CN111890796A - Ceramic tile silk screen printing machine mesh washs adsorption equipment - Google Patents

Abstract

The invention provides a ceramic tile silk screen printing machine mesh cleaning and adsorbing device, which comprises: the screen printing device comprises a cleaning and adsorbing device for cleaning and vacuum adsorption cleaning of the screen printing screen, a transmission device for moving the cleaning and adsorbing device along the length method or the width direction of the screen printing screen, a rotating and lifting device for realizing rotating and lifting, and a lifting device for realizing lifting; the rotary lifting device is arranged on the lifting device to realize lifting of the rotary lifting device; the transmission device is arranged on the rotating and lifting device to realize the rotating and lifting of the transmission device; the cleaning and adsorbing device is slidably arranged on the rotating and lifting device and is connected with the transmission device, so that the cleaning and adsorbing device can move on the rotating and lifting device along the length method or the width direction of the screen printing net. The equipment can realize the cleanness of the screen holes of the screen printing net of the ceramic tile screen printing machine, reduce the labor intensity of manpower, improve the production efficiency, have good cleaning effect and effectively ensure the pattern effect of the ceramic tile screen printing.

Description

Ceramic tile silk screen printing machine mesh washs adsorption equipment

Technical Field

The invention relates to the technical field of screen printing screen cleaning, in particular to a cleaning and adsorbing device for meshes of a ceramic tile screen printing machine.

Background

The silk screen printing is that silk fabric, synthetic fiber fabric or metal screen is stretched on a screen frame, and a screen printing plate is manufactured by adopting a manual paint film engraving or photochemical plate making method. The modern screen printing technology is to use photosensitive material to make screen printing plate by means of photoengraving (the screen holes of the image-text part on the screen printing plate are through holes, but the screen holes of the non-image-text part are blocked) oil painting, block print, poster, name card, binding cover, commodity package, commodity label, printing and dyeing textile, glass, metal and other plane carriers.

In the operation process of the conventional ceramic tile screen printing machine, after the conventional ceramic tile screen printing machine is filled with printing ink for one time, the printing ink is soaked on the surface of a ceramic tile blank through meshes to form patterns, and the meshes of the screen printing machine are blocked after multiple screen printing. The analysis reason is as follows: 1. impurities exist in the ink, tension exists among the impurities, and the impurities can be accumulated at the mesh, so that the ink is not easy to permeate. 2. The working environment is bad, dust and the like exist on the surface of the ceramic tile and can be attached to the surface of the printing ink, so that meshes are blocked. 3. When the ink is exposed to normal temperature for a long time, the ink is air-dried, so that meshes are blocked. The blockage of the screen printing meshes can cause that ink can not be completely impregnated on the surface of the ceramic tile, the situations of unclear marks and the like are generated, and the product quality is influenced after the ceramic tile is sintered.

The existing solution is that after the surface pattern of the ceramic tile blank is found to be white manually, the machine is stopped rapidly, a manual method is adopted, the screen printing mesh is cleaned back and forth by a clean mop to remove particles attached to the mesh, and the production is continued after the residual ink is removed; the defects of high labor intensity, low safety coefficient and the like exist, the robot needs to be replaced urgently, the safety is improved, the labor intensity is reduced, and the method is not suitable for large-scale production. The cleaning time of the meshes of the ceramic tile screen printing machine is judged only according to the experience of workers, the inaccuracy is mastered on the cleaning time, the meshes are easy to be seriously blocked, and the ceramic tile screen printing patterns are not clear. When the ceramic tile screen printing machine is cleaned manually, a cleaning tool is used for wiping back and forth, residues are easily left at the corners around the meshes of the ceramic tile screen printing machine, and the ceramic tile screen printing machine is not bottom-cut during cleaning. When cleaning, the printing ink is easy to drop below the meshes of the screen printer, and the working table surface is polluted.

Disclosure of Invention

In order to overcome the defects and shortcomings in the prior art, the invention aims to provide the cleaning and adsorbing device for the meshes of the ceramic tile screen printing machine, which can clean the meshes of the ceramic tile screen printing machine, reduce the labor intensity of manpower, improve the production efficiency, have a good cleaning effect and ensure the pattern printing effect of ceramic tiles.

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides a ceramic tile silk screen printing machine mesh washs adsorption equipment which characterized in that: the method comprises the following steps:

the cleaning and adsorbing device is used for cleaning and brushing the screen printing screen and performing vacuum adsorption cleaning;

the transmission device is used for moving the cleaning adsorption device along the length method or the width direction of the silk screen;

the rotary lifting device is used for realizing rotary lifting;

and a lifting device for realizing lifting;

the rotary lifting device is arranged on the lifting device to realize lifting of the rotary lifting device; the transmission device is arranged on the rotating and lifting device to realize the rotating and lifting of the transmission device; the cleaning and adsorbing device is slidably arranged on the rotating and lifting device and is connected with the transmission device, so that the cleaning and adsorbing device can move on the rotating and lifting device along the length method or the width direction of the screen printing net.

The working principle of the device is as follows: after the ceramic tile screen printing is carried out by the ceramic tile screen printing machine for a set number of times, stopping the ceramic tile screen printing machine and lifting and inclining a screen printing net; the lifting device of the equipment lifts the rotary lifting device, the transmission device and the cleaning and adsorbing device above the lifting device; rotating and lifting the transmission device and the cleaning and adsorbing device above the lifting device by the rotating and lifting device to enable the transmission device and the cleaning and adsorbing device to be inclined, wherein the cleaning and adsorbing device is parallel to the screen printing net; the transmission device moves the cleaning adsorption device to the position below the screen printing net; the cleaning and adsorbing device cleans the silk screen by brushing and vacuum adsorption. The equipment can realize the cleaning of the meshes of the screen printing net of the tile screen printing machine, reduce the labor intensity of manpower and improve the production efficiency; by adopting the double cleaning scheme of vacuum adsorption cleaning and scrubbing, the corner positions of the silk screen can be prevented from being remained and unclean, the cleaning effect is good, and the effect of silk screen printing patterns of the ceramic tiles is effectively ensured.

Preferably, the cleaning adsorption device comprises a cleaning installation seat, a cleaning moving driving assembly and a cleaning adsorption tank; the cleaning mounting seat is connected with the rotating lifting device in a sliding manner and is connected with the transmission device; the cleaning adsorption tank is connected with the cleaning installation seat through a cleaning movement driving assembly so as to realize that the cleaning adsorption tank moves along the length method or the width direction of the screen printing net; the cleaning adsorption tank is provided with a brush head and a vacuum adsorption cavity; the vacuum adsorption cavity is connected with an external vacuumizing device.

The cleaning and moving driving assembly moves the cleaning and adsorbing groove to enable the cleaning and adsorbing groove to be attached to the lower side face of the silk screen net to move, at the moment, the brush head cleans the meshes of the silk screen net, and meanwhile, the external vacuumizing device is started to suck and discharge cleaned impurities through the vacuum adsorbing cavity; this clean adsorption equipment effectively cleans the silk screen to avoid the impurity of brushing out to spill around, keep the station clean.

Preferably, the cleaning movement drive assembly comprises a cleaning drive cylinder; the cylinder barrel of the cleaning driving cylinder is arranged on the cleaning mounting seat, and the telescopic rod of the cleaning driving cylinder is connected with the cleaning adsorption tank through the first cleaning mounting frame; a first cleaning guide rod and a first cleaning guide sliding block are arranged between the first cleaning mounting frame and the cleaning mounting seat to achieve moving guide.

Preferably, a second cleaning installation frame is arranged on the rotating and lifting device; the cleaning installation seat is arranged on the cleaning installation frame II in a sliding mode through the cleaning guide rod II and the cleaning guide sliding block II. The cleaning and adsorbing device is supported on the rotating and lifting device and is driven by the transmission device, so that the cleaning and adsorbing device can be effectively and stably fixed.

Preferably, an installation space is reserved between the cleaning installation seat and the rotary lifting device; the transmission is located in the installation space.

Preferably, the transmission means is a timing belt transmission means.

Preferably, the synchronous belt transmission device comprises a synchronous wheel support frame fixed on the rotating and lifting device, two groups of synchronous belt components, a synchronous wheel motor and a mounting plate connected with the cleaning and adsorbing device; the synchronizing wheels of the two groups of synchronizing wheel belt components are respectively and rotatably arranged on the synchronizing wheel supporting frames; the synchronous wheel motor is positioned between the two groups of synchronous wheel belt components and is respectively connected with the two groups of synchronous wheel belt components through a transmission belt; the synchronous belt of the synchronous belt component is connected with the mounting plate. Two sets of synchronous pulley belt subassemblies drive clean adsorption equipment jointly and remove, more balanced to clean adsorption equipment's drive.

Preferably, the rotary lifting device comprises a lifting mounting seat and a lifting support plate; one end of the lifting support plate is hinged to the lifting mounting seat; a first rotary supporting shaft is arranged in the middle of one surface, close to the lifting mounting seat, of the lifting supporting plate; a second rotary supporting shaft which can slide is arranged on the lifting mounting seat; the first rotating support shaft is connected with the second rotating support shaft through a support bar; the second rotating support shaft is connected with a lifting and moving driving assembly, so that the second rotating support shaft can move to adjust the included angle between the support bar and the lifting support plate to realize the rotation and lifting of the lifting support plate.

Preferably, the lifting and moving driving assembly comprises a moving screw rod transmission mechanism arranged on the lifting mounting seat, and the second rotary supporting shaft is connected with the moving screw rod transmission mechanism; the movable lead screw transmission mechanism is connected with the lifting mounting seat in a sliding mode through the movable guide rail and the movable sliding block.

Preferably, the lifting device comprises a fixed seat, a plurality of guide posts which are longitudinally arranged and telescopically arranged on the fixed seat, a lifting screw rod transmission mechanism, a guide post supporting plate and a lifting motor connected with the lifting screw rod transmission mechanism; the guide post supporting plates are supported above the guide posts and are connected with the lifting screw rod transmission mechanism; the rotating and lifting device is arranged on the guide pillar supporting plate.

Compared with the prior art, the invention has the following advantages and beneficial effects:

1. the equipment can realize the cleaning of the meshes of the screen printing net of the tile screen printing machine, reduce the labor intensity of manpower and improve the production efficiency; by adopting a double cleaning scheme of vacuum adsorption cleaning and brushing, the corner positions of the silk-screen mesh can be prevented from being remained and unclean, a good cleaning effect is achieved, and the effect of silk-screen patterns of the ceramic tile is effectively ensured;

2. the equipment effectively cleans the silk screen, prevents the brushed impurities from spilling around, and keeps the station clean;

3. the device in the equipment has high moving precision, and can realize fine cleaning of the silk screen and further improve the cleaning effect.

Drawings

FIG. 1 is a schematic structural view of a cleaning and adsorbing device for meshes of a tile screen printing machine according to the present invention;

FIG. 2 is a schematic structural view of a lifting device in the cleaning and adsorbing device for the meshes of the tile screen printing machine of the invention;

FIG. 3 is a schematic structural view of a rotary lifting device in the cleaning and adsorbing device for the meshes of the tile screen printing machine according to the present invention;

FIG. 4 is a schematic structural view of a transmission device in the cleaning and adsorbing device for the meshes of the tile screen printing machine of the invention;

FIG. 5 is one of the schematic structural diagrams of a cleaning and adsorbing device in the cleaning and adsorbing device for the meshes of the tile screen printing machine according to the present invention;

FIG. 6 is a second schematic structural view of a cleaning and adsorbing device in the cleaning and adsorbing device for the meshes of the tile screen printing machine according to the present invention;

wherein, 1 is a cleaning adsorption device, 11 is a cleaning installation seat, 12 is a cleaning adsorption groove, 13 is a cleaning installation frame I, 14 is a cleaning driving cylinder, 15 is a cleaning guide slide block I, 16 is a cleaning guide rod I, 17 is a cleaning guide rod II, 18 is a cleaning guide slide block II, 19 is a cleaning installation frame II, 2 is a transmission device, 21 is a synchronizing wheel support frame, 22 is a synchronizing wheel belt component, 23 is a synchronizing wheel motor, 24 is a transmission belt, 25 is an installation plate, 3 is a rotary lifting device, 31 is a lifting mounting seat, 32 is a lifting support plate, 33 is a rotary support shaft I, 34 is a rotary support shaft II, 35 is a support bar, 36 is a movable screw rod transmission mechanism, 37 is a movable guide rail, 38 is a movable sliding block, 4 is a lifting device, 41 is a fixed seat, 42 is a guide pillar support plate, 43 is a lifting screw rod transmission mechanism, 44 is a lifting motor, and 45 is a guide pillar.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Examples

