CN111170648B - Nano developer glass coating machine - Google Patents

Abstract

The invention discloses a nano developer glass coating machine which comprises a movable base capable of moving on the ground, wherein a first lifting box is fixedly arranged in the upper end surface of the movable base, a first lifting cavity is arranged in the upper end surface of the first lifting box, a second lifting box is arranged on the inner wall of the first lifting cavity in a vertical sliding manner, a second lifting cavity is arranged on the upper end surface of the second lifting box in a penetrating manner, a third lifting box is arranged on the inner wall of the second lifting cavity in a vertical sliding manner, and a third lifting cavity is arranged in the lower end surface of the third lifting box; the invention is provided with the lifting box capable of adjusting the height through the hydraulic device, so that the nanometer developing spray head can move up and down to spray glass walls with different spraying heights, and the moving wheel which is arranged in the moving base and can control the moving distance and intermittent pause through the controller, so that the nanometer developing spray head can comprehensively spray the whole glass wall.

Description

Nano developer glass coating machine

Technical Field

The invention relates to the technical field of nanometer, in particular to a glass coating machine for a nanometer developer.

Background

With the development of 5G, the display window digitization will become the standard match of future marketing scenes. After the glass wall is sprayed with the nano developer, the glass wall can have the effect of a display screen by hiding the projector, the shop window advertisement has natural advantages and prospects in indoor application, each glass wall can play commodity advertisements which are absorbed by eyeballs from the exhibition shop windows of various malls to the street-adjacent storefronts of streets, so that brand propagation can achieve the best effect, but the existing spraying mode is manual spraying, and the mode is inconvenient for spraying the high glass wall, the spraying effect is not uniform enough, and the imaging effect is influenced.

Disclosure of Invention

The invention aims to provide a nano developer glass coating machine which is used for overcoming the defects in the prior art.

The nano developer glass coating machine comprises a moving base capable of moving on the ground, wherein a first lifting box is fixedly arranged in the upper end face of the moving base, a first lifting cavity is arranged in the upper end face of the first lifting box, a second lifting box is arranged on the inner wall of the first lifting cavity in a vertical sliding mode, a second lifting cavity is arranged on the upper end face of the second lifting box in a penetrating mode, a third lifting box is arranged on the inner wall of the second lifting cavity in a vertical sliding mode, a third lifting cavity is arranged in the lower end face of the third lifting box, hydraulic cavities are symmetrically arranged in the upper end face of the first lifting box in a left-right mode, hydraulic devices capable of driving the second lifting box and the third lifting box to move up and down are arranged in the hydraulic cavities, and the front end face of the first lifting box, the front end face of the second lifting box and the front end face of the third lifting box are respectively connected with the front side wall of the first lifting cavity, Lateral wall, three lift chamber front side wall intercommunications are equipped with the sliding tray before the lift chamber No. two, it is equipped with the developing spray head device that carries out the spraying developer through the up-and-down motion to slide in the sliding tray, it can drive to remove the base bottom remove the removal wheel device of base side-to-side motion, be equipped with a drive chamber in the removal base, it can control the drive to be equipped with in the drive chamber remove the drive arrangement of taking turns moving state.

On the basis of the technical scheme, the hydraulic device comprises a plurality of sections of hydraulic cylinders which are arranged in the bottom wall of the hydraulic cavity and are bilaterally symmetrical in the upper end face of the first lifting box, a first hydraulic pipe which is fixedly arranged on the cylindrical side wall of the hydraulic cavity is arranged at the upper end of the hydraulic cylinder, the top end of a second hydraulic pipe in the first hydraulic pipe is fixedly arranged in the upper end face and the lower end face of the second lifting box, and the top end of a third hydraulic pipe in the second hydraulic pipe is fixedly arranged on the lower end face of the third lifting box.

