.

The dustproof wall is located the upper portion of base, dustproof wall and base sliding fit, the crane is fixed in the lower part of base, air-dry mechanism fixes in the lower part of base.

As a further optimization of the technical scheme, the dustproof wall of the indoor crystal lamp cleaning device comprises four rotatable walls, four tensioning mechanisms and four cleaning mechanisms, wherein the rotatable walls are in sliding fit with the base; the rotatable wall comprises four superposed walls, fixed grooves, a rotatable column seat and a torsion hole, the side surfaces of the superposed walls are provided with strip-shaped openings, the fixed grooves are fixed at the upper end and the lower end of the superposed walls, the fixed grooves are fixed at the inner side of the superposed walls, the rotatable column is positioned at the lower part of the superposed walls, the rotatable column is in sliding fit with the base, the rotatable column seat is positioned at the outer side of the superposed walls, the rotatable column seat is in sliding fit with the tensioning mechanism, the torsion hole is positioned at the bottom of the inner side of the superposed walls, and the torsion hole is connected with; the tensioning mechanism comprises a central stretching block, four spring sleeves, a stretching post and a stretching spring, wherein the lower part of the central stretching block is in sliding fit with the base, four through holes are processed in the central stretching block, the spring sleeves are in four, the spring sleeves are in sliding fit with the central stretching block, one end of the stretching post is positioned in the spring sleeves, one end of the stretching post is connected with the torsion hole, the stretching spring is sleeved on the stretching post, one side of the stretching spring is in contact with the spring sleeves, and one side of the stretching spring is in contact with the stretching post; the cleaning mechanism comprises an arc-shaped chute, two threaded columns, a small motor, a sliding column, a first column, a second column, a belt and a cleaning gun, wherein two threaded holes are formed in one end of the arc-shaped chute; the cleaning gun comprises a support, a sliding wheel, a driving motor, an inner sleeve wheel, a nozzle and a motor gear, wherein a hole is formed in the support, the sliding wheel is in sliding fit with an arc-shaped sliding groove, the driving motor is fixed on the support, the inner sleeve wheel is fixed on the upper portion of the support, the inner sleeve wheel is in sliding fit with a household-shaped sliding groove, the nozzle is fixed on the upper portion of the support, the motor gear is fixed on a rotating shaft of the driving motor, and the motor gear is meshed with the.

As a further optimization of the technical scheme, the base of the indoor crystal lamp cleaning device comprises a sliding chute seat, plugs, guide wheels, fan ports, support grooves, guide pipe holes, double bolts, a helical gear, a base motor, transition teeth, a first belt wheel, a belt and a second belt wheel, wherein the sliding chute seat is square, the upper part of the sliding chute seat is provided with four square sliding chutes, the plugs are fixed on the sliding chute seat, the middle part of each plug is provided with a hole, the guide wheels are fixed on the upper part of the sliding chute seat, the fan ports are provided with four fan ports, the fan ports are positioned in the middle of the sliding chute seat, the upper part of each support groove is provided with a hole, the upper part of each support groove is in sliding fit with a rotating column at the lower part of a superposed wall, the guide pipe holes are provided with four double bolts, one end of each double bolt is in sliding fit with the corresponding plug, one end of each double bolt penetrates through the middle part of the sliding chute, the four helical gears are fixed at one end of the stud, the lower portions of the helical gears are meshed with the transition teeth, the base motor is fixed at the lower portion of the sliding groove seat, the transition teeth are annular, the transition teeth are located in the middle of the sliding groove seat, the transition teeth are in sliding fit with the sliding groove seat, teeth are machined on the upper portions of the transition teeth, the first belt wheel is fixed on a rotating shaft of the base motor, the belt is connected with the first belt wheel, the second belt wheel is fixed with the stud, and the second belt wheel is connected with the belt.

As a further optimization of the technical scheme, the lifting frame of the indoor crystal lamp cleaning device comprises a moving plate, sliding blocks, connecting rods, supporting seats, a spring seat, moving blocks, springs, threaded rods, middle bevel gears, transmission rods, wide belts, a belt motor, narrow belts and middle shafts, wherein I-shaped grooves are formed in the upper portion of the moving plate, the four sliding blocks are arranged, the sliding blocks are in sliding fit with the moving plate, threads are formed in the lower portions of the sliding blocks, through holes are formed in the upper portions of the sliding blocks, the lower portions of the connecting rods are in sliding fit with the upper portions of the sliding blocks, the upper portions of the connecting rods are in sliding fit with the moving blocks, the supporting seats are in hollow strip shapes, the upper portions of the supporting seats are fixed together with the sliding groove seats, the spring seat is fixed in the middle portions of the, the threaded rod is in threaded fit with the sliding block, the middle helical gear is fixed in the middle of the threaded rod, teeth are machined at two ends of the transmission rod, two ends of the transmission rod are meshed with the middle clamping wheel, the transmission rod is in sliding fit with the movable plate, the wide belt is connected with the transmission rod, the belt motor is fixed on the upper portion of the movable plate, the narrow belt is connected with the belt motor, the narrow belt is connected with the intermediate shaft, the intermediate shaft is in sliding fit with the movable plate, and the intermediate shaft is.

