CN212602615U - Rock plate grooving machine - Google Patents

Abstract

The utility model provides a rock plate grooving machine, including frame, conveying mechanism and set up in the processing agency of conveying mechanism one side, the processing agency includes the positive chamfer subassembly that sets gradually along the rock plate direction of delivery, back trimming subassembly, cutting oblique angle subassembly, inclined plane rough polishing subassembly, inclined plane finish polishing subassembly and the fluting subassembly, the rock plate conveys along conveying mechanism, in proper order through positive chamfer subassembly, back trimming subassembly, cutting oblique angle subassembly, inclined plane rough polishing subassembly, inclined plane finish polishing subassembly and the processing of fluting subassembly, positive chamfer subassembly personally submits 45 slopes to set up upwards for the operation; the back trimming component is arranged in parallel with the operation surface; the cutting bevel angle assembly, the inclined plane rough polishing assembly and the inclined plane fine polishing assembly are all arranged downwards in an inclined way at an angle of 45 degrees relative to the working surface; the slotting component is arranged upwards at an angle of 45 degrees relative to the working surface. The utility model provides a rock plate groover can realize cutting the inclined plane on the rock plate to fluting on the inclined plane.

Description

Rock plate grooving machine

[ technical field ] A method for producing a semiconductor device

The utility model relates to a rock plate processing technology field especially relates to a rock plate groover.

[ background of the invention ]

The rock plate is made of natural raw materials through a special process, is pressed by a press with the weight of more than ten thousand tons (more than 15000 tons), is combined with an advanced production technology, is fired at a high temperature of more than 1200 ℃, and can withstand the processing processes of cutting, drilling, polishing and the like. The rock plate is mainly used in the field of household and kitchen plates. As a new species in the field of home furnishing, compared with other home furnishing products, the rock plate home furnishing has the characteristics of large specification, strong plasticity, various colors, high temperature resistance, abrasion resistance, seepage prevention, acid and alkali resistance, zero formaldehyde, environmental protection, health and the like.

A novel rock plate connecting mode is as follows: cut out assorted inclined plane with two rock masses to set up the spread groove on the inclined plane, beat the glue in the spread groove with on the inclined plane, and correspond the laminating with the inclined plane of two rock plates, form overall structure after glue solidifies, can increase the firm nature of connection of two rock plates, because it belongs to a relatively neotype connection technology, does not have supporting direct processing among the correlation technique the integral type equipment of rock plate.

Therefore, there is a need to provide a new rock slotting machine to solve the above problems.

[ Utility model ] content

The to-be-solved technical problem of the utility model is to provide a can directly accomplish the rock plate and cut oblique angle and at the grooved rock plate groover in inclined plane.

The utility model provides a rock plate grooving machine, including the frame and being fixed in conveying mechanism and the processing agency of frame, the processing agency set up in conveying mechanism one side, the processing agency includes along the rock plate direction of delivery positive chamfer subassembly, back trimming subassembly, cutting oblique angle subassembly, inclined plane rough polishing subassembly, inclined plane finish polishing subassembly and the fluting subassembly that sets gradually, the rock plate is followed conveying mechanism conveys, passes through in proper order positive chamfer subassembly, back trimming subassembly, cutting oblique angle subassembly, inclined plane rough polishing subassembly, inclined plane finish polishing subassembly and the fluting subassembly processing, positive chamfer subassembly is 45 slopes to set up upwards for the operation; the back trimming component is arranged in parallel with the working face; the cutting bevel angle assembly, the inclined plane rough polishing assembly and the inclined plane fine polishing assembly are all arranged downwards in an inclined manner at an angle of 45 degrees relative to the working surface; the grooving assembly is arranged upwards in an inclined mode of 45 degrees relative to the operation surface, wherein the operation surface is a placing plane of the rock plate.

Preferably, the front chamfering assembly comprises a first motor fixed on the frame and a first grinding wheel connected with a rotating shaft of the first motor, the first grinding wheel is arranged obliquely and upwards at an angle of 45 degrees relative to the working surface, and the first grinding wheel correspondingly grinds edges and corners of the rock plate to form a chamfer on the front surface of the rock plate; the back face trimming assembly comprises a second motor fixed on the rack and a second grinding wheel connected with a rotating shaft of the second motor, the second motor and the first motor are arranged at intervals, the second grinding wheel is arranged in parallel with the working face, and the second grinding wheel is used for correspondingly trimming burrs on the back face of the rock plate; the cutting bevel angle assembly comprises a third motor fixed on the rack and a first saw blade connected with a rotating shaft of the third motor, the first saw blade is arranged downwards in an inclined manner at an angle of 45 degrees relative to the working surface, and the first saw blade correspondingly cuts the rock plate to form an inclined surface; the inclined plane rough polishing assembly comprises a fourth motor fixed on the rack and a third grinding wheel connected with a rotating shaft of the fourth motor, the third grinding wheel is arranged downwards in an inclined manner at an angle of 45 degrees relative to the working surface, and the third grinding wheel correspondingly polishes the inclined plane; the inclined plane finish polishing assembly comprises a fifth motor fixed on the rack and a fourth grinding wheel connected with a rotating shaft of the fifth motor, the fourth grinding wheel is obliquely and downwards arranged at an angle of 45 degrees relative to the working surface, and the fourth grinding wheel correspondingly polishes the inclined plane; the slotting component comprises a sixth motor fixed on the rack and a second saw blade connected with a rotating shaft of the sixth motor, the second saw blade is arranged upwards in an inclined manner at an angle of 45 degrees relative to the working surface, and the second saw blade is used for forming a connecting groove on the inclined surface.

Preferably, the depth direction of the connecting groove is perpendicular to the inclined plane.

Preferably, the first grinding wheel and the second grinding wheel are diamond wheels; the third grinding wheel and the fourth grinding wheel are resin wheels.

Preferably, the grain size of the fourth grinding wheel is greater than the grain size of the third grinding wheel.

Preferably, conveying mechanism include the underbeam belt, set up in underbeam belt top and with the parallel upper beam belt of underbeam belt, with upper beam belt fixed connection's slider and with slider assorted slide rail, the slide rail sets up along vertical direction, the rock plate place in on the underbeam belt, the upper beam belt with the underbeam belt cooperation is pressed from both sides tightly the rock plate.

Preferably, the lower beam belt and the lower beam belt have the same conveying direction and the same transmission speed.

Compared with the prior art, the rock plate grooving machine comprises a processing mechanism, wherein the processing mechanism comprises a front chamfering component, a back trimming component, a cutting oblique angle component, an oblique plane rough polishing component, an oblique plane fine polishing component and a grooving component which are sequentially arranged along the rock plate conveying direction, rock plates are conveyed along the conveying mechanism and are sequentially processed by the front chamfering component, the back trimming component, the cutting oblique angle component, the oblique plane rough polishing component, the oblique plane fine polishing component and the grooving component, and the front chamfering component is obliquely upwards arranged at an angle of 45 degrees relative to the operation surface; the back trimming component is arranged in parallel with the working face; the cutting bevel angle assembly, the inclined plane rough polishing assembly and the inclined plane fine polishing assembly are all arranged downwards in an inclined manner at an angle of 45 degrees relative to the working surface; the slotting component is inclined upwards by 45 degrees relative to the operation surface, so that the beveling, polishing and slotting of the rock plate are realized, the structure is simple, the automation degree is high, and the processing efficiency of the rock plate is greatly improved.

[ description of the drawings ]

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained without inventive work, wherein:

fig. 1 is a schematic perspective view of a rock grooving machine according to the present invention;

FIG. 2 is an enlarged view of area A shown in FIG. 1;

FIG. 3 is a front view of the rock slotter portion shown in FIG. 1;

FIG. 4 is a side view of the front chamfer assembly;

FIG. 5 is a side view of the back side trim assembly;

FIG. 6 is a side view of the cutting bevel assembly;

FIG. 7 is a side view of a bevel rough polishing assembly;

FIG. 8 is a side view of a bevel finishing assembly;

figure 9 is a side view of the slotted assembly.