On the basis of the technical scheme, the developing nozzle device comprises a nozzle body capable of moving up and down in the sliding groove, a second driving cavity is arranged in the nozzle body close to the rear side, a first motor is fixedly arranged in the rear side wall of the second driving cavity, a first bevel gear is arranged on the front side of the first motor, the right side of the first bevel gear is meshed with a second bevel gear, the second bevel gear is fixedly arranged on a shaft body of a first rotating shaft, the first rotating shaft is rotatably arranged between the left wall and the right wall of the second driving cavity through a first bearing, rotating grooves are symmetrically arranged in the left end surface and the right end surface of the nozzle body, a second rotating shaft is rotatably arranged between the front wall and the rear wall of the rotating grooves through a second bearing, a cylindrical meshed gear is fixedly arranged on the second rotating shaft, and a third bevel gear is fixedly arranged at one end of the second rotating shaft extending into the second driving cavity, no. three bevel gears are close to one side meshing No. four bevel gears of a motor, No. four bevel gears fixed mounting are in the both ends about a axis of rotation.

On the basis of the technical scheme, the developing nozzle device further comprises the sliding groove left and right walls, the sliding groove left and right walls are symmetrically provided with the mesh teeth strips meshed with the cylindrical mesh teeth wheels, a developing agent cavity is arranged in the nozzle body close to the front side position, and the front side wall of the developing agent cavity is communicated with the front side end face of the nozzle body to form a nano developing nozzle.

On the basis of the technical scheme, the movable wheel device comprises a rotating frame which is symmetrically arranged on the left and right sides of the bottom end face of the movable base, a rotating cavity is formed in the rotating frame, a third rotating shaft is rotatably installed between the front wall and the rear wall of the rotating cavity through a third bearing, the third rotating shaft is located movable wheels are symmetrically and fixedly installed on the front end face and the rear end face of the rotating frame, a fifth bevel gear is fixedly installed on a shaft body in the rotating cavity, a sixth bevel gear is meshed with the upper portion of the fifth bevel gear and fixedly installed at the bottom end of a fourth rotating shaft, and the fourth rotating shaft is rotatably installed in the top wall of the rotating cavity through a fourth bearing.

On the basis of the technical scheme, the driving device comprises a second motor fixedly arranged on the bottom wall of the first driving cavity, a seventh bevel gear is arranged on the upper side of the second motor, the left side and the right side of the seventh bevel gear are respectively engaged with an eight bevel gear which is symmetrical left and right, the eight-number bevel gear is fixedly arranged on a fifth rotating shaft arranged on the left side and the right side of the second motor, the fifth rotating shaft is rotatably arranged between the left wall and the right wall of the first driving cavity through a fifth bearing, one end of the fifth rotating shaft, which is far away from the second motor, is fixedly provided with a ninth bevel gear, the lower side of the ninth bevel gear is meshed with a tenth bevel gear, the ten-type bevel gear is fixedly arranged at the top end of the fourth rotating shaft in the first driving cavity, the left side electric connection of No. two motors has can control move the controller of wheel speed and state.

The invention has the beneficial effects that: the height of the lifting box can be adjusted through the hydraulic device, so that the nanometer developing spray head can move up and down to spray glass walls with different spraying heights, and the moving wheel which is arranged in the moving base and can control the moving distance and intermittent pause through the controller enables the nanometer developing spray head to spray the whole glass wall comprehensively, and the nanometer developing spray head performs movable spraying in a gear meshing mode, so that the working efficiency is high, and the spraying effect is uniform degree which cannot be achieved by manual spraying.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of a nano developer glass coating machine of the present invention;

FIG. 2 is an enlarged schematic view in the direction of 'A-A' of FIG. 1;

FIG. 3 is an enlarged view in the direction of 'B-B' in FIG. 1;

fig. 4 is an enlarged schematic structural view of the developing head device in fig. 2.

Detailed Description

The invention will now be described in detail with reference to fig. 1-4, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

Referring to fig. 1 to 4, the lifting device comprises a moving base 31 capable of moving on the ground, a first lifting box 2 is fixedly arranged in the upper end face of the moving base 31, a first lifting cavity 1 is arranged in the upper end face of the first lifting box 2, a second lifting box 4 is arranged on the inner wall of the first lifting cavity 1 in a vertical sliding manner, a second lifting cavity 6 is arranged on the upper end face of the second lifting box 4 in a penetrating manner, a third lifting box 5 is arranged on the inner wall of the second lifting cavity 6 in a vertical sliding manner, a third lifting cavity 3 is arranged in the lower end face of the third lifting box 5, hydraulic cavities 9 are symmetrically arranged in the upper end face of the first lifting box 2 in a left-right manner, hydraulic devices 001 capable of driving the second lifting box 4 and the third lifting box 5 to move vertically are arranged in the hydraulic cavities 9, and the front end face of the first lifting box 2 and the front end face of the second lifting box 4 are arranged in a vertical manner, The front side end face of No. three lift casees 5 respectively with preceding lateral wall, No. 6 preceding lateral walls in lift chamber, No. 3 preceding lateral walls in lift chamber of a lift chamber are equipped with sliding tray 27, slide in sliding tray 27 and be equipped with the developing spray device 002 that carries out the spraying developer through the up-and-down motion, 31 bottoms of removal base are equipped with and can drive the removal wheel device 004 of 31 side-to-side motion of removal base, be equipped with drive chamber 30 in the removal base 31, be equipped with in the drive chamber 30 and control the drive remove the drive arrangement 003 of taking turns the moving state.