As a further optimization of the technical scheme, the air drying mechanism of the indoor crystal lamp cleaning device comprises a seat plate, four fan blades, four pipeline holes, four ventilation holes, a fan motor, a motor support, a connecting band, a connecting wheel, a tension frame and a tension spring, wherein the seat plate is circular, the seat plate is fixed at the lower part of a base, the four fan blades are in sliding fit with the seat plate, the four pipeline holes are communicated with the conduit holes, the four ventilation holes are formed, the fan motor is fixed on the motor support, the motor support is fixed at the lower part of the seat plate, the motor support is arc-shaped, the connecting band is connected with the fan motor, the four connecting wheels are fixed together with the connecting wheels, the connecting wheels are connected with the connecting band, the tension wheel is connected with the connecting band, the tension frame is fixed at the lower part of the seat plate, the tension frame is in sliding, one end of the tension spring is in contact with the tension frame.

As a further optimization of the technical scheme, the superimposed wall of the indoor crystal lamp cleaning device is made of plastic.

As a further optimization of the technical scheme, the teeth are processed on the arc outer ring of the arc sliding groove of the indoor crystal lamp cleaning device.

As a further optimization of the technical scheme, the sliding groove seat of the indoor crystal lamp cleaning device is made of aluminum alloy.

The indoor crystal lamp cleaning device has the beneficial effects that:

according to the indoor crystal lamp cleaning device, the crystal lamp can be wrapped by the device, the device can adapt to and adjust the wrapping range, the device can clean the crystal lamp, and the device can adjust the height from the crystal.

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 an indoor crystal lamp cleaning device according to the present invention.

Fig. 2 is a schematic structural diagram of a part of an indoor crystal lamp cleaning device according to the present invention.

Fig. 3 is a schematic side view of a part of an indoor crystal lamp cleaning device according to the present invention.

Fig. 4 is a schematic structural diagram of a dustproof wall 1 of an indoor crystal lamp cleaning device according to the present invention.

Fig. 5 is a schematic structural diagram of a rotatable wall 1-1 of an indoor crystal lamp cleaning device according to the present invention.

Fig. 6 is a schematic structural diagram of a tensioning mechanism 1-2 of an indoor crystal lamp cleaning device of the invention.

Fig. 7 is a schematic structural diagram of a cleaning mechanism 1-3 of an indoor crystal lamp cleaning device according to the present invention.

Fig. 8 is a schematic structural diagram of cleaning guns 1-3-8 of an indoor crystal lamp cleaning device of the invention.

Fig. 9 is a schematic side view of a cleaning gun 1-3-8 of an indoor crystal lamp cleaning device according to the present invention.

Fig. 10 is a schematic structural diagram of a base 2 of an indoor crystal lamp cleaning device according to the present invention.

Fig. 11 is a schematic structural view of the other side of the base 2 of the indoor crystal lamp cleaning device of the present invention.

Fig. 12 is a schematic partial structural view of a base 2 of an indoor crystal lamp cleaning device according to the present invention.

Fig. 13 is a schematic structural diagram of a lifting frame 3 of the indoor crystal lamp cleaning device of the invention.

Fig. 14 is a partial structural schematic diagram of the lifting frame 3 of the indoor crystal lamp cleaning device of the invention.

Fig. 15 is a schematic partial structure view of the lifting frame 3 of the indoor crystal lamp cleaning device of the invention.

Fig. 16 is a schematic structural diagram of an air drying mechanism 4 of an indoor crystal lamp cleaning device according to the present invention.

Fig. 17 is a schematic structural view of the other side of the air drying mechanism 4 of the indoor crystal lamp cleaning device of the present invention.

In the figure: a dust-proof wall 1; a rotatable wall 1-1; a stacking wall 1-1-1; 1-1-2 of a fixed groove; 1-1-3 of a rotating column; 1-1-4 of a rotary column seat; twisting holes 1-1-5; a tensioning mechanism 1-2; a central stretching block 1-2-1; 1-2-2 of a spring sleeve; stretching the column 1-2-3; 1-2-4 of an extension spring; a cleaning mechanism 1-3; 1-3-1 of an arc chute; 1-3-2 of double-thread columns; 1-3-3 parts of a small motor; 1-3-4 of a sliding column; 1-3-5 of a first column; 1-3-6 of a second column; 1-3-7 parts of a belt; 1-3-8 parts of a cleaning gun; 1-3-8-1 of a bracket; 1-3-8-2 of a sliding wheel; 1-3-8-3 of a driving motor; 1-3-8-4 parts of an inner sleeve wheel; 1-3-8-5 parts of a nozzle; 1-3-8-6 parts of a motor gear; a base 2; 2-1 of a chute seat; 2-2 of blocking; 2-3 of a guide wheel; 2-4 of a fan port; 2-5 of a supporting groove; 2-6 of a conduit hole; 2-7 of a stud; 2-8 parts of a bevel gear; 2-9 parts of a base motor; 2-10 of transition teeth; 2-11 of a belt wheel I; 2-12 parts of a belt; 2-13 of a second belt wheel; a lifting frame 3; moving a plate 3-1; 3-2 of a sliding block; 3-3 of a connecting rod; 3-4 parts of a supporting seat; spring seats 3-5; moving blocks 3-6; 3-7 of a spring; 3-8 parts of a threaded rod; 3-9 parts of middle bevel gear; 3-10 of a transmission rod; 3-11 parts of a wide belt; 3-12 parts of a belt motor; 3-13 parts of narrow belts; 3-14 of the intermediate shaft; an air drying mechanism 4; a seat plate 4-1; 4-2 of fan blades; 4-3 of pipeline holes; 4-4 of ventilation holes; 4-5 of a fan motor; 4-6 of a motor bracket; 4-7 of a connecting belt; 4-8 of connecting wheels; 4-9 of tension wheel; 4-10 parts of a tensioning frame; tensioning springs 4-11.

