CN211305776U - Glaze grinding machine for ceramic tiles - Google Patents

Abstract

The utility model discloses a glaze grinding machine for ceramic tiles, which belongs to the field of ceramic tile glaze grinding machines and comprises a workbench, a support frame body, a glaze grinding mechanism, a cylinder, a screw rod mechanism, a bottom plate and a positioning plate; the glaze grinding mechanism comprises a U-shaped positioning plate, a connecting seat, a first round rod, a second round rod, a first glaze grinding brush and a second glaze grinding brush; the surface roughness of the first glaze grinding brush is larger than that of the second glaze grinding brush; the length of the first glaze grinding brush and the second glaze grinding brush is larger than the distance between the positioning plates; the spring seat is provided with an arc-shaped clamping groove at one end close to the first round stick and the second round stick, and the other end of the spring seat is provided with a spring abutting against the bottom wall of the groove; one end of the arc-shaped clamping groove is embedded in the inner ring of the spring; and the arc-shaped clamping groove is clamped with the first round stick and the second round stick through the elasticity of the spring. The utility model discloses a grind glaze machine for ceramic tile adopts automatic mill glaze, has alleviateed intensity of labour, for production provide more convenient improve work efficiency, the structure is light and handy, strong adaptability.

Description

Glaze grinding machine for ceramic tiles

Technical Field

The utility model relates to a ceramic tile grinds glaze machine field, more specifically relates to a grind glaze machine for ceramic tile.

Background

At present, when ceramic tiles are processed, according to part of product processes and surface quality requirements, glaze grinding needs to be carried out on the surfaces of ceramic tile green bodies, specifically, the glaze surface of the sticky glaze on the front surface of a ceramic finished product is uneven after the sticky glaze is separated, the sticky glaze needs to be processed and ground, and is called glaze grinding, a glaze grinding machine is similar to a traditional mill for a mill, the ceramic is ground through a grinding disc with a glaze grinding brush, the grinding disc is driven by a motor or a person, the strength of the glaze grinding machine in glaze grinding is difficult to control, the ceramic glaze surface usually has brush marks, rework is often needed, the production efficiency is greatly influenced, and meanwhile, the labor intensity is high during batch operation, the labor intensity is high, and the manual efficiency is low. Therefore, effective technical solutions are needed to solve the above problems.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model discloses a glaze grinding machine for ceramic tile, the start-up of cylinder and then drive the glaze grinding mechanism and contact the ceramic tile downwards, the roughness of first glaze grinding brush is greater than second glaze grinding brush, after the coarse grinding of first glaze grinding brush and the fine grinding of second glaze grinding brush, get rid of the glutinous glaze on most glaze, prevent the regrinding that the noodless line on ceramic tile surface is too obvious and lead to, then first glaze grinding brush rolls with second round rod with first round rod respectively with second glaze grinding brush, combine lead screw mechanism to drive the longitudinal movement of ceramic tile and thus tangent with the ceramic tile surface; the glaze grinding treatment of the ceramic tile glaze is completed, so that the glaze grinding process of the ceramic tile is controlled in sequence, the automatic glaze grinding is adopted to replace manual glaze grinding, the labor intensity is reduced, more convenience is provided for production, the working efficiency is improved, the structure is light and handy, and the adaptability is strong; brush marks can be reduced, the glaze surface is smoother, the first glaze grinding brush and the second glaze grinding brush are carried out simultaneously, the switching process is not needed, and the glaze grinding efficiency is improved; the effect of spring holder prevents that the brush surface of first mill glaze brush, second mill glaze brush from having certain wearing and tearing after can be under the certain grinding volume of automatic compensation under the resilience force of spring, reaches the effect of control mill's dynamics and ensures the precision of ceramic tile surface glaze, grinds the fine grinding back of glaze brush through the corase grind of first mill glaze brush and second, gets rid of glutinous glaze on most glaze, prevents that the glaze is ground again that the noodless line on ceramic tile surface is too obvious and lead to.