In addition, in one embodiment, the hydraulic device 001 includes a plurality of sections of hydraulic cylinders 11 arranged in the bottom wall of the hydraulic cavity 9 in bilateral symmetry in the upper end surface of the first lifting box 2, the upper end of the hydraulic cylinder 11 is provided with a first hydraulic pipe 10 fixedly installed on the cylindrical side wall of the hydraulic cavity 9, the top end of a second hydraulic pipe 8 in the first hydraulic pipe 10 is fixedly installed in the upper end surface and the lower end surface of the second lifting box 4, and the top end of a third hydraulic pipe 7 in the second hydraulic pipe 8 is fixedly installed on the lower end surface of the third lifting box 5; therefore, the second lifting box 4 can be driven to ascend or descend by starting the multi-section hydraulic pipe 11 and driving the second hydraulic pipe 8, and then the third lifting box 5 can be driven to ascend or descend by driving the third hydraulic pipe 7.

In addition, in one embodiment, the developing nozzle device 002 includes a nozzle body 12 capable of moving up and down in the sliding groove 27, a second driving chamber 13 is provided in the nozzle body 12 near the rear side, a first motor 14 is fixedly provided in the rear side wall of the second driving chamber 13, a first bevel gear 15 is provided in front of the first motor 14, the right side of the first bevel gear 15 engages with a second bevel gear 16, the second bevel gear 16 is fixedly provided on the shaft body of a first rotating shaft 19, the first rotating shaft 19 is rotatably provided between the left and right walls of the second driving chamber 13 through a first bearing 17, rotating grooves 21 are symmetrically provided in the left and right end surfaces of the nozzle body 12, a second rotating shaft 23 is rotatably provided between the front and rear walls of the rotating grooves 21 through a second bearing 26, a cylindrical meshing gear 22 is fixedly provided on the second rotating shaft 23, a third bevel gear 20 is fixedly mounted at one end of the second rotating shaft extending into the second driving cavity 13, one side of the third bevel gear 20 close to the first motor 14 is meshed with a fourth bevel gear 18, and the fourth bevel gear 18 is fixedly mounted at the left end and the right end of the first rotating shaft 19; therefore, the first bevel gear 15 can be started to rotate by starting the first motor 14, the second bevel gear 16 meshed with the first bevel gear 15 drives the fourth bevel gears 18 at the left and right ends of the first rotating shaft 19 to rotate, and the fourth bevel gears 18 drive the cylindrical meshed gears 22 which are symmetrical left and right to rotate in opposite directions through the meshed third bevel gears 20.

In addition, in one embodiment, the developing nozzle device 002 further includes a plurality of engaging teeth 28 symmetrically disposed on the left and right walls of the sliding groove 27 and capable of engaging with the cylindrical gear 22, a developing agent chamber 25 is disposed inside the nozzle body 12 at a front position, and a nano developing nozzle 24 is disposed on the front side wall of the developing agent chamber 25 and in communication with the front end surface of the nozzle body 12; therefore, the nozzle body 12 can be driven to move up and down in the sliding groove 27 at a constant speed by the meshing of the cylindrical gear 22 and the rodent 28, so that the nano developing nozzle 24 can uniformly spray the developer on the glass wall up and down.