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, and fig. 17, and the present invention relates to a sampling device, and more specifically, to an indoor crystal lamp cleaning device, which includes a dust-proof wall 1, a base 2, a crane 3, and an air drying mechanism 4, and the device can wrap a crystal lamp, can adapt to and adjust the wrapping range, can clean the crystal lamp, and can adjust the height from the crystal.

The dustproof wall 1 is located on the upper portion of the base 2, the dustproof wall 1 is in sliding fit with the base 2, the lifting frame 3 is fixed on the lower portion of the base 2, and the air drying mechanism 4 is fixed on the lower portion of the base 2.

The second embodiment is as follows:

the present embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, and the present embodiment further describes the first embodiment, where the dust-proof wall 1 includes a rotatable wall 1-1, a tightening mechanism 1-2, and a cleaning mechanism 1-3, the rotatable wall 1-1 is slidably engaged with the base 2, the tightening mechanism 1-2 is slidably engaged with the rotatable wall 1-1, the middle portion of the tightening mechanism 1-2 is slidably engaged with the base 2, the cleaning mechanism 1-3 is fixed to the inner side of the rotatable wall 1-1, and four cleaning mechanisms 1-3 are provided; the rotatable wall 1-1 comprises a superposed wall 1-1-1, fixed grooves 1-1-2, rotating columns 1-1-3, a rotating column seat 1-1-4 and twisting holes 1-1-5, the superposed wall 1-1-1 is provided with four, the side surface of the superposed wall 1-1-1 is provided with a strip opening, the fixed grooves 1-1-2 are fixed at the upper end and the lower end of the superposed wall 1-1-1, the fixed grooves 1-1-2 are fixed at the inner side of the superposed wall 1-1-1, the rotating columns 1-1-3 are positioned at the lower part of the superposed wall 1-1-1, the rotating columns 1-1-3 are in sliding fit with the base 2, the rotating column seat 1-1-4 is positioned at the outer side of the superposed wall 1-1-1-1, the rotating column seat 1-1-4 is in sliding fit with the tensioning mechanism 1-2, the twisting hole 1-1-5 is positioned at the bottom of the inner side of the superposition wall 1-1-1, and the twisting hole 1-1-5 is connected with the tensioning mechanism 1-2; the tensioning mechanism 1-2 comprises a central stretching block 1-2-1, a spring sleeve 1-2-2, a stretching column 1-2-3 and a stretching spring 1-2-4, the lower part of the central stretching block 1-2-1 is in sliding fit with a base 2, four through holes are processed on the central stretching block 1-2-1, four spring sleeves 1-2-2 are arranged, the spring sleeve 1-2-2 is in sliding fit with the central stretching block 1-2-1, one end of the stretching column 1-2-3 is positioned in the spring sleeve 1-2-2, one end of the stretching column 1-2-3 is connected with a twisting hole 1-1-5, the stretching spring 1-2-4 is sleeved on the stretching column 1-2-3, one side of the stretching spring 1-2-4 is contacted with the spring sleeve 1-2-2, one side of the extension spring 1-2-4 is contacted with the extension column 1-2-3; the cleaning mechanism 1-3 comprises an arc chute 1-3-1, a double-thread column 1-3-2, a small motor 1-3-3, a sliding column 1-3-4, a column I1-3-5, a column II 1-3-6, a belt 1-3-7 and a cleaning gun 1-3-8, wherein one end of the arc chute 1-3-1 is provided with two threaded holes, the arc chute 1-3-1 is provided with teeth, the arc chute 1-3-1 is in threaded fit with the double-thread column 1-3-2, the double-thread column 1-3-2 is provided with two threaded columns, the double-thread column 1-3-2 is fixed on the fixed groove 1-1-2, the small motor 1-3-3 is fixed on the outer side of the superposed wall 1-1-1-1, the sliding column 1-3-4 is in sliding fit with the rotating column seat 1-1-4, the first column 1-3-5 is fixed at the lower part of the sliding column 1-3-4, the second column 1-3-6 is provided with two columns, the second column 1-3-6 is fixed at the lower part of the double-thread column 1-3-2, the belt 1-3-7 is sleeved on the first column 1-3-5, the belt 1-3-7 is sleeved on the second column 1-3-6, and the cleaning gun 1-3-8 is connected with the arc chute 1-3-1; the cleaning gun 1-3-8 comprises a support 1-3-8-1, a sliding wheel 1-3-8-2, a driving motor 1-3-8-3, an inner sleeve wheel 1-3-8-4, a nozzle 1-3-8-5 and a motor gear 1-3-8-6, wherein the support 1-3-8-1 is provided with a hole, the sliding wheel 1-3-8-2 is in sliding fit with the support 1-3-8-1, the sliding wheel 1-3-8-2 is in sliding fit with an arc chute 1-3-1, the driving motor 1-3-8-3 is fixed on the support 1-3-8-1, the inner sleeve wheel 1-3-8-4 is fixed on the upper part of the support 1-3-8-1, the inner sleeve wheel 1-3-8-4 is in sliding fit with the household sliding chute 1-3-1, the nozzle 1-3-8-5 is fixed at the upper part of the bracket 1-3-8-1, the motor gear 1-3-8-6 is fixed on the rotating shaft of the driving motor 1-3-8-3, and the motor gear 1-3-8-6 is meshed with the arc sliding chute 1-3-1. The small motor 1-3-3 is connected into a circuit, the small motor 1-3-3 is started, the small motor 1-3-3 rotates to drive the sliding column 1-3-4 to rotate, the sliding column 1-3-4 drives the column I1-3-5 to rotate, the column I1-3-5 drives the belt 1-3-7 to rotate, the belt 1-3-7 drives the column II 1-3-6 to rotate, the column II 1-3-6 drives the double-threaded column 1-3-2 to rotate, and the threaded column 1-3-2 rotates to drive the arc chute 1-3-1 to move up and down; the ceiling lamp cleaning method includes the steps that a driving motor 1-3-8-3 is connected into a circuit, the driving motor 1-3-8-3 is started, the driving motor 1-3-8-3 drives a motor gear 1-3-8-6 to rotate, the motor gear 1-3-8-6 and an arc-shaped sliding groove 1-3-1 rotate and move in a circle mode, a nozzle 1-3-8-5 is connected into compressed air or cleaning liquid, and then the ceiling lamp can be cleaned.