To achieve the purpose, the utility model adopts the following technical proposal:

the utility model provides a glaze grinding machine for ceramic tiles, which comprises a workbench, a support frame body, a glaze grinding mechanism, a cylinder, a lead screw mechanism, a bottom plate and positioning plates, wherein the workbench is horizontally arranged, the support frame body is used for supporting the workbench, the glaze grinding mechanism is positioned above the workbench and is used for grinding the glaze on the surface of the ceramic tiles, the cylinder is used for driving the glaze grinding mechanism to move up and down, the lead screw mechanism is positioned below the glaze grinding mechanism and is used for driving the ceramic tiles to move longitudinally, the bottom plate is used for fixing the lead screw mechanism, and the positioning plates are fixedly arranged on two sides of the upper end of;

the glaze grinding mechanism comprises a U-shaped positioning plate which is fixedly connected with the piston rod of the air cylinder and arranged in an inverted manner, four connecting seats welded at the bottom end of the U-shaped positioning plate, a first round rod fixedly connected with the connecting seats at two sides of the front end, a second round rod fixedly connected with the connecting seats at two sides of the rear end, a first glaze grinding brush which is rotatably sleeved on the first round rod, and a second glaze grinding brush which is rotatably sleeved on the second round rod;

the surface roughness of the first glaze grinding brush is greater than that of the second glaze grinding brush; the length of the first glaze grinding brush and the second glaze grinding brush is larger than the distance between the positioning plates;

external threads are arranged at two end parts of the first round rod, and the two ends of the first round rod penetrate through the connecting seats and are fixed on the connecting seats at the two sides of the front end through nuts;

external threads are arranged at two end parts of the second round rod, and the two ends of the second round rod penetrate through the connecting seats and are fixed on the connecting seats at two sides of the rear end through nuts;

a groove is formed in the connecting seat, and a spring seat is fixedly arranged at the bottom of the groove;

an arc-shaped clamping groove is formed in one end, close to the first round rod and the second round rod, of the spring seat, and a spring abutting against the bottom wall of the groove is arranged at the other end of the spring seat; one end of the arc-shaped clamping groove is embedded in the inner ring of the spring; and the arc-shaped clamping groove is clamped with the first round stick and the second round stick through the elasticity of the spring.

Optionally, the support frame body comprises a cross beam and upright columns symmetrically arranged at the bottoms of two ends of the cross beam, and the cross beam is fixedly connected with the upright columns.

Optionally, the stand is welded with an extension plate, the extension plate is fixedly provided with an adsorption tube fixedly connected with an external dust collector, and one end of the adsorption tube, which is provided with an adsorption port, is arranged downwards and is located above the positioning plate.

Optionally, the opening diameter of the open end of the adsorption tube is in an enlarged bell mouth shape.

Optionally, the cylinder is fixed to the cross beam by bolts.

The utility model has the advantages that:

the utility model discloses a grind glaze machine for ceramic tile, the start-up of cylinder and then drive and grind glaze mechanism and contact the ceramic tile downwards, the roughness of first mill glaze brush is greater than second mill glaze brush, after the corase grind of first mill glaze brush and the correct grinding of second mill glaze brush, get rid of the glutinous glaze on most glaze, prevent the glaze regrinding that the noodless line on ceramic tile surface is too obvious and lead to, then first mill glaze brush and second mill glaze brush roll with second round rod relatively first round rod respectively, combine lead screw mechanism to drive the longitudinal movement of ceramic tile and thus tangent with the ceramic tile surface; the glaze grinding treatment of the ceramic tile glaze is completed, so that the glaze grinding process of the ceramic tile is controlled in sequence, the automatic glaze grinding is adopted to replace manual glaze grinding, the labor intensity is reduced, more convenience is provided for production, the working efficiency is improved, the structure is light and handy, and the adaptability is strong; brush marks can be reduced, the glaze surface is smoother, the first glaze grinding brush and the second glaze grinding brush are carried out simultaneously, the switching process is not needed, and the glaze grinding efficiency is improved; the effect of spring holder prevents that the brush surface of first mill glaze brush, second mill glaze brush from having certain wearing and tearing after can be under the certain grinding volume of automatic compensation under the resilience force of spring, reaches the effect of control mill's dynamics and ensures the precision of ceramic tile surface glaze, grinds the fine grinding back of glaze brush through the corase grind of first mill glaze brush and second, gets rid of glutinous glaze on most glaze, prevents that the glaze is ground again that the noodless line on ceramic tile surface is too obvious and lead to.

Drawings

Fig. 1 is a schematic structural diagram of a glaze grinding machine for ceramic tiles according to an embodiment of the present invention;

fig. 2 is a schematic view of a three-dimensional structure of a glaze grinding mechanism according to an embodiment of the present invention;

fig. 3 is a schematic view illustrating another perspective installation structure of the glaze grinding mechanism according to the embodiment of the present invention;

fig. 4 is a schematic perspective view of a screw mechanism according to an embodiment of the present invention;

fig. 5 is a schematic perspective view of a spring seat according to an embodiment of the present invention.