[ detailed description ] embodiments

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Please refer to fig. 1 to fig. 9. The utility model provides a rock plate groover 100, include frame 10 and be fixed in the conveying mechanism 20 and the processing agency 30 of frame 10.

The frame 10 is used to fixedly mount other structures of the rock slotting machine 100, which are directly fixed on the ground or fixed on a specific station of the production line.

The conveying mechanism 20 comprises a lower beam belt 21, an upper beam belt 22 which is arranged above the lower beam belt 21 and is parallel to the lower beam belt 21, a sliding block 23 which is fixedly connected with the upper beam belt 22, and a sliding rail 24 which is matched with the sliding block 23.

The front face of the rock plate is placed downwards on the lower beam belt 21, the number of the lower beam belt 21 is multiple, and the lower beam belt 21 is parallel to each other at intervals and can meet the use requirements of rock plates with different sizes. When the size of the rock plate is small, the rock plate is directly placed on the two innermost lower beam belts 21; when the size of the rock plate is large, one lower beam belt 21 at the innermost side and one or more lower beam belts 21 at the outer side can be selected to be placed according to actual conditions. It will be appreciated that the direction and speed of the two or more lower beam belts 21 used to place the rock slabs are the same, which ensures that the rock slabs are transported on the lower beam belts 21 at a uniform speed.

The upper beam belt 22 and the lower beam belt 21 are matched to clamp the rock plate, and the upper beam belt 22 and the lower beam belt 21 are identical in conveying direction and conveying speed.

The sliding block 23 is fixedly connected to the upper beam belt 22, and it should be noted that the sliding block 23 is not fixedly connected to a belt in the upper beam belt 22, but is fixedly connected to a rack for mounting a belt in the upper beam belt 22.

The distance between the upper beam belt 22 and the lower beam belt 21 is adjusted according to the thickness of the rock plate. Specifically, slide rail 24 sets up along vertical direction, slider 23 can be followed slide rail 24 slides, makes upper beam belt 22 with underbeam belt 21's interval slightly is less than the thickness of rock plate, because the belt has certain elasticity, directly by the manual work with treat that the rock plate of processing is put into between two upper beam belt 22 and the underbeam belt 21 can. By adjusting the position of the sliding block 23, the use requirements of rock plates with different thicknesses can be met. It should be noted that, lower beam belt 21, upper beam belt 22 and slider 23 equally divide and do not connect with other drive arrangement, by the drive arrangement drive operation, and its corresponding structure and relation of connection belong to the conventional technical means in this field, the utility model discloses do not describe to this repeatedly.

Processing agency 30 set up in conveying mechanism 20 one side, processing agency 30 includes the edge the positive chamfer subassembly 31 that the rock plate direction of delivery set gradually, back trim subassembly 32, cutting oblique angle subassembly 33, the rough polishing subassembly 34 in inclined plane, the fine polishing subassembly 35 in inclined plane and the subassembly 36 of slotting, the rock plate is followed conveying mechanism conveys, passes through in proper order positive chamfer subassembly 31, back trim subassembly 32, cutting oblique angle subassembly 33, the rough polishing subassembly 34 in inclined plane, the fine polishing subassembly 35 in inclined plane and the subassembly 36 processing of slotting. The front chamfering assembly 31 is arranged upwards in an inclined manner at an angle of 45 degrees relative to the working surface; the back trimming assembly 32 is arranged parallel to the working surface; the cutting bevel angle component 33, the inclined plane rough polishing component 34 and the inclined plane fine polishing component 35 are all arranged downwards in an inclined way at an angle of 45 degrees relative to the working surface; the grooving assembly 36 is arranged at an angle of 45 ° upwards relative to the working plane, which is the laying plane of the rock plate.

Specifically, the front chamfering assembly 31 comprises a first motor 311 fixed on the frame 10 and a first grinding wheel 312 connected with a rotating shaft of the first motor 311, wherein the first grinding wheel 312 is arranged upwards in an inclined manner of 45 degrees relative to the working surface, and the first grinding wheel 312 correspondingly grinds the edges and corners of the rock plate to form a 45-degree chamfer on the front surface of the rock plate.

The back face trimming assembly 32 comprises a second motor 321 fixed on the frame 10 and a second grinding wheel 322 connected with a rotating shaft of the second motor 321, the second motor 321 and the first motor 311 are arranged at intervals, the second grinding wheel 322 is arranged in parallel with the working face, and the second grinding wheel 322 is used for correspondingly grinding burrs on the back face of the rock plate.

The cutting bevel assembly 33 includes a third motor 331 fixed to the frame 10 and a first saw blade 332 connected to a rotating shaft of the third motor 331, the first saw blade 332 is disposed obliquely downward at an angle of 45 ° relative to the working plane, and the first saw blade 332 correspondingly cuts the rock plate 20 to form a bevel.

The inclined surface rough polishing assembly 34 includes a fourth motor 341 fixed to the frame 10 and a third grinding wheel 342 connected to a rotating shaft of the fourth motor 341, the third grinding wheel 342 is disposed obliquely downward at an angle of 45 ° with respect to the working surface, and the third grinding wheel 342 correspondingly polishes the inclined surface.

The inclined plane finishing polishing assembly 35 includes a fifth motor 351 fixed to the frame 10 and a fourth grinding wheel 352 connected to a rotating shaft of the fifth motor 351, wherein the fourth grinding wheel 352 is inclined downward at an angle of 45 ° with respect to a working plane, and the fourth grinding wheel 352 correspondingly polishes the inclined plane.

The slotting component 36 includes a sixth motor 361 fixed to the frame 10 and a second saw blade 362 connected to a rotating shaft of the sixth motor 361, the second saw blade 362 is arranged obliquely upward at an angle of 45 degrees relative to the working plane, and the second saw blade 362 is used for forming a connecting slot on the inclined plane. The depth direction of the connecting groove is perpendicular to the inclined plane.

Preferably, the first grinding wheel 312 and the second grinding wheel 322 are diamond wheels; the third grinding wheel 342 and the fourth grinding wheel 352 are resin wheels, and the grain size of the fourth grinding wheel 352 is larger than that of the third grinding wheel 342, so that the grinding precision of the fourth grinding wheel 352 is higher than that of the third grinding wheel 342, and the inclined surface is ground twice, so that the surface flatness is higher.

After the rock plates are processed, the connecting pieces are arranged in the connecting grooves, and the two rock plates can be spliced together.

It can be understood that, the utility model provides an including multiple electrical equipment among the rock plate groover 100, like drive arrangement, motor, driving motor etc. it all can be connected with intelligent control terminal, by control terminal control operation, and then realize automatic operation, control terminal's structure and all belong to the conventional technical means in this field with above-mentioned electrical equipment's connection wiring, the utility model is not repeated to this again.

Compared with the prior art, the rock plate grooving machine comprises a processing mechanism, wherein the processing mechanism comprises a front chamfering component, a back trimming component, a cutting oblique angle component, an oblique plane rough polishing component, an oblique plane fine polishing component and a grooving component which are sequentially arranged along the rock plate conveying direction, rock plates are conveyed along the conveying mechanism and are sequentially processed by the front chamfering component, the back trimming component, the cutting oblique angle component, the oblique plane rough polishing component, the oblique plane fine polishing component and the grooving component, and the front chamfering component is obliquely upwards arranged at an angle of 45 degrees relative to the operation surface; the back trimming component is arranged in parallel with the working face; the cutting bevel angle assembly, the inclined plane rough polishing assembly and the inclined plane fine polishing assembly are all arranged downwards in an inclined manner at an angle of 45 degrees relative to the working surface; the slotting component is inclined upwards by 45 degrees relative to the operation surface, so that the beveling, polishing and slotting of the rock plate are realized, the structure is simple, the automation degree is high, and the processing efficiency of the rock plate is greatly improved.

The above embodiments of the present invention are only described, and it should be noted that, for those skilled in the art, modifications can be made without departing from the inventive concept, but these all fall into the protection scope of the present invention.

