CN218801173U - Multi-head intelligent fixed-thickness polishing integrated machine - Google Patents

Abstract

The utility model relates to the technical field of stone processing, and discloses a multi-head intelligent fixed-thickness polishing integrated machine, which comprises a base, a portal frame, a traversing seat, a rotating mechanism and a grinding head; the base comprises a first base and a second base; the portal frame comprises a first vertical beam, a second vertical beam, a cross beam and a connecting beam, the first vertical beam is movably arranged on the first base, the second vertical beam is movably arranged on the second base, the cross beam comprises a first cross beam and a second cross beam, and an abdicating space is formed between the first cross beam and the second cross beam; the transverse moving seat is movably arranged on the cross beam; the rotating mechanism is arranged on the transverse moving seat and comprises a plurality of groups of rotating groups, each group of rotating groups comprises a driving motor and two rotating shafts, one driving motor drives the two rotating shafts to synchronously rotate, and each rotating shaft penetrates through the abdicating space and then is connected with a grinding head. The utility model discloses can carry out quick edging in an area of stone material, the edging is efficient.

Description

Multi-head intelligent fixed-thickness polishing integrated machine

Technical Field

The utility model relates to a stone material processing technology field, in particular to multi-head intelligence is decided thick and is polished all-in-one.

Background

Stone products are becoming more and more popular, both in public buildings and in home decorations, because of their natural physical properties, stable chemical properties and their attractive appearance. In the stone processing process, the stone is mostly needed to be edged. The edge grinding of the stone refers to a stone processing technology for grinding one or more edges of the stone into a smooth and flat stone with a geometric shape.

The stone material is when the edging, adopts stone material edging equipment to carry out the edging usually, and stone material edging equipment among the prior art orders about a bistrique for a motor usually and rotates in order to carry out the edging to the stone material, and the edging is inefficient, is difficult to carry out quick edging to a certain region of stone material, is difficult to carry out the fixed thickness to the stone material fast and polishes. In view of the above, the present inventors have made extensive studies on the above-mentioned drawbacks of the prior art, and have made this invention.

SUMMERY OF THE UTILITY MODEL

The present invention aims at solving at least one of the technical problems in the above-mentioned technology to a certain extent. Therefore, the utility model aims to provide a bull intelligence is thick surely polishes all-in-one, and it can carry out quick edging in an area of stone material, and the edging is efficient.

In order to achieve the purpose, the utility model provides a multi-head intelligent thickness-fixing polishing integrated machine, which comprises a base, a portal frame, a transverse moving seat, a rotating mechanism and a grinding head;

the base comprises a first base and a second base, and the first base is parallel to the second base;

the portal frame comprises a first vertical beam, a second vertical beam, a cross beam and a connecting beam, the first vertical beam is movably arranged on the first base along the X-axis direction, the second vertical beam is movably arranged on the second base along the X-axis direction, one end of the cross beam is movably arranged on the first vertical beam along the Z-axis direction, the other end of the cross beam is movably arranged on the second vertical beam along the Z-axis direction, the cross beam comprises a first cross beam and a second cross beam, an abdicating space is formed between the first cross beam and the second cross beam, one end of the connecting beam is fixed at the upper end of the first vertical beam, and the other end of the connecting beam is fixed at the upper end of the second vertical beam;

the transverse moving seat is movably arranged on the cross beam; the rotating mechanism is arranged on the transverse moving seat and comprises a plurality of groups of rotating groups, each group of rotating groups comprises a driving motor and two rotating shafts, one driving motor drives the two rotating shafts to synchronously rotate, and each rotating shaft penetrates through the abdicating space and then is connected with a grinding head.

Furthermore, an elastic telescopic sleeve used for protecting the rotating shaft is arranged on the outer side of the rotating shaft.

Furthermore, the outside that the second erected the roof beam sets up the mounting panel, is used for controlling the switch board that first perpendicular roof beam, second erected roof beam and crossbeam removed on the mounting panel.

Furthermore, each group of rotating groups further comprises a driving wheel, a connecting belt, two driven wheels and two shaft sleeves, the driving wheel is connected with the driving motor and driven by the driving motor to rotate, the connecting belt is connected with the driving wheel and the two driven wheels, each driven wheel is connected with one shaft sleeve, and the rotating shaft is driven by the lifting cylinder to be arranged in a lifting mode along the shaft sleeves.

Further, set up the linkage recess in the follow driving wheel, the axle sleeve outer wall is equipped with the linkage projection of embedding linkage recess and the inner wall is equipped with the guide way, and the pivot outer wall is equipped with the direction bead with guide way complex.

Further, slewing mechanism includes first rotatory group, the rotatory group of second, the rotatory group of third and the rotatory group of fourth, and first rotatory group sets up with the rotatory group of second relatively, and first rotatory group sets up with the rotatory group of third side by side, and the rotatory group of second sets up with the rotatory group of fourth side by side, and the rotatory group of third sets up with the rotatory group of fourth relatively.

Furthermore, a first driving mechanism is arranged between the first base and the first vertical beam, the first driving mechanism comprises a first mounting seat, a first motor, a first gear and a first rack, the first motor is arranged on the first mounting seat, the first gear is connected with the first motor and driven by the first motor to rotate, the first rack is arranged on the first base, and the first rack is meshed with the first gear.

Furthermore, a second driving mechanism is arranged between the second base and the second vertical beam, the second driving mechanism comprises a second mounting seat, a second motor, a second gear and a second rack, the second motor is arranged on the second mounting seat, the second gear is connected with the second motor and driven to rotate by the second motor, the second rack is arranged on the second base, and the second rack is meshed with the second gear.