1. A work table; 2. a support frame body; 3. a glaze grinding mechanism; 4. a cylinder; 5. a screw mechanism; 6. a base plate; 7. positioning a plate; 8. a spring seat; 9. extending the plate; 10. an adsorption tube; 20. a cross beam; 21. a column; 31. a U-shaped positioning plate; 32. a connecting seat; 33. a first round bar; 34. a second round bar; 35. a first glaze grinding brush; 36. a second glaze grinding brush; 81. an arc-shaped clamping groove; 82. a spring; 321. and (4) a groove.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

As shown in fig. 1-5, a glaze grinding machine for ceramic tiles comprises a horizontally arranged workbench 1, a support frame 2 for supporting the workbench 1, a glaze grinding mechanism 3 located above the workbench 1 and used for grinding glaze on the surface of the ceramic tiles, a cylinder 4 for driving the glaze grinding mechanism 3 to move up and down, a screw rod mechanism 5 located below the glaze grinding mechanism 3 and used for driving the ceramic tiles to move longitudinally, a bottom plate 6 for fixing the screw rod mechanism 5, and positioning plates 7 fixedly arranged on two sides of the upper end of the workbench 1 and used for the ceramic tiles; the glaze grinding mechanism 3 comprises a U-shaped positioning plate 31 which is fixedly connected with a piston rod of the air cylinder 4 and arranged in an inverted manner, four connecting seats 32 welded at the bottom end of the U-shaped positioning plate 31, a first round rod 33 fixedly connected with the connecting seats 32 at two sides of the front end, a second round rod 34 fixedly connected with the connecting seats 32 at two sides of the rear end, a first glaze grinding brush 35 which is rotatably sleeved on the first round rod 33, and a second glaze grinding brush 36 which is rotatably sleeved on the second round rod 34; the surface roughness of the first ground glaze brush 35 is greater than the surface roughness of the second ground glaze brush 36; the length of the first glaze grinding brush 35 and the second glaze grinding brush 36 is larger than the distance between the positioning plates 7; the two ends of the first round rod 33 are provided with external threads, and the two ends of the first round rod 33 penetrate through the connecting seat 32 and then are fixed on the connecting seats 32 at the two sides of the front end through nuts; two ends of the second round rod 34 are provided with external threads, and two ends of the second round rod 34 penetrate through the connecting seat 32 and then are fixed on the connecting seat 32 at two sides of the rear end through nuts; a groove 321 is formed in the connecting seat 32, and a spring seat 8 is fixedly arranged at the bottom of the groove 321; one end of the spring seat 8, which is close to the first round rod 33 and the second round rod 34, is provided with an arc-shaped clamping groove 81, and the other end of the spring seat 8 is provided with a spring 82 which is abutted against the bottom wall of the groove 321; one end of the arc-shaped clamping groove 81 is embedded in the inner ring of the spring 82; the arc-shaped slot 81 is engaged with the first round bar 33 and the second round bar 34 by the elastic force of the spring 82.