The third concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, and the embodiment further describes the embodiment, where the base 2 includes a chute seat 2-1, a plug 2-2, a guide wheel 2-3, a blower port 2-4, a support groove 2-5, a conduit hole 2-6, a stud 2-7, a helical gear 2-8, a base motor 2-9, a transition tooth 2-10, a pulley one 2-11, a belt 2-12, and a pulley two 2-13, the chute seat 2-1 is square, a square chute is processed at the upper portion of the chute seat 2-1, four plugs 2-2 are provided, the plug 2-2 is fixed on the chute seat 2-1, the middle part of the plug 2-2 is provided with a hole, the guide wheels 2-3 are four, the guide wheels 2-3 are fixed on the upper part of the sliding chute seat 2-1, the fan ports 2-4 are four, the fan ports 2-4 are positioned in the middle part of the sliding chute seat 2-1, the upper part of the support groove 2-5 is provided with a hole, the upper part of the support groove 2-5 is matched with the rotating column 1-1-3 at the lower part of the superposed wall 1-1-1 in a sliding way, the guide pipe holes 2-6 are four, the screw studs 2-7 are four, one end of the screw studs 2-7 is matched with the plug 2-2 in a sliding way, one end of the screw studs 2-7 penetrates through the middle part of the sliding chute seat 2-1, the screw studs 2-7 are matched with the sliding chute seat 2-1 in, four bevel gears 2-8 are arranged, the bevel gears 2-8 are fixed at one end of a stud 2-7, the lower parts of the bevel gears 2-8 are meshed with transition teeth 2-10, a base motor 2-9 is fixed at the lower part of a sliding groove seat 2-1, the transition teeth 2-10 are in a circular ring shape, the transition teeth 2-10 are positioned in the middle of the sliding groove seat 2-1, the transition teeth 2-10 are in sliding fit with the sliding groove seat 2-1, teeth are machined at the upper parts of the transition teeth 2-10, a belt wheel I2-11 is fixed on a rotating shaft of the base motor 2-9, a belt 2-12 is connected with the belt wheel I2-11, a belt wheel II 2-13 is fixed with the stud 2-7, and a belt wheel II 2-13 is connected with. The base motors 2-9 are connected into a circuit, the base motors 2-9 are started, the base motors 2-9 rotate to drive the belt wheel I2-11 to move, the belt wheel I2-11 drives the belt 2-12 to rotate, the belt 2-12 drives the belt wheel II 2-13 to move, the belt wheel II 2-13 drives the studs 2-7 to rotate, the studs 2-7 drive the transition teeth 2-10 to rotate, the transition teeth 2-10 drive the rest studs 2-7 to rotate, the studs 2-7 drive the support grooves 2-5 to move, and the support grooves 2-5 drive the stacking walls 1-1-1 to rotate.

The fourth concrete implementation mode:

the embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17. the embodiment further describes that the lifting frame 3 comprises a moving plate 3-1, a sliding block 3-2, a connecting rod 3-3, a supporting seat 3-4, a spring seat 3-5, a moving block 3-6, a spring 3-7, a threaded rod 3-8, an intermediate helical gear 3-9, a transmission rod 3-10, a wide belt 3-11, a belt motor 3-12, a narrow belt 3-13, and an intermediate shaft 3-14, an i-shaped groove is processed on the upper portion of the moving plate 3-1, four sliding blocks 3-2 are arranged, the sliding block 3-2 is in sliding fit with the moving plate 3-1, the lower part of a sliding block 3-2 is provided with a thread, the upper part of the sliding block 3-2 is provided with a through hole, the lower part of a connecting rod 3-3 is in sliding fit with the upper part of the sliding block 3-2, the upper part of the connecting rod 3-3 is in sliding fit with a moving block 3-6, a supporting seat 3-4 is in a hollow strip shape, the upper part of the supporting seat 3-4 is fixed with a sliding groove seat 2-1, a spring seat 3-5 is fixed at the middle part of the supporting seat 3-4, the moving block 3-6 is positioned inside the supporting seat 3-4, the moving block 3-6 is in sliding fit with the supporting seat 3-4, one end of a spring 3-7 is contacted with the moving block 3-6, one end of the spring 3-7 is connected with the spring seat 3-5, a, teeth are processed at two ends of a transmission rod 3-10, two ends of the transmission rod 3-10 are meshed with a middle clamping wheel 3-9, the transmission rod 3-10 is in sliding fit with a moving plate 3-1, a wide belt 3-11 is connected with the transmission rod 3-10, a belt motor 3-12 is fixed at the upper part of the moving plate 3-1, a narrow belt 3-13 is connected with the belt motor 3-12, the narrow belt 3-13 is connected with an intermediate shaft 3-14, the intermediate shaft 3-14 is in sliding fit with the moving plate 3-1, and the intermediate shaft 3-14 is connected with the wide belt 3-11. The belt motors 3-12 are connected into a circuit, the belt motors 3-12 are started, the belt motors 3-12 rotate to drive the narrow belts 3-13 to move, the narrow belts 3-13 drive the intermediate shafts 3-14 to rotate, the intermediate shafts 3-14 drive the wide belts 3-11 to move, the wide belts 3-11 drive the transmission rods 3-10 to rotate, the transmission rods 3-10 drive the intermediate bevel gears 3-9 to rotate, the intermediate bevel gears 3-9 drive the threaded rods 3-8 to rotate, the threaded rods 3-8 drive the sliding blocks 3-2 to move, the sliding blocks 3-2 drive the connecting rods 3-2 to move, the connecting rods 3-2 drive the moving blocks 3-6, the moving blocks 3-6 compress the springs 3-7, and the moving blocks 3-6 to move.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the embodiment further describes the embodiment, where the air drying mechanism 4 includes a seat plate 4-1, fan blades 4-2, a duct hole 4-3, a ventilation hole 4-4, a fan motor 4-5, a motor bracket 4-6, a connecting belt 4-7, a connecting wheel 4-8, a tension wheel 4-9, a tension frame 4-10, and a tension spring 4-11, the seat plate 4-1 is circular, the seat plate 4-1 is fixed to the lower portion of the base 2, the fan blades 4-2 are provided with four, the fan blades 4-2 are in sliding fit with the seat plate 4-1, the duct holes 4-3 are provided, the pipeline hole 4-3 is communicated with the conduit hole 2-6, four air holes 4-4 are arranged, the fan motor 4-5 is fixed on the motor bracket 4-6, the motor bracket 4-6 is fixed on the lower part of the seat plate 4-1, the motor bracket 4-6 is arc-shaped, the connecting belt 4-7 is connected with the fan motor 4-5, four connecting wheels 4-8 are arranged, the connecting wheel 4-8 is fixed with the fan blade 4-2, the connecting wheel 4-8 is connected with the connecting belt 4-7, the tension wheel 4-9 is connected with the connecting belt 4-7, the tension frame 4-10 is fixed on the lower part of the seat plate 4-1, the tension frame 4-10 is in sliding fit with the tension wheel 4-9, the tension spring 4-11 is sleeved on the tension wheel 4-9, one end of the tension spring 4-11 is in contact with the tension frame 4-10. A fan motor 4-5 is connected into a circuit, the fan motor 4-5 is started, the fan motor 4-5 drives a connecting belt 4-7 to move, the connecting belt 4-7 drives a connecting wheel 4-8 to move, the connecting wheel 4-8 drives a fan blade 4-2 to move, and the ceiling lamp is air-dried.

The sixth specific implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the first embodiment will be further described in the present embodiment, in which the material of the overlapping wall 1-1-1 is plastic.

The seventh embodiment:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, and fig. 17, and the present embodiment further describes the first embodiment in which teeth are formed on the arc-shaped outer ring of the arc-shaped chute 1-3-1.

The specific implementation mode is eight:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, and 17, and the first embodiment will be further described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 13, 14, 15, 16, and 17, in which the material of the chute base 2-1 is an aluminum alloy.

The working principle of the device is as follows: 1, lifting principle: connecting the belt motor 3-12 into a circuit, starting the belt motor 3-12, rotating the belt motor 3-12 to drive the narrow belt 3-13 to move, the narrow belt 3-13 to drive the intermediate shaft 3-14 to rotate, the intermediate shaft 3-14 to drive the wide belt 3-11 to move, the wide belt 3-11 to drive the transmission rod 3-10 to rotate, the transmission rod 3-10 to drive the intermediate helical gear 3-9 to rotate, the intermediate helical gear 3-9 to drive the threaded rod 3-8 to rotate, the threaded rod 3-8 to drive the sliding block 3-2 to move, the sliding block 3-2 to drive the connecting rod 3-2 to move, the connecting rod 3-2 to drive the moving block 3-6, the moving block 3-6 to compress the spring 3-7, and the moving block 3-6 to drive the, the supporting seat 3-4 drives the base 2 to move up and down.

2, packaging principle: the base motors 2-9 are connected into a circuit, the base motors 2-9 are started, the base motors 2-9 rotate to drive the belt wheel I2-11 to move, the belt wheel I2-11 drives the belt 2-12 to rotate, the belt 2-12 drives the belt wheel II 2-13 to move, the belt wheel II 2-13 drives the studs 2-7 to rotate, the studs 2-7 drive the transition teeth 2-10 to rotate, the transition teeth 2-10 drive the rest studs 2-7 to rotate, the studs 2-7 drive the support grooves 2-5 to move, and the support grooves 2-5 drive the stacking walls 1-1-1 to rotate.

3, tensioning principle: the superposed wall 1-1-1 rotates around the supporting groove 2-5, the superposed wall 1-1-1 is connected with the stretching column 1-2-3, and the superposed walls 1-1-1 are mutually superposed and pressed under the action of the stretching spring 1-2-4, so that dust is prevented from running out in the cleaning process.

4, cleaning principle: the small motor 1-3-3 is connected into a circuit, the small motor 1-3-3 is started, the small motor 1-3-3 rotates to drive the sliding column 1-3-4 to rotate, the sliding column 1-3-4 drives the column I1-3-5 to rotate, the column I1-3-5 drives the belt 1-3-7 to rotate, the belt 1-3-7 drives the column II 1-3-6 to rotate, the column II 1-3-6 drives the double-threaded column 1-3-2 to rotate, and the threaded column 1-3-2 rotates to drive the arc chute 1-3-1 to move up and down; the ceiling lamp cleaning method includes the steps that a driving motor 1-3-8-3 is connected into a circuit, the driving motor 1-3-8-3 is started, the driving motor 1-3-8-3 drives a motor gear 1-3-8-6 to rotate, the motor gear 1-3-8-6 and an arc-shaped sliding groove 1-3-1 rotate and move in a circle mode, a nozzle 1-3-8-5 is connected into compressed air or cleaning liquid, and then the ceiling lamp can be cleaned.

5, air drying principle: a fan motor 4-5 is connected into a circuit, the fan motor 4-5 is started, the fan motor 4-5 drives a connecting belt 4-7 to move, the connecting belt 4-7 drives a connecting wheel 4-8 to move, the connecting wheel 4-8 drives a fan blade 4-2 to move, and the ceiling lamp is air-dried.

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 (8)

1. The utility model provides an indoor crystal lamp cleaning device, includes dust wall (1), base (2), crane (3), air-dries mechanism (4), its characterized in that: the dust-proof wall (1) is located on the upper portion of the base (2), the dust-proof wall (1) is in sliding fit with the base (2), the lifting frame (3) is fixed on the lower portion of the base (2), and the air drying mechanism (4) is fixed on the lower portion of the base (2).