Furthermore, the cross beam also comprises a first connecting plate and a second connecting plate; one end of the first cross beam is fixed on the first connecting plate, the other end of the first cross beam is fixed on the second connecting plate, one end of the second cross beam is fixed on the first connecting plate, the other end of the second cross beam is fixed on the second connecting plate, and the second cross beam is parallel to the first cross beam.

After the structure of the oil adding device is adopted, the utility model relates to a multi-head intelligence is thick surely and is polished all-in-one, it has following beneficial effect at least:

when the stone edging machine is used, after the stone is placed at the bottom of the portal frame, the portal frame can move in the X-axis direction along the first base and the second base, so that the portal frame can be adjusted to a proper position, then the transverse moving seat moves in the Y-axis direction along the cross beam, and the cross beam moves in the Z-axis direction, so that the transverse moving seat arranged on the portal frame is aligned to the position, required for edging, of the stone, and the grinding head is driven to rotate by the rotating mechanism to grind the stone.

Two, through setting up first crossbeam and second crossbeam, form the space of stepping down between first crossbeam and the second crossbeam, when the edging, a plurality of pivots pass this space of stepping down and be connected with the bistrique for a stone material needs the edging position is aimed at to a plurality of bistriques, and a plurality of bistriques rotate and carry out quick edging to this edging position.

Thirdly, because slewing mechanism includes the rotatory group of multiunit, every rotatory group of group includes a driving motor and two pivots for during the edging, the rotatory group of multiunit can be polished the stone material simultaneously, and a driving motor orders about two pivots simultaneously and rotates, in order to order about two bistriques synchronous rotation, and edging efficiency is high.

Fourthly, through setting up the lift cylinder, the pivot orders about it through the lift cylinder along axle sleeve liftable setting, can conveniently adjust the high position of each bistrique, realizes surely polishing the stone material thick.

Compared with the prior art, the utility model discloses a set up first crossbeam and second crossbeam, form the space of stepping down between first crossbeam and the second crossbeam for a plurality of pivots are passed and are connected with a plurality of bistriques after the space of stepping down, can carry out quick edging in an area of stone material, and the edging is efficient.

Drawings

Fig. 1 is a schematic structural diagram of a multi-head intelligent fixed-thickness polishing integrated machine according to an embodiment of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1;

fig. 3 is a schematic structural view of a rotating mechanism mounted on a traverse seat according to an embodiment of the present invention;

fig. 4 is a cross-sectional view of a rotating mechanism according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a set of rotating groups according to an embodiment of the present invention;

fig. 6 is a schematic structural view of a driven wheel according to an embodiment of the present invention;

fig. 7 is a schematic structural diagram of a first driving mechanism according to an embodiment of the present invention;

fig. 8 is a schematic structural diagram of a second driving mechanism according to an embodiment of the present invention.

Description of the reference symbols

The device comprises a base 1, a first base 11, a second base 12, a portal frame 2, a first vertical beam 21, a second vertical beam 22, a mounting plate 221, a control cabinet 222, a cross beam 23, a first cross beam 231, a second cross beam 232, a space 233, a first connecting plate 234, a connecting beam 24, a traverse base 3, a rotating mechanism 4, a rotating group 41, a first rotating group 41a, a second rotating group 41b, a third rotating group 41c, a fourth rotating group 41d, a driving motor 411, a rotating shaft 412, a driving wheel 413, a connecting belt 414, a driven wheel 415, a linkage groove 4151, a shaft sleeve 416, an elastic telescopic sleeve 42, a grinding head 5, a first driving mechanism 6, a first mounting base 61, a first motor 62, a first gear 63, a first rack 64, a second driving mechanism 7, a second mounting base 71, a second motor 72, a second gear 73, a second rack 74 and a lifting cylinder 8.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below by referring to the drawings are exemplary intended for explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 1 to 8, the utility model discloses a multi-head intelligent thickness-fixing polishing integrated machine, which comprises a base 1, a portal frame 2, a traversing seat 3, a rotating mechanism 4 and a grinding head 5; the base 1 comprises a first base 11 and a second base 12, wherein the first base 11 is parallel to the second base 12; the portal frame 2 comprises a first vertical beam 21, a second vertical beam 22, a cross beam 23 and a connecting beam 24, the first vertical beam 21 is movably arranged on the first base 11 along the X-axis direction, the second vertical beam 22 is movably arranged on the second base 12 along the X-axis direction, one end of the cross beam 23 is movably arranged on the first vertical beam 21 along the Z-axis direction, the other end of the cross beam 23 is movably arranged on the second vertical beam 22 along the Z-axis direction, the cross beam 23 comprises a first cross beam 231 and a second cross beam 232, a yielding space 233 is formed between the first cross beam 231 and the second cross beam 232, one end of the connecting beam 24 is fixed at the upper end of the first vertical beam 21, and the other end of the connecting beam 24 is fixed at the upper end of the second vertical beam 22; the transverse moving seat 3 can be movably arranged on the cross beam 23; the rotating mechanism 4 is arranged on the traverse seat 3, the rotating mechanism 4 comprises a plurality of groups of rotating groups 41, each group of rotating groups 41 comprises a driving motor 411 and two rotating shafts 412, one driving motor 411 drives the two rotating shafts 412 to rotate synchronously, and each rotating shaft 412 passