GB2589806A

GB2589806A - A film coating apparatus for an manufacturing automation of marble tiles

Info

Publication number: GB2589806A
Application number: GB2102739.6A
Authority: GB
Inventors: Hu Yangbing
Original assignee: Hangzhou Hanggao Enterprise Man Consulting Co Ltd
Current assignee: Hangzhou Hanggao Enterprise Man Consulting Co Ltd
Priority date: 2020-05-20
Filing date: 2021-02-26
Publication date: 2021-06-09
Anticipated expiration: 2041-02-26
Also published as: CN111572011A; GB2589806B; GB202102739D0; CN111572011B

Abstract

A film coating apparatus for automation of marble tile manufacture, comprising an actuator, a cutting mechanism, and a delivery mechanism, The actuator being slidably engaged with the delivery mechanism, the cutting mechanism arranged immediately before the actuator and mounted on the delivery mechanism. The actuator comprising first and second column units, a coating roller, first and second pulleys, a toothed transmission band, a lifting unit, sliding frame, guiding braced and synchronous toothed plates. The column units mounted on the delivery mechanism, the roll between the columns with spindle noses connecting to the first and second column units through bearing pedestals. The pulleys mounted on the columns via bearings and the columns are connected through the toothed transmission bad. The sliding frames are symmetrically mounted on the delivery mechanism with a sliding fit, guiding brackets evenly arranged on the frames and the toothed plates mounted on the mid upper surface of the frames and connected to the toothed transmission.

Description

A FILM COATING APPARATUS FOR AN MANUFACTURING AUTOMATION OF MARBLE TILES

TECHNICAL FIELD

[0001] The present invention relates to the technical field of marble tilts coating, in particular to a film coating apparatus for an manufacturing automation of marble tiles

BACKGROUND OF THE INVENTION

[0002] Marble tilts are a acid and alkali resistant porcelain which is formed by fireproof metallic oxide and semi-metallic oxide with processes like grinding, mixing, suppressing, glazing and sintering, which is also called building or decorative materials, wherein the raw materials are mostly mixed by clay and silica sand being compressed in a high temperature, which has a relative high hardness.

[0003] Whcn next operation is performed after thc marble tilts adobes are molded, some impurities are stuck to surfaces of the marble tilts adobes when in transportation, moreover, when in the transportation, the stacked marble tilts are easily extruded and rubbed, so that the surfaces of the marble tilts will be broken to affect a quality of the marble tilts; to avoid such a phenomenon, the existing method adopted a manual operation to add plastic films between two of the marble tilts for isolating, and the film is needed to be cut down after being coated on one piece of the marble tilts, which is complex in operating and has a low efficiency, and can not meet a requirement of the modern industrial production.

[0004] Therefore, to ensure the quality of the marble tilts in transportation and improve a film-coating efficiency and quality, this invention discloses a film coating apparatus for an manufacturing automation of marble tiles

BRIEF SUMMARY OF THE INVENTION

[0005] The technical problem to be solved by the invention is to provide a film coating apparatus for an manufacturing automation of marble tiles, comprises an actuator, a cutting mechanism and a delivery mechanism, wherein the actuator is slidably engaged with the delivery mechanism, wherein the cutting mechanism is arranged right before the actuator, and the cutting mechanism is mounted on the delivery mechanism, wherein the actuator comprises a first column unit, a second column unit, a coating roller, a first pulley, a second pulley, a toothed transmission band, a lifting unit, sliding frames, guiding brackets and synchronous toothed plates, wherein the first column unit and the second column unit are respectively mounted on the delivery mechanism, wherein the coating roller is arranged between the first column unit and the second column unit, wherein two spindle noses of the coating roller are respectively connected with the first column unit and the second column unit through bearing pedestals, wherein the first pulley and the second pulley are respectively mounted on the first column unit and the second column unit via first bearings, wherein the first pulley are drive-connected to the second pulley through the toothed transmission band arranged on a first housing washer, and the lifting unit is mounted on the first column unit, and the sliding frames are symmetrically mounted on the delivery mechanism with a sliding fit way, wherein the guiding brackets are evenly arranged on the sliding frames, and the synchronous toothed plates are mounted on upper end surfaces of middle parts of the sliding frames, and the synchronous toothed plates are connected with the toothed transmission band through second bolts [0006] The first column unit comprises a first column, a turn wheel, a first guide shaft level and a first lift slide block, wherein the turn wheel is mounted on an outer wall of the first column through a second bearing, wherein the first guide shaft level is mounted on the first column, wherein the first lift slide block is in sliding fit connection with the first guide shaft level.

[0007] The second column unit comprises a second column, a second wide shaft lever, a second lift slide block, a stepping motor and a screw shaft lever, wherein the second guide shaft lever is mounted on the second column, wherein the second lift slide block is in sliding fit connection with the second guide shaft lever, wherein the stepping motor is mounted on the second column through a first motor base, wherein an output shaft of the stepping motor connected with the screw shaft lever via a first coupler, wherein the screw shaft lever is mounted on the second column unit via a bearing base; whereby the turn wheel is manually pulled to drive the first pulley to rotate, and then the toothed transmission band drives the second pulley to rotate synchronously, and then the synchronous toothed plates connected to the toothed transmission band drive the guiding brackets to adjust a sliding distance synchronously, and then the lifting unit controls a sticking height of the coating roller, thereby the stepping motor drives the screw shaft lever to rotate for transporting the plastic films.

[0008] The cutting mechanism comprises a support frame, a cutting cylinder, a cutter rest, a cutter, a telescopic cylinder, a check plate and rubber columns, wherein the support frame is mounted on the delivery mechanism, wherein the cutting cylinder is mounted on the support frame through a first cylinder base, wherein the cutter rest is mounted on an output shaft of the cutting cylinder via a third bolt, wherein the cutter is arranged on the cutter rest, wherein the telescopic cylinder is mounted on an outer wall of the support frame through a second cylinder base, wherein the check plate is mounted on an output shaft of the telescopic cylinder via a fourth bolt, wherein the rubber columns are symmetrically mounted on the check plate in a spiral way; whereby the telescopic cylinder pushes the check plate to move downward, and then the rubber columns stop the marble tilts, thereby the cutting cylinder drives the cutter to cut the marble tilts.

[0009] The delivery mechanism comprises a bottom plate, riser holders, sliding rollers, a transmission band, a motor, linear sliding rails and a collecting plate, wherein the riser holders are symmetrically mounted on the bottom plate, wherein the sliding rollers are evenly mounted between two of the riser holders via a third bearing, wherein the transmission band is arranged on a second housing washer of one of spindle noses of the sliding rollers, wherein the transmission band is drivingly connected with a plurality of the sliding rollers, and the motor is mounted on an outer wall of one of the riser holders via a second motor base, wherein an output shaft of the motor is connected with one of the spindle noses of the sliding rollers on the riser holders via a second coupler, wherein the linear sliding rails are symmetrically mounted on the bottom plate via a bolt pin, wherein the collecting plate is mounted on the bottom plate; whereby the motor drives the sliding rollers to rotate, and then the transmission band drives the sliding rollers to transport the marble tilts.

[0010] The lifting unit comprises assist-aimed wheels, a steel wire rope and a weights base, wherein the assist-aimed wheels are symmetrically mounted on the first column unit through a bearing plate, wherein the steel wire rope is slidably arranged on the assist-aimed wheels, wherein one of spindle noses of the steel wire rope is connected to the first column unit, wherein the weights base is mounted on another one of the spindle noses of the steel wire rope in a suspended state, and the steel wire rope is pulled by a weight controlling of the weights base to lift, and the assist-aimed wheels assist the the coating roller in lifting.

[0011] As an optimized technical proposal, wherein pulleys are symmetrically arranged on two spindle pedestals of the sliding frames through first bolts to adjust distances between marble tiles with different widths when in a transportation; whereby in transportation, a guiding force for a power-assist sliding is provided and a power source is provided by using the turn wheel manually, moreover, a using cost of a power mechanism is reduced as no resistance in a sliding process.