2. An indoor crystal lamp cleaning device according to claim 1, characterized in that: the dustproof wall (1) comprises a rotatable wall (1-1), tensioning mechanisms (1-2) and cleaning mechanisms (1-3), the rotatable wall (1-1) is in sliding fit with the base (2), the tensioning mechanisms (1-2) are in sliding fit with the rotatable wall (1-1), the middle of each tensioning mechanism (1-2) is in sliding fit with the base (2), the cleaning mechanisms (1-3) are fixed on the inner side of the rotatable wall (1-1), and the number of the cleaning mechanisms (1-3) is four; the rotatable wall (1-1) comprises a superposed wall (1-1-1), four fixed grooves (1-1-2), four rotating columns (1-1-3), four rotating column seats (1-1-4) and four twisting holes (1-1-5), a long opening is processed on the side surface of the superposed wall (1-1-1), the fixed grooves (1-1-2) are fixed at the upper end and the lower end of the superposed wall (1-1-1), the fixed grooves (1-1-2) are fixed at the inner side of the superposed wall (1-1-1), the rotating columns (1-1-3) are positioned at the lower part of the superposed wall (1-1-1), the rotating columns (1-1-3) are in sliding fit with the base (2), the column seat (1-1-4) is positioned on the outer side of the superposed wall (1-1-1), the column seat (1-1-4) is in sliding fit with the tensioning mechanism (1-2), the torsion hole (1-1-5) is positioned at the bottom of the inner side of the superposed wall (1-1-1), and the torsion hole (1-1-5) is connected with the tensioning mechanism (1-2); the tensioning mechanism (1-2) comprises a central stretching block (1-2-1), a spring sleeve (1-2-2), a stretching column (1-2-3) and stretching springs (1-2-4), wherein the lower part of the central stretching block (1-2-1) is in sliding fit with the base (2), four through holes are processed on the central stretching block (1-2-1), four spring sleeves (1-2-2) are arranged, the spring sleeve (1-2-2) is in sliding fit with the central stretching block (1-2-1), one end of the stretching column (1-2-3) is positioned inside the spring sleeve (1-2-2), one end of the stretching column (1-2-3) is connected with the twisting hole (1-1-5), the stretching springs (1-2-4) are sleeved on the stretching column (1-2-3), one side of the extension spring (1-2-4) is contacted with the spring sleeve (1-2-2), and one side of the extension spring (1-2-4) is contacted with the extension column (1-2-3); the cleaning mechanism (1-3) comprises an arc chute (1-3-1), a double-thread column (1-3-2), a small motor (1-3-3), a sliding column (1-3-4), a column I (1-3-5), a column II (1-3-6), a belt (1-3-7) and a cleaning gun (1-3-8), wherein one end of the arc chute (1-3-1) is provided with two threaded holes, the arc chute (1-3-1) is provided with teeth, the arc chute (1-3-1) is in threaded fit with the double-thread column (1-3-2), the double-thread column (1-3-2) is provided with two threaded columns, and the double-thread column (1-3-2) is fixed on a fixed groove (1-1-2), the small motor (1-3-3) is fixed on the outer side of the stacking wall (1-1-1), the sliding column (1-3-4) is in sliding fit with the rotating column seat (1-1-4), the column I (1-3-5) is fixed on the lower portion of the sliding column (1-3-4), two columns II (1-3-6) are arranged, the column II (1-3-6) is fixed on the lower portion of the double-thread column (1-3-2), the belt (1-3-7) is sleeved on the column I (1-3-5), the belt (1-3-7) is sleeved on the column II (1-3-6), and the cleaning gun (1-3-8) is connected with the arc-shaped sliding chute (1-3-1); the cleaning gun (1-3-8) comprises a support (1-3-8-1), a sliding wheel (1-3-8-2), a driving motor (1-3-8-3), an inner sleeve wheel (1-3-8-4), a nozzle (1-3-8-5) and a motor gear (1-3-8-6), wherein a hole is processed on the support (1-3-8-1), the sliding wheel (1-3-8-2) is in sliding fit with an arc-shaped sliding chute (1-3-1), the driving motor (1-3-8-3) is fixed on the support (1-3-8-1), an inner sleeve wheel (1-3-8-4) is fixed on the upper portion of the support (1-3-8-1), the inner sleeve wheel (1-3-8-4) is in sliding fit with the household sliding chute (1-3-1), a nozzle (1-3-8-5) is fixed on the upper portion of the support (1-3-8-1), a motor gear (1-3-8-6) is fixed on a rotating shaft of a driving motor (1-3-8-3), and the motor gear (1-3-8-6) is meshed with the arc sliding chute (1-3-1).

3. An indoor crystal lamp cleaning device according to claim 1, characterized in that: the base (2) comprises a chute seat (2-1), a plug (2-2), guide wheels (2-3), a fan port (2-4), a support groove (2-5), a guide pipe hole (2-6), a stud (2-7), a helical gear (2-8), a base motor (2-9), transition teeth (2-10), a belt wheel I (2-11), a belt (2-12) and a belt wheel II (2-13), the chute seat (2-1) is square, the upper part of the chute seat (2-1) is provided with a square chute, the plug (2-2) is provided with four plugs (2-2), the plug (2-2) is fixed on the chute seat (2-1), the middle part of the plug (2-2) is provided with a hole, the guide wheels (2-3) are provided with four plugs, the guide wheels (2-3) are fixed on the upper part of the chute seat (2-1), four fan ports (2-4) are arranged, the fan ports (2-4) are positioned in the middle of a sliding groove seat (2-1), holes are formed in the upper parts of supporting grooves (2-5), the upper parts of the supporting grooves (2-5) are in sliding fit with a rotating column (1-1-3) at the lower part of a superposed wall (1-1-1), four guide pipe holes (2-6) are arranged, four studs (2-7) are arranged, one ends of the studs (2-7) are in sliding fit with a plug (2-2), one ends of the studs (2-7) penetrate through the middle part of the sliding groove seat (2-1), the studs (2-7) are in sliding fit with the sliding groove seat (2-1), the middle parts of the studs (2-7) are in threaded fit with the supporting grooves (2-5), four bevel gears (2-8) are arranged, the bevel gears (2-8) are fixed at one ends of the studs (2-7), the lower portion of the helical gear (2-8) is meshed with the transition teeth (2-10), the base motor (2-9) is fixed to the lower portion of the sliding groove seat (2-1), the transition teeth (2-10) are annular, the transition teeth (2-10) are located in the middle of the sliding groove seat (2-1), the transition teeth (2-10) are in sliding fit with the sliding groove seat (2-1), teeth are machined on the upper portion of the transition teeth (2-10), the belt wheel I (2-11) is fixed to a rotating shaft of the base motor (2-9), the belt (2-12) is connected with the belt wheel I (2-11), the belt wheel II (2-13) is fixed to the stud (2-7), and the belt wheel II (2-13) is connected with the belt (2-12).