In addition, in one embodiment, the moving wheel device 004 includes a rotating frame 41 symmetrically arranged at the left and right of the bottom end surface of the moving base 31, a rotating cavity 45 is arranged in the rotating frame 41, a third rotating shaft 42 is rotatably installed between the front wall and the rear wall of the rotating cavity 45 through a third bearing 46, moving wheels 32 are symmetrically and fixedly installed at the front and the rear of the third rotating shaft 42 on the front end surface and the rear end surface of the rotating frame 41, a fifth bevel gear 43 is fixedly installed on a shaft body of the third rotating shaft 42 in the rotating cavity 45, a sixth bevel gear 44 is engaged above the fifth bevel gear 43, the sixth bevel gear 44 is fixedly installed on the bottom end of a fourth rotating shaft 48, and the fourth rotating shaft 48 is rotatably installed in the top wall of the rotating cavity 45 through a fourth bearing 40; therefore, the sixth bevel gear 44 can be driven to rotate by the fourth rotating shaft 48, and the third rotating shaft 42 can be driven to rotate by the fifth bevel gear 43 engaged with the sixth bevel gear 44, so that the moving wheels 32 fixedly installed at the front and rear ends of the third rotating shaft 42 can move on the ground.

In addition, in one embodiment, the driving device 003 includes a second motor 34 fixed on the bottom wall of the first driving chamber 30, a seventh bevel gear 35 is arranged on the upper side of the second motor 34, the left side and the right side of the seventh bevel gear 35 are respectively meshed with an eighth bevel gear 33 which is symmetrical left and right, the eighth bevel gear 33 is fixedly arranged on a fifth rotating shaft 37 arranged on the left and right sides of the second motor 34, the number five rotating shaft is rotatably installed between the left wall and the right wall of the number one driving cavity 30 through a number five bearing 47, a ninth bevel gear 39 is fixedly arranged at one end of the fifth rotating shaft 37 far away from the second motor 34, the lower side of the ninth bevel gear 39 is engaged with a tenth bevel gear 38, the tenth bevel gear 38 is fixedly arranged on the top end of the fourth rotating shaft 48 positioned in the first driving cavity 30, the left side of the second motor 34 is electrically connected with a controller 36 capable of controlling the speed and the state of the moving wheel; therefore, the second motor can be started to drive the seventh bevel gear 35 to rotate, the eighth bevel gear 33 which is symmetrically arranged at the left and right and meshed with the seventh bevel gear 35 drives the ninth bevel gear 39 to rotate through the fifth rotating shaft 37, the tenth bevel gear 38 meshed with the ninth bevel gear 39 drives the fourth rotating shaft 48 to rotate, so that the moving wheel 32 can be driven to rotate, and the controller 36 electrically connected with the second motor 34 can control the speed and intermittent pause of the moving wheel.

When the spraying range of the nanometer developing nozzle 24 needs to be adjusted to the height of the glass wall needing spraying, the second lifting box 4 and the third lifting box 5 are lifted by starting the multi-section hydraulic cylinder 11, the sliding groove 27 is pulled high, and the up-and-down moving range of the nanometer developing nozzle 24 is increased accordingly.

When the glass wall needs to be sprayed with the nano developer up and down, the first motor 14 is started to drive the cylindrical gear 22 to rotate, the cylindrical gear 22 meshed with the rodent strips 28 on the left wall and the right wall of the sliding groove 27 drives the nano developing nozzle 24 to move up and down, and the nano developing nozzle 24 can uniformly spray the developer up and down on the glass wall;

then, the second motor 34 is started to drive the moving wheel to move forwards, and the controller connected with the second motor 34 through wires can set a pause interval to enable the nanometer developing nozzle 24 to spray glass walls in a left-right reciprocating mode.

The invention has the beneficial effects that: the height of the lifting box can be adjusted through the hydraulic device, so that the nanometer developing spray head can move up and down to spray glass walls with different spraying heights, and the moving wheel which is arranged in the moving base and can control the moving distance and intermittent pause through the controller enables the nanometer developing spray head to spray the whole glass wall comprehensively, and the nanometer developing spray head performs movable spraying in a gear meshing mode, so that the working efficiency is high, and the spraying effect is uniform degree which cannot be achieved by manual spraying.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (6)

1. A nanometer developer glass coating machine, includes the removal base that can move on ground, its characterized in that: the upper end face of the first lifting box, the front side end face of the second lifting box and the front side end face of the third lifting box are respectively communicated with the front side wall of the first lifting cavity, the front side end face of the second lifting cavity and the front side wall of the third lifting cavity to form a sliding groove, the developing sprayer device for spraying the developer through up-and-down motion is arranged in the sliding groove in a sliding mode, the bottom of the moving base is provided with a moving wheel device capable of driving the moving base to move left and right, a driving cavity is arranged in the moving base, and a driving device capable of controlling the driving to move the moving wheel to move is arranged in the driving cavity.