[0012] As an optimized technical proposal, wherein side pinch rollers are evenly arranged on the guiding brackets for extruding and sticking the plastic films on two sides when in the transportation, so that a damage to surfaces of the marble tiles when in the transportation and an easy falling down of the plastic films due to babbles and gaps are avoided, so that a quality of the marble tilts do not affected.

[00E] As an optimized technical proposal, wherein different weights are evenly arranged on the weights base for conveniently controlling a film coating of the marble tilts with different thicknesses, and then an abutment height and potency dimension between the coating roller and the surfaces of the marble tilts are controlled by a gravity of the weights, thereby a sticking quality and efficiency are improved, and then an economic practicability for sticking the marble tilts with different thicknesses is enhanced.

[0014] In conclusion; the benefits of the invention are as follows: I. in the present invention, the synchronous toothed plates are connected with the toothed transmission band, and then the toothed transmission band moves to drive the sliding frames to slide synchronously, thereby a sticking adjustment to spaces for different marble tilts width is finished to meet a productive requirement of the market, thereby a sticking quality and efficiency for marble tilts are further improved to enhance an economic practicability of the marble tilts with different widths; 2. the lifting unit is slightly adjusted to control a film-coating for marble tilts with different thicknesses, and then the abutment height and potency dimension between the coating roller and the surfaces of the marble tilts are controlled by a gravity of the weights to improve the sticking quality and efficiency, moreover, after the film is used up, the screw shaft lever rotates to insert into a roller for rolling the films, and then two sides of the roller are fixed by nuts, which is convenient for consistent film-coating process to the marble tilts; 3, the cutting mechanism cuts edges of the marble tilts which are coated with films, and then the plastic film is separated from the marble tilts for sticking to next one of the marble tilts, and then the rubber columns block the marble tilts in advance, thereby a film-coating process is finished through the cutter cutting horizontally.

BRIEF DESCRIPTION OF THE DRAWINGS

[0015] Further explanations to this invention will be made below in combination with the drawings and embodiments: [0016] FIG. 1 is a main view showing a schematic perspective diagram of the structure of the present invention; [0017] FIG. 2 is a rear view showing a schematic perspective diagram of the structure of the present invention; [0018] FIG. 3 is a side view showing a partial sectional structure diagram of the structure of the present invention; [0019] FIG. 4 is a partial enlarged diagram of "A" in FIG. 1 of thc present nvention; [0020] FIG. 5 is a partial enlarged diagram of "B" in FIG. 1 of the present invention; [0021] FIG. 6 is a partial enlarged diagram of "C" in FIG. 2 of the present invention; [0022] FIG. 7 is a partial enlarged diagram of "D" in FIG. 3 of the presentinvention; DETAILED DESCRIPTION OF THE INVENTION [0023] Detailed explanations to this invention will be made below in combination with drawings and embodiments, however, the invention can be embodied in a multitude of different ways as defined and covered by the claims.