The implementation is specifically implemented by firstly placing the ceramic tile with the surface to be glazed and treated on the workbench 1 and the positioning plates 7 at two sides, ensuring that the ceramic tile is positioned under the glazing mechanism 3, wherein the height of the positioning plate 7 is smaller than the thickness of the ceramic tile, even if the length of the first glazing brush 35 and the second glazing brush 36 is larger than the distance between the positioning plates 7, the normal glazing work of the first glazing brush 35 and the second glazing brush 36 is not hindered, and simultaneously ensuring that the glaze on the surface of the ceramic tile is smooth and consistent, the smoothness and smoothness of the glaze are ensured, then, the transmission operation of the cylinder 4 and the screw rod mechanism 5 is controlled by an external PLC, the PLC controls the piston rod of the cylinder 4 to vertically move downwards, and after the glazing mechanism 3 is driven to be tightly attached to the surface of the ceramic tile, the PLC controls the piston rod of the cylinder 4 to stop moving downwards, and further controls the screw rod mechanism 5, driving the ceramic tile to move longitudinally so as to finish the glaze grinding work on the surface of the ceramic tile; it should be noted that the screw mechanism 5 is an existing screw mechanism, and mainly includes a screw, a screw nut, a motor for driving the screw to rotate, and a support seat with a bearing for fixing one end of the screw, wherein the working table 1 is fixed on the screw nut by bolts, and then the rotary motion of the screw drives the linear motion of the screw nut to drive the working table 1 to move along the longitudinal direction; in order to further clarify the concrete structure of the glaze grinding mechanism 3 (as shown in fig. 2), wherein the glaze grinding mechanism 3 comprises a U-shaped positioning plate 31 which is fixedly connected with the piston rod of the cylinder 4 and is arranged in an inverted manner, four connecting seats 32 welded at the bottom end of the U-shaped positioning plate 31, a first round bar 33 fixedly connected with the connecting seats 32 at the two sides of the front end, a second round bar 34 fixedly connected with the connecting seats 32 at the two sides of the rear end, a first glaze grinding brush 35 which is rotatably sleeved on the first round bar 33, and a second glaze grinding brush 36 which is rotatably sleeved on the second round bar 34; the surface roughness of the first glaze grinding brush 35 is greater than the surface roughness of the second glaze grinding brush 36, which means that the density of the bristles of the second glaze grinding brush 36 is slightly less than the density of the bristles of the first glaze grinding brush 35. The connecting seats 32 are arranged on the U-shaped positioning plate 31 in a bilateral symmetry manner, two connecting seats are arranged on the same side of the U-shaped positioning plate 31, the connecting seats 32 are totally arranged into four, external threads are arranged at two ends of the first round rod 33, and two ends of the first round rod 33 penetrate through the connecting seats 32 and then are fixed on the connecting seats 32 at two sides of the front end through nuts; external threads are arranged at two ends of the second round rod 34, two ends of the second round rod 34 penetrate through the connecting seat 32 and then are fixed on the connecting seat 32 at two sides of the rear end through nuts, meanwhile, a groove 321 is formed in the connecting seat 32, and a spring seat 8 is fixedly arranged at the bottom of the groove 321; one end of the spring seat 8, which is close to the first round rod 33 and the second round rod 34, is provided with an arc-shaped clamping groove 81, and the other end of the spring seat 8 is provided with a spring 82 which is abutted against the bottom wall of the groove 321; one end of the arc-shaped clamping groove 81 is embedded in the inner ring of the spring 82; and elasticity through spring 82 makes the first round rod 33 of arc draw-in groove 81 block and second round rod 34, the effect of spring holder 8 prevents first mill glaze brush 35, the second grinds the brush surface of glaze brush 36 and can be after certain wearing and tearing certain grinding capacity of automatic compensation under spring 82's resilience force, reach the precision that the ceramic tile surface glaze was ensured to the effect of control mill brush dynamics, grind 36 the accurate grinding back of glaze brush through the corase grind of first mill glaze brush 35 and second, get rid of glutinous glaze on most glaze, prevent that the noodless line on ceramic tile surface is too obvious and the glaze of grinding again that leads to.

In a word, the PLC controls the cylinder 4 to be started, the cylinder 4 is started to drive the glaze grinding mechanism 3 to downwards contact the ceramic tile, the surface roughness of the first glaze grinding brush 35 is larger than that of the second glaze grinding brush 36, sticky glaze on most of the glaze is removed after coarse grinding of the first glaze grinding brush 35 and fine grinding of the second glaze grinding brush 36, re-glaze grinding caused by excessively obvious noodle lines on the surface of the ceramic tile is prevented, then the first glaze grinding brush 35 and the second glaze grinding brush 36 respectively roll relative to the first round rod 33 and the second round rod 34, and the ceramic tile is driven to longitudinally move by combining the screw rod mechanism 5 so as to be tangent to the surface of the ceramic tile; the ceramic tile glaze grinding device has the advantages that the ceramic tile glaze grinding process is finished, the ceramic tile glaze grinding process is controlled in sequence, automatic glaze grinding is adopted, manual glaze grinding is replaced, labor intensity is reduced, more convenience is provided for production, work efficiency is improved, the structure is light and handy, and adaptability is high. Brush marks can be reduced, the glaze surface is smoother, the first glaze grinding brush 35 and the second glaze grinding brush 36 are carried out simultaneously, the switching process is not needed, and the glaze grinding efficiency is improved; the effect of spring holder 8 prevents that first mill glaze brush 35, second mill glaze brush 36's brush surface can be under spring 82's resilience force automatic compensation certain grinding volume after having certain wearing and tearing, reach the effect of control mill's dynamics and ensure the precision of ceramic tile surface glaze, grind the coarse grinding of brush 35 through first mill glaze and second mill glaze brush 36's finish grinding back, get rid of glutinous glaze on most glaze, prevent that the surperficial noodless line of ceramic tile is too obvious and the glaze of grinding again that leads to.

Optionally, the support frame body 2 includes a cross beam 20 and upright posts 21 symmetrically disposed at the bottoms of the two ends of the cross beam 20, and the cross beam 20 and the upright posts 21 are fixedly connected, so that the glaze grinding mechanism 3 and the cylinder 4 can be stably disposed on the cross beam 20, which is convenient for the processing precision of the glaze grinding mechanism 3.

Optionally, the stand 21 is welded with the extension plate 9, the extension plate 9 is fixedly provided with an adsorption tube 10 fixedly connected with an external dust collector, the adsorption tube 10 is arranged below the end with an adsorption port and above the positioning plate 7, and dust generated during glaze grinding can be quickly adsorbed into the external dust collector to improve dust resistance.

Optionally, the opening diameter of the opening end of the adsorption tube 10 is in an enlarged bell mouth shape, so that dust can be intensively adsorbed through the bell mouth shape in a large area, and the adsorption effect is good.

Optionally, the cylinder 4 is fixed on the cross beam 20 by bolts, so that other mounting structural members are reduced, and the connection mode is simple and reliable.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the invention. The present invention is not to be limited by the specific embodiments disclosed herein, and other embodiments that fall within the scope of the claims of the present application are intended to be within the scope of the present invention.

Claims (5)

1. The utility model provides a grind glaze machine for ceramic tile which characterized in that:

comprises a workbench (1) which is horizontally arranged, a supporting frame body (2) which is used for supporting the workbench (1),

The ceramic tile polishing device comprises a glaze grinding mechanism (3) which is positioned above the workbench (1) and used for grinding glaze on the surface of a ceramic tile, a cylinder (4) used for driving the glaze grinding mechanism (3) to move up and down, a screw rod mechanism (5) which is positioned below the glaze grinding mechanism (3) and used for driving the ceramic tile to move longitudinally, a bottom plate (6) used for fixing the screw rod mechanism (5), and positioning plates (7) which are fixedly arranged on two sides of the upper end of the workbench (1) and used for the ceramic tile;

the glaze grinding mechanism (3) comprises a U-shaped positioning plate (31) which is fixedly connected with a piston rod of the air cylinder (4) in an inverted manner, four connecting seats (32) welded at the bottom end of the U-shaped positioning plate (31), first round rods (33) fixedly connected with the connecting seats (32) at the two sides of the front end, second round rods (34) fixedly connected with the connecting seats (32) at the two sides of the rear end, a first glaze grinding brush (35) which is rotatably sleeved on the first round rods (33), and a second glaze grinding brush (36) which is rotatably sleeved on the second round rods (34);

the surface roughness of the first glaze grinding brush (35) is larger than that of the second glaze grinding brush (36); the length of the first glaze grinding brush (35) and the second glaze grinding brush (36) is larger than the distance between the positioning plates (7);

external threads are arranged at two ends of the first round rod (33), and two ends of the first round rod (33) penetrate through the connecting seat (32) and are fixed on the connecting seat (32) at two sides of the front end through nuts;

external threads are arranged at two ends of the second round stick (34), and two ends of the second round stick (34) penetrate through the connecting seat (32) and are fixed on the connecting seat (32) at two sides of the rear end through nuts;

a groove (321) is formed in the connecting seat (32), and a spring seat (8) is fixedly arranged at the bottom of the groove (321);

one end of the spring seat (8), which is close to the first round rod (33) and the second round rod (34), is provided with an arc-shaped clamping groove (81), and the other end of the spring seat (8) is provided with a spring (82) which is abutted against the bottom wall of the groove (321); one end of the arc-shaped clamping groove (81) is embedded in the inner ring of the spring (82); and the arc-shaped clamping groove (81) is clamped with the first round rod (33) and the second round rod (34) through the elastic force of the spring (82).

2. A glazing mill for ceramic tiles as claimed in claim 1, wherein:

the support frame body (2) comprises a cross beam (20) and stand columns (21) symmetrically arranged at the bottoms of two ends of the cross beam (20), and the cross beam (20) is fixedly connected with the stand columns (21).

3. A glazing mill for ceramic tiles as claimed in claim 2, wherein:

the welding is equipped with on stand (21) and stretches out board (9), stretch out fixed adsorption tube (10) that are equipped with outside dust catcher fixed connection on board (9), adsorption tube (10) have the one end of adsorbing the mouth and set up down and lie in the top of locating plate (7).

4. A glazing mill for ceramic tiles as claimed in claim 3, wherein:

the opening diameter of the opening end of the adsorption tube (10) is in an enlarged bell mouth shape.

5. A glazing mill for ceramic tiles as claimed in claim 2, wherein:

the cylinder (4) is fixedly arranged on the cross beam (20) through bolts.

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