As shown in fig. 1 to 6, this embodiment of a tile screen printing machine mesh washs adsorption equipment includes:

a cleaning and adsorbing device 1 for cleaning and vacuum adsorbing and cleaning the silk screen;

the transmission device 2 is used for moving the cleaning adsorption device 1 along the length method or the width direction of the silk screen;

a rotary lifting device 3 for realizing rotary lifting;

and a lifting device 4 for realizing lifting;

the rotary lifting device 3 is arranged on the lifting device 4 to realize the lifting of the rotary lifting device 3; the transmission device 2 is arranged on the rotary lifting device 3 to realize the rotary lifting of the transmission device 2; the cleaning and adsorbing device 1 is slidably arranged on the rotating and lifting device 3 and is connected with the transmission device 2, so that the cleaning and adsorbing device 1 can move on the rotating and lifting device 3 along the length method or the width direction of the silk screen.

The equipment can be arranged below a ceramic tile screen printing machine, and the working principle is as follows: after the ceramic tile screen printing is carried out by the ceramic tile screen printing machine for a set number of times, stopping the ceramic tile screen printing machine and lifting and inclining a screen printing net; the lifting device 4 of the equipment lifts the rotary lifting device 3, the transmission device 2 and the cleaning and adsorbing device 1 above the lifting device; the transmission device 2 and the cleaning and adsorbing device 1 above the rotary lifting device 3 are rotated and lifted by the rotary lifting device 3, so that the transmission device 2 and the cleaning and adsorbing device 1 are inclined, and the cleaning and adsorbing device 1 is parallel to the silk screen; the transmission device 2 moves the cleaning and adsorbing device 1 to the position below the silk screen; the cleaning and adsorbing device 1 cleans and adsorbs and cleans the screen in vacuum. The equipment can realize the cleaning of the meshes of the screen printing net of the tile screen printing machine, reduce the labor intensity of manpower and improve the production efficiency; by adopting the double cleaning scheme of vacuum adsorption cleaning and scrubbing, the corner positions of the silk screen can be prevented from being remained and unclean, the cleaning effect is good, and the effect of silk screen printing patterns of the ceramic tiles is effectively ensured.

The lifting device 4 comprises a fixed seat 41, a plurality of guide posts 45 which are longitudinally arranged and telescopically arranged on the fixed seat 41, a lifting screw rod transmission mechanism 43, a guide post supporting plate 42 and a lifting motor 44 connected with the lifting screw rod transmission mechanism 43; the guide post supporting plates 42 are supported above the guide posts 45 and are connected with the lifting screw rod transmission mechanism 43; the lifting device 4 can realize the lifting of the guide post supporting plate 42.

The rotary lifting device 3 is provided on the column support plate 42. The rotary lifting device 3 comprises a lifting mounting seat 31 and a lifting supporting plate 32 which are arranged on the guide pillar supporting plate 42; one end of the lifting support plate 32 is hinged on the lifting mounting seat 31; a first rotary supporting shaft 33 is arranged in the middle of one surface, close to the lifting mounting seat 31, of the lifting supporting plate 32; a second slidable rotary supporting shaft 34 is arranged on the lifting mounting seat 31; the first rotating support shaft 33 is connected with the second rotating support shaft 34 through a support bar 35; the second rotating support shaft 34 is connected with a lifting and moving driving assembly.

The lifting and moving driving assembly comprises a moving screw rod transmission mechanism 36 arranged on the lifting mounting seat 31, and the second rotary supporting shaft 34 is connected with the moving screw rod transmission mechanism 36; the movable lead screw transmission mechanism 36 is slidably connected with the lifting installation seat 31 through a movable guide rail 37 and a movable sliding block 38. The lifting and moving driving assembly moves the second rotating supporting shaft 34 so as to adjust the included angle between the supporting bar 35 and the lifting supporting plate 32 to realize the rotating and lifting of the lifting supporting plate 32.