4. An indoor crystal lamp cleaning device according to claim 1, characterized in that: the lifting rack (3) comprises a moving plate (3-1), sliding blocks (3-2), connecting rods (3-3), supporting seats (3-4), spring seats (3-5), moving blocks (3-6), springs (3-7), threaded rods (3-8), middle bevel gears (3-9), transmission rods (3-10), wide belts (3-11), belt motors (3-12), narrow belts (3-13) and middle shafts (3-14), the upper portion of the moving plate (3-1) is provided with an I-shaped groove, the sliding blocks (3-2) are four, the sliding blocks (3-2) are in sliding fit with the moving plate (3-1), the lower portions of the sliding blocks (3-2) are provided with threads, and the upper portions of the sliding blocks (3-2) are provided with through holes, the lower part of a connecting rod (3-3) is in sliding fit with the upper part of a sliding block (3-2), the upper part of the connecting rod (3-3) is in sliding fit with a moving block (3-6), a supporting seat (3-4) is in a hollow strip shape, the upper part of the supporting seat (3-4) is fixed with a sliding groove seat (2-1), a spring seat (3-5) is fixed in the middle part of the supporting seat (3-4), the moving block (3-6) is positioned in the supporting seat (3-4), the moving block (3-6) is in sliding fit with the supporting seat (3-4), one end of a spring (3-7) is contacted with the moving block (3-6), one end of the spring (3-7) is connected with the spring seat (3-5), a threaded rod (3-8) is in threaded fit with the sliding, the middle helical gear (3-9) is fixed in the middle of the threaded rod (3-8), teeth are machined at two ends of the transmission rod (3-10), two ends of the transmission rod (3-10) are meshed with the middle clamping wheel (3-9), the transmission rod (3-10) is in sliding fit with the movable plate (3-1), the wide belt (3-11) is connected with the transmission rod (3-10), the belt motor (3-12) is fixed on the upper portion of the movable plate (3-1), the narrow belt (3-13) is connected with the belt motor (3-12), the narrow belt (3-13) is connected with the middle shaft (3-14), the middle shaft (3-14) is in sliding fit with the movable plate (3-1), and the middle shaft (3-14) is connected with the wide belt (3-11).

5. An indoor crystal lamp cleaning device according to claim 1, characterized in that: the air drying mechanism (4) comprises a seat plate (4-1), fan blades (4-2), pipeline holes (4-3), ventilation holes (4-4), a fan motor (4-5), a motor support (4-6), connecting belts (4-7), connecting wheels (4-8), tension wheels (4-9), tension frames (4-10) and tension springs (4-11), wherein the seat plate (4-1) is circular, the seat plate (4-1) is fixed at the lower part of the base (2), the number of the fan blades (4-2) is four, the fan blades (4-2) are in sliding fit with the seat plate (4-1), the number of the pipeline holes (4-3) is four, the pipeline holes (4-3) are communicated with the conduit holes (2-6), and the number of the ventilation holes (4-4) is four, the fan motor (4-5) is fixed on the motor support (4-6), the motor support (4-6) is fixed on the lower portion of the seat plate (4-1), the motor support (4-6) is arc-shaped, the connecting belt (4-7) is connected with the fan motor (4-5), four connecting wheels (4-8) are arranged, the connecting wheels (4-8) are fixed with the fan blades (4-2), the connecting wheels (4-8) are connected with the connecting belt (4-7), the tension wheel (4-9) is connected with the connecting belt (4-7), the tension frame (4-10) is fixed on the lower portion of the seat plate (4-1), the tension frame (4-10) is in sliding fit with the tension wheel (4-9), and the tension spring (4-11) is sleeved on the tension wheel (4-9), one end of the tension spring (4-11) is contacted with the tension frame (4-10).

6. An indoor crystal lamp cleaning device according to claim 1, characterized in that: the material of the superposed wall (1-1-1) is plastic.

7. An indoor crystal lamp cleaning device according to claim 1, characterized in that: the arc outer ring of the arc chute (1-3-1) is processed with teeth.

8. An indoor crystal lamp cleaning device according to claim 1, characterized in that: the sliding groove seat (2-1) is made of aluminum alloy.

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