2. The nano-developer glass coating machine according to claim 1, characterized in that: the hydraulic device comprises a plurality of sections of hydraulic cylinders which are arranged in the bottom wall of the hydraulic cavity and are bilaterally symmetrical in the upper end face of the first lifting box, the upper end of each hydraulic cylinder is provided with a hydraulic pipe which is fixedly arranged on the cylindrical side wall of the hydraulic cavity, the top end of a second hydraulic pipe in the first hydraulic pipe is fixedly arranged in the upper end face and the lower end face of the second lifting box, and the top end of a third hydraulic pipe in the second hydraulic pipe is fixedly arranged on the lower side end face of the third lifting box.

3. The nano-developer glass coating machine according to claim 2, characterized in that: the developing nozzle device comprises a nozzle body which can move up and down in the sliding groove, a second driving cavity is arranged in the nozzle body close to the rear side, a first motor is fixedly arranged in the rear side wall of the second driving cavity, a first bevel gear is arranged on the front side of the first motor, the right side of the first bevel gear is meshed with a second bevel gear, the second bevel gear is fixedly arranged on a shaft body of a first rotating shaft, the first rotating shaft is rotatably arranged between the left wall and the right wall of the second driving cavity through a first bearing, rotating grooves are symmetrically arranged in the left end surface and the right end surface of the nozzle body, a second rotating shaft is rotatably arranged between the front wall and the rear wall of the rotating grooves through a second bearing, a cylindrical meshing gear is fixedly arranged on the second rotating shaft, and a third bevel gear is fixedly arranged at one end of the second rotating shaft extending into the second driving cavity, no. three bevel gears are close to one side meshing No. four bevel gears of a motor, No. four bevel gears fixed mounting are in the both ends about a axis of rotation.

4. A nano developer glass coating machine as claimed in claim 3, characterized in that: developing spray head device still include on the wall about the sliding tray symmetry be equipped with can with the rodent strip of cylinder rodent wheel meshing, be equipped with the developer chamber by the front side position in the shower nozzle organism, developer chamber front side wall with the preceding side end face intercommunication of shower nozzle organism is equipped with nanometer developing spray head.

5. The nano-developer glass coating machine according to claim 4, wherein: the movable wheel device comprises a rotating frame which is arranged in a bilateral symmetry mode on the bottom end face of the movable base, a rotating cavity is arranged in the rotating frame, a third rotating shaft is rotatably installed between the front wall and the rear wall of the rotating cavity through a third bearing, the third rotating shaft is located at the front end face and the rear end face of the rotating frame, movable wheels are symmetrically and fixedly installed on the front portion and the rear portion of the end face of the rotating frame, the third rotating shaft is located on a shaft body in the rotating cavity and fixedly installed with a fifth bevel gear, the fifth bevel gear is meshed with a sixth bevel gear above the fifth bevel gear, the sixth bevel gear is fixedly installed at the bottom end of a fourth rotating shaft, and the fourth rotating shaft is installed.

6. The nano-developer glass coating machine according to claim 5, wherein: the driving device comprises a second motor fixedly arranged on the bottom wall of the first driving cavity, wherein a seventh bevel gear is installed on the upper side of the second motor, the left side and the right side of the seventh bevel gear are respectively meshed with an eighth bevel gear in bilateral symmetry, the eighth bevel gear is fixedly installed on a fifth rotating shaft arranged on the left side and the right side of the second motor, the fifth rotating shaft is rotatably installed between the left wall and the right wall of the first driving cavity through a fifth bearing, a ninth bevel gear is fixedly installed at one end, far away from the second motor, of the fifth rotating shaft, the lower side of the ninth bevel gear is meshed with a tenth bevel gear, the tenth bevel gear is fixedly installed on the top end, located in the first driving cavity, of the fourth rotating shaft, and the left side of the second motor is electrically connected with a controller capable of controlling the speed and the state of the moving wheel.

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