The transmission 2 is preferably a timing belt transmission 2. The synchronous belt transmission device 2 comprises a synchronous wheel support frame 21 fixed on a lifting support plate 32, two groups of synchronous belt components 22, a synchronous wheel motor 23 and a mounting plate 23 connected with the cleaning and adsorbing device 1; the synchronizing wheels of the two groups of synchronizing wheel belt assemblies 22 are respectively and rotatably arranged on the synchronizing wheel supporting frame 21; the synchronous wheel motor 23 is positioned between the two groups of synchronous wheel belt components 22 and is respectively connected with the two groups of synchronous wheel belt components 22 through a transmission belt 24; the timing belt of the timing belt assembly 22 is connected to the mounting plate 23. Two sets of synchronous pulley belt subassemblies 22 drive clean adsorption equipment 1 jointly and remove, drive more balanced to clean adsorption equipment 1.

The cleaning and adsorbing device 1 comprises a cleaning installation seat 11, a cleaning and moving driving assembly and a cleaning and adsorbing groove 12; the cleaning mounting 11 is slidably connected to the rotary lifting device 3 and to the transmission 2.

A second cleaning installation frame 19 is arranged on the rotary lifting device 3; the cleaning installation seat 11 is slidably arranged on the second cleaning installation frame 19 through the second cleaning guide rod 17 and the second cleaning guide sliding block 18. The cleaning and adsorbing device 1 is supported on the rotating and lifting device 3 and driven by the transmission device 2, so that the cleaning and adsorbing device 1 can be effectively and stably fixed. An installation space is reserved between the cleaning installation seat 11 and the rotating lifting device 3; the gear 2 is located in the installation space.

The cleaning movement drive assembly includes a cleaning drive cylinder 14; the cylinder barrel of the cleaning driving cylinder 14 is arranged on the cleaning mounting seat 11, and the telescopic rod of the cleaning driving cylinder 14 is connected with the cleaning adsorption tank 12 through a first cleaning mounting frame 13; a first cleaning guide rod 16 and a first cleaning guide sliding block 15 are arranged between the first cleaning mounting frame 13 and the cleaning mounting seat 11 to realize moving guide.

The cleaning and moving driving component can enable the cleaning and adsorbing tank 12 to move along the length method or the width direction of the silk screen; a brush head is arranged on one side of the cleaning adsorption tank 12 facing the silk screen, a vacuum adsorption cavity is arranged in the cleaning adsorption tank 12, and the mouth of the vacuum adsorption cavity faces the silk screen; the vacuum adsorption cavity is connected with an external vacuumizing device.

The cleaning and moving driving component moves the cleaning and adsorbing groove 12 to enable the cleaning and adsorbing groove to be attached to the lower side face of the silk screen net to move, at the moment, the brush head cleans the meshes of the silk screen net, and meanwhile, an external vacuumizing device is started to suck and discharge cleaned impurities through a vacuum adsorption cavity; this clean adsorption equipment 1 effectively cleans the silk screen to avoid the impurity of brushing out to spill around, keep the station clean.

The above embodiments are preferred embodiments of the present invention, but the present invention is not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be construed as equivalents thereof, and all such changes, modifications, substitutions, combinations, and simplifications are intended to be included in the scope of the present invention.

Claims (10)

1. The utility model provides a ceramic tile silk screen printing machine mesh washs adsorption equipment which characterized in that: the method comprises the following steps:

the cleaning and adsorbing device is used for cleaning and brushing the screen printing screen and performing vacuum adsorption cleaning;

the transmission device is used for moving the cleaning adsorption device along the length method or the width direction of the silk screen;

the rotary lifting device is used for realizing rotary lifting;

and a lifting device for realizing lifting;

the rotary lifting device is arranged on the lifting device to realize lifting of the rotary lifting device; the transmission device is arranged on the rotating and lifting device to realize the rotating and lifting of the transmission device; the cleaning and adsorbing device is slidably arranged on the rotating and lifting device and is connected with the transmission device, so that the cleaning and adsorbing device can move on the rotating and lifting device along the length method or the width direction of the screen printing net.

2. The tile screen printing machine mesh cleaning and adsorbing device of claim 1, which is characterized in that: the cleaning adsorption device comprises a cleaning installation seat, a cleaning moving driving assembly and a cleaning adsorption groove;

the cleaning mounting seat is connected with the rotating lifting device in a sliding manner and is connected with the transmission device; the cleaning adsorption tank is connected with the cleaning installation seat through a cleaning movement driving assembly so as to realize that the cleaning adsorption tank moves along the length method or the width direction of the screen printing net; the cleaning adsorption tank is provided with a brush head and a vacuum adsorption cavity; the vacuum adsorption cavity is connected with an external vacuumizing device.

3. The tile screen printing machine mesh cleaning and adsorbing device of claim 2, wherein: the cleaning moving driving assembly comprises a cleaning driving cylinder; the cylinder barrel of the cleaning driving cylinder is arranged on the cleaning mounting seat, and the telescopic rod of the cleaning driving cylinder is connected with the cleaning adsorption tank through the first cleaning mounting frame; a first cleaning guide rod and a first cleaning guide sliding block are arranged between the first cleaning mounting frame and the cleaning mounting seat to achieve moving guide.

4. The tile screen printing machine mesh cleaning and adsorbing device of claim 2, wherein: a second cleaning installation frame is arranged on the rotating lifting device; the cleaning installation seat is arranged on the cleaning installation frame II in a sliding mode through the cleaning guide rod II and the cleaning guide sliding block II.

5. The tile screen printing machine mesh cleaning and adsorbing device of claim 4, wherein: an installation space is reserved between the cleaning installation seat and the rotating lifting device; the transmission is located in the installation space.

6. The tile screen printing machine mesh cleaning and adsorbing device of claim 1, which is characterized in that: the transmission device is a synchronous belt transmission device.

7. The tile screen printing machine mesh cleaning and adsorbing device of claim 6, wherein: the synchronous belt transmission device comprises a synchronous wheel support frame fixed on the rotating and lifting device, two groups of synchronous belt components, a synchronous wheel motor and a mounting plate connected with the cleaning and adsorbing device; the synchronizing wheels of the two groups of synchronizing wheel belt components are respectively and rotatably arranged on the synchronizing wheel supporting frames; the synchronous wheel motor is positioned between the two groups of synchronous wheel belt components and is respectively connected with the two groups of synchronous wheel belt components through a transmission belt; the synchronous belt of the synchronous belt component is connected with the mounting plate.

8. The tile screen printing machine mesh cleaning and adsorbing device of claim 1, which is characterized in that: the rotary lifting device comprises a lifting mounting seat and a lifting supporting plate; one end of the lifting support plate is hinged to the lifting mounting seat; a first rotary supporting shaft is arranged in the middle of one surface, close to the lifting mounting seat, of the lifting supporting plate; a second rotary supporting shaft which can slide is arranged on the lifting mounting seat; the first rotating support shaft is connected with the second rotating support shaft through a support bar; the second rotating support shaft is connected with a lifting and moving driving assembly, so that the second rotating support shaft can move to adjust the included angle between the support bar and the lifting support plate to realize the rotation and lifting of the lifting support plate.

9. The tile screen printing machine mesh cleaning and adsorbing device of claim 8, wherein: the lifting and moving driving assembly comprises a moving screw rod transmission mechanism arranged on the lifting mounting seat, and a second rotating support shaft is connected with the moving screw rod transmission mechanism; the movable lead screw transmission mechanism is connected with the lifting mounting seat in a sliding mode through the movable guide rail and the movable sliding block.

10. The tile screen printing machine mesh cleaning and adsorbing device of any one of claims 1 to 9, wherein: the lifting device comprises a fixed seat, a plurality of guide posts, a lifting screw rod transmission mechanism, a guide post supporting plate and a lifting motor, wherein the guide posts are longitudinally arranged and telescopically arranged on the fixed seat; the guide post supporting plates are supported above the guide posts and are connected with the lifting screw rod transmission mechanism; the rotating and lifting device is arranged on the guide pillar supporting plate.

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