[0024] Referring to FIG 1-7. a film coating apparatus for an manufacturing automation of marble tiles, comprises an actuator 1, a cutting mechanism 2 and a delivery mechanism 3, wherein the actuator 1 is slidahly engaged with the delivery mechanism 3, wherein the cutting mechanism 2 is arranged right before the actuator I, and the cutting mechanism 2 is mounted on the delivery mechanism 3, wherein the actuator 1 comprises a first column unit 10, a second column unit 11, a coating roller 12, a first pulley 13, a second pulley 14, a toothed transmission band 15, a lifting unit 16, sliding frames 17, guiding brackets18 and synchronous toothed plates 19, wherein the first column unit 10 and the second column unit 11 are respectively mounted on the delivery mechanism 3, wherein the coating roller 12 is arranged between the first column unit 10 and the second column unit 11, wherein two spindle noses of the coating roller 12 are respectively connected with the first column unit 10 and the second column unit 11 through bearing pedestals, wherein the first pulley 13 and the second pulley 14 are respectively mounted on the first column unit 10 and the second column unit 11 via first bearings, wherein the first pulley 13 are drive-connected to the second pulley 14 through the toothed transmission band 15 arranged on a first housing washer: and the lifting unit 16 is mounted on the first column unit 10, and the sliding frames 17 are symmetrically mounted on the delivery mechanism 3 with a sliding fit way, wherein pulleys are symmetrically arranged on two spindle pedestals of the sliding frames 17 through first bolts to adjust distances between marble tiles with different widths when in a transportation; whereby in transportation, a guiding force for a power-assist sliding is provided and a power source is provided by using the turn wheel 102 manually, moreover, a using cost of a power mechanism is reduced as no resistance in a sliding process; the guiding brackets 18 are evenly arranged on the sliding frames 17, wherein side pinch rollers are evenly arranged on the guiding brackets 18 for extruding and sticking the plastic films on two sides when in the transportation, so that a damage to surfaces of the marble tiles when in the transportation and an easy falling down of the plastic films due to babbles and gaps are avoided" so that a quality of the marble tilts do not affected; the synchronous toothed plates 19 are mounted on upper end surfaces of middle parts of the sliding frames 17, and the synchronous toothed plates 19 are connected with the toothed transmission band 15 through second bolts.

[0025] The first column unit 10 comprises a first column 101; a turn wheel 102, a first guide shaft level 103 and a first lift slide block 104, wherein the turn wheel 102 is mounted on an outer wall of the first column 101 through a second bearing, wherein the first guide shaft level 103 is mounted on the first column 101, wherein the first lift slide block 104 is in sliding fit connection with the first guide shaft level 103; [0026] The second column unit 11 comprises a second column 111, a second guide shaft lever 112.: a second lift slide block 113, a stepping motor 114 and a screw shaft lever 115, wherein the second guide shaft lever 112 is mounted on the second column iii, wherein the second lift slide block 113 is in sliding fit connection with the second guide shaft lever 112, wherein the stepping motor 114 is mounted on the second column 111 through a first motor base, wherein an output shaft of the stepping motor 114 is connected with the screw shaft lever 115 via a. first coupler, wherein the screw shaft lever 115 is mounted on the second column unit 11 via a bearing base; whereby the turn wheel 102 is manually pulled to drive the first pulley 13 to rotate, and then the toothed transmission band IS drives the second pulley 14 to rotate synchronously, and then the synchronous toothed plates 19 connected to the toothed transmission band 15 drive the guiding brackets 18 to adjust a sliding distance between two of the guiding brackets 18 synchronously; and then the lifting unit 16 controls a sticking height of the coating roller 12" thereby the stepping motor 114 drives the screw shaft lever 115 to rotate for transporting the plastic films.

[0027] The lifting unit 16 comprises assist-aimed wheels 161, a steel wire rope 162 and a weights base 163, wherein the assist-aimed wheels 161 are symmetrically mounted on the first column unit 10 through a bearing plate, wherein. the steel wire rope 162 is slidably arranged on the assist-aimed wheels 161, wherein one of spindle noses of the steel wire rope 162 is connected to the first column unit 10, wherein the weights base 163 is mounted on another one of the spindle noses of the steel wire rope 162 in a suspended state, wherein different weights are evenly arranged on the weights base 163 for conveniently controlling a film coating of the marble tilts with different thicknesses, and then an abutment height and potency dimension between the coating roller 12 and the surfaces of the marble tilts are controlled by a gravity of the weights, thereby a sticking quality and efficiency are improved, and then an economic practicability for sticking the marble tilts with different thicknesses is enhanced; the steel wire rope 162 is pulled by a weight controlling of the weights base 163 to lift, and the assist-aimed wheels 161 assist the the coating roller 12 in lifting.

[0028] The cutting mechanism 2 comprises a support frame 20, a cutting cylinder 21 a cutter rest 22, a cutter 23, a telescopic cylinder 24, a check plate 25 and rubber columns 26, wherein the support frame 20 is mounted on the delivery mechanism 3, wherein the cutting cylinder 21 is mounted on the support frame 20 through a first cylinder base, wherein the cutter rest 22 is mounted on an output shaft of the cutting cylinder 21 via a third bolt, wherein the cutter 23 is arranged on the cutter rest 22, wherein the telescopic cylinder 24 is mounted on an outer wall of the support frame 20 through a second cylinder base, wherein the check plate 25 is mounted on an output shaft of the telescopic cylinder 24 via a fourth bolt, wherein the rubber columns 26 are symmetrically mounted on the check plate 25 in a spiral way; whereby the telescopic cylinder 24 pushes the check plate 25 to move downward, and then the rubber columns 26 stop the marble tilts, thereby the cutting cylinder 21 drives the cutter 23 to cut the marble tilts.

[0029] The delivery mechanism 3 comprises a bottom plate 30, riser holders 31, sliding rollers 32, a transmission band 33, a motor 34, linear sliding rails 35 and a collecting plate 36, wherein the riser holders 31 are symmetrically mounted on the bottom plate 30, wherein the sliding rollers 32 are evenly mounted between two of the riser holders 31 via a third bearing, wherein the transmission band 33 is arranged on a second housing washer of one of spindle noses of the sliding rollers 32, wherein the transmission band 33 is drivingly connected with a plurality of the sliding rollers 32, and the motor 34 is mounted on an outer wall of one of the riser holders 31 via a second motor base, wherein an output shaft of the motor 34 is connected with one of the spindle noses of the sliding rollers 32 on the riser holders 31 via a second coupler, wherein the linear sliding rails 35 are symmetrically mounted on the bottom plate 30 via a bolt pin, wherein the collecting plate 36 is mounted on the bottom plate 30; whereby the motor 34 drives the sliding rollers 32 to rotate, and then the transmission band 33 drives the sliding rollers 32 to transport the marble tilts.

[0030] A specific working process for coating films on the marble tilts is s follows: [0031] At first, the turn wheel 102 is pulled manually to drive the first pulley 13 to rotate, and then the toothed transmission band 15 drives the second pulley 14 to rotate synchronously, and then the synchronous toothed plates 19 connected on the toothed transmission band 15 drive the guiding brackets 18 to adjust the sliding distance between the guiding brackets 18 synchronously, and then the lifting unit 16 controls the sticking height of the coating roller 12, and then the stepping motor 114 drives the screw shaft lever 115 to rotate to transport the plastic films for performing a film coating operation; and then the motor 34 drives the sliding rollers 32 to rotate, thereby the transmission band 33 drives the sliding rollers 32 to finish a transportation of the marble tilts, and then the telescopic cylinder 24 pushes the check plate 25 to move downward to stop the marble tilts by the rubber columns 26, and then the cutting cylinder 21 drives the cutter 23 to cut the marble tilts; finally, the marble tilts being coated with films are discharged by the collecting plate 36 for a subsequent processing: 100321 What are described above are merely preferred embodiments of the present invention, and are not to limit the present invention, although a detailed description is made to this invention referring to the embodiments before, the person skilled in this an should understand that, some amendments are still made to the technical proposals recorded in the embodiments, or equivalent replacement is able to he made to parts of the technical features, and any modification, equivalent and improvement within the spirit and principles of the present invention shall be covered in the protective scope of the present invention.