Claims (7)

1. A rock plate grooving machine is characterized by comprising a rack, a conveying mechanism and a processing mechanism, wherein the conveying mechanism and the processing mechanism are fixed on the rack, the processing mechanism is arranged on one side of the conveying mechanism, the processing mechanism comprises a front chamfering component, a back trimming component, a cutting bevel component, a bevel rough polishing component, a bevel finish polishing component and a grooving component which are sequentially arranged along the conveying direction of a rock plate, the rock plate is conveyed along the conveying mechanism and is sequentially processed by the front chamfering component, the back trimming component, the cutting bevel component, the bevel rough polishing component, the bevel finish polishing component and the grooving component, and the front chamfering component is obliquely upwards arranged at an angle of 45 degrees relative to the operation surface; the back trimming component is arranged in parallel with the working face; the cutting bevel angle assembly, the inclined plane rough polishing assembly and the inclined plane fine polishing assembly are all arranged downwards in an inclined manner at an angle of 45 degrees relative to the working surface; the grooving assembly is arranged upwards in an inclined mode of 45 degrees relative to the operation surface, wherein the operation surface is a placing plane of the rock plate.

2. The rock plate grooving machine of claim 1, wherein the front chamfer assembly comprises a first motor fixed to the machine frame and a first grinding wheel connected to a rotating shaft of the first motor, the first grinding wheel is arranged obliquely upward at an angle of 45 ° relative to the working surface, and the first grinding wheel correspondingly grinds an edge angle of the rock plate to form a chamfer on the front surface of the rock plate; the back face trimming assembly comprises a second motor fixed on the rack and a second grinding wheel connected with a rotating shaft of the second motor, the second motor and the first motor are arranged at intervals, the second grinding wheel is arranged in parallel with the working face, and the second grinding wheel is used for correspondingly trimming burrs on the back face of the rock plate; the cutting bevel angle assembly comprises a third motor fixed on the rack and a first saw blade connected with a rotating shaft of the third motor, the first saw blade is arranged downwards in an inclined manner at an angle of 45 degrees relative to the working surface, and the first saw blade correspondingly cuts the rock plate to form an inclined surface; the inclined plane rough polishing assembly comprises a fourth motor fixed on the rack and a third grinding wheel connected with a rotating shaft of the fourth motor, the third grinding wheel is arranged downwards in an inclined manner at an angle of 45 degrees relative to the working surface, and the third grinding wheel correspondingly polishes the inclined plane; the inclined plane finish polishing assembly comprises a fifth motor fixed on the rack and a fourth grinding wheel connected with a rotating shaft of the fifth motor, the fourth grinding wheel is obliquely and downwards arranged at an angle of 45 degrees relative to the working surface, and the fourth grinding wheel correspondingly polishes the inclined plane; the slotting component comprises a sixth motor fixed on the rack and a second saw blade connected with a rotating shaft of the sixth motor, the second saw blade is arranged upwards in an inclined manner at an angle of 45 degrees relative to the working surface, and the second saw blade is used for forming a connecting groove on the inclined surface.

3. A rock grooving machine according to claim 2, wherein the depth direction of the connecting groove is perpendicular to the bevel.

4. The rock grooving machine of claim 2, wherein the first grinding wheel and the second grinding wheel are diamond wheels; the third grinding wheel and the fourth grinding wheel are resin wheels.

5. A rock gain groover according to claim 4, wherein the grain size of the fourth grinding wheel is greater than the grain size of the third grinding wheel.

6. The rock grooving machine of claim 1, wherein the conveying mechanism comprises a lower beam belt, an upper beam belt arranged above the lower beam belt and parallel to the lower beam belt, a slider fixedly connected with the upper beam belt, and a slide rail matched with the slider, the slide rail is arranged in a vertical direction, the rock plate is placed on the lower beam belt, and the upper beam belt and the lower beam belt are matched to clamp the rock plate.

7. The rock grooving machine of claim 6, wherein the lower beam belt is in the same conveying direction as the lower beam belt and the drive speeds are the same.

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