Claims

CLAIMSI. A film coating apparatus for an manufacturing automation of marble tiles, comprises an actuator, a cutting mechanism and a delivery mechanism, wherein the actuator is slidably engaged with the delivery mechanism, wherein the cutting mechanism is arranged right before the actuator, and the cutting mechanism is mounted on the delivery mechanism, wherein the actuator comprises a first column unit, a second column unit, a coating roller, a first pulley, a second pulley, a toothed transmission band, a lifting unit, sliding frames, guiding brackets and synchronous toothed plates, wherein the first column unit and the second column unit are respectively mounted on the delivery mechanism, wherein the coating roller is arranged between the first column unit and the second column unit, wherein two spindle noses of the coating roller are respectively connected with the first column unit and the second column unit through bearing pedestals, wherein the first pulley and the second pulley are respectively mounted on the first column unit and the second column unit via first bearings, wherein the first pulley are drive-connected to the second pulley through the toothed transmission band arranged on a first housing washer, and the lifting unit is mounted on the first column unit, and the sliding frames are symmetrically mounted on the delivery mechanism with a sliding fit way, wherein the guiding brackets are evenly arranged on the sliding frames, and the synchronous toothed plates are mounted on upper end surfaces of middle parts of the sliding frames, and the synchronous toothed plates are connected with the toothed transmission band through second bolts, and toothed transmission band moves to drive the sliding frames to slide synchrously, thereby a sticking adjustment to the distance between the marble tilts with different widths can be realized; the first column unit comprises a first column, a turn wheel, a first guide shaft level and a first lift slide block, wherein the turn wheel is mounted on an outer wall of the first column through a second bearing, wherein the first guide shaft level is mounted on the first column, wherein the first lift slide block is in sliding fit connection with the first guide shaft level.the second column unit comprises a second column, a second guide shaft lever, a second lift slide block, a stepping motor and a screw shaft lever, wherein the second guide shaft lever is mounted on the second column, wherein the second lift slide block is in sliding fit connection with the second guide shaft lever, wherein the stepping motor is mounted on the second column through a first motor base, wherein an output shaft of the stepping motor is connected with the screw shaft lever via a first coupler, wherein the screw shaft lever is mounted on the second column unit via a bearing base, and the films are sleeved on the screw shaft lever; the lifting unit comprises assist-aimed wheels, a steel wire rope and a weights base, wherein the assist-aimed wheels are symmetrically mounted on the first column unit through a bearing plate, wherein the steel wire rope is slidably arranged on the assist-aimed wheels, wherein one of spindle noses of the steel wire rope is connected to the first column unit, wherein the weights base is mounted on another one of the spindle noses of the steel wire rope in a suspended state; whereby a height of the coating roller is adjusted by the lifting unit.
2. The film coating apparatus for an manufacturing automation of marble tiles defined in claim 1, wherein the cutting mechanism comprises a support frame, a cutting cylinder, a cutter rest, a cutter, a telescopic cylinder, a check plate and rubber columns, wherein the support frame is mounted on the delivery mechanism, wherein the cutting cylinder is mounted on the support frame through a first cylinder base, wherein the cutter rest is mounted on an output shaft of the cutting cylinder via a third bolt, wherein the cutter is arranged on the cutter rest, wherein the telescopic cylinder is mounted on an outer wall of the support frame through a second cylinder base, wherein the check plate is mounted on an output shaft of the telescopic cylinder via a fourth bolt, wherein the rubber columns are symmetrically mounted on the check plate in a spiral way.
3. The film coating apparatus for an manufacturing automation of marble tiles defined in claim 1, wherein the delivery mechanism comprises a bottom plate, riser holders, sliding rollers, a transmission band, a motor, linear sliding rails and a collecting plate, wherein the riser holders are symmetrically mounted on the bottom plate, wherein the sliding rollers are evenly mounted between two of the riser holders via a third bearing, wherein the transmission band is arranged on a second housing washer of one of spindle noses of the sliding rollers, wherein the transmission band is drivingly connected with a plurality of the sliding rollers, and the motor is mounted on an outer wall of one of the riser holders via a second motor base, wherein an output shaft of the motor is connected with one of the spindle noses of the sliding rollers on the riser holders via a second coupler, wherein the linear sliding rails are symmetrically mounted on the bottom plate via a bolt pin, wherein the collecting plate is mounted on the bottom plate.
4. The film coating apparatus for an manufacturing automation of marble tiles defined in claim 1, wherein pulleys are symmetrically arranged on two spindle pedestals of the sliding frames through first bolts.
5. The film coating apparatus for an manufacturing automation of marble tiles defined in claim 1, wherein side pinch rollers are evenly arranged on the guiding brackets
6. The film coating apparatus for an manufacturing automation of marble tiles defined in claim 1, wherein different weights are evenly arranged on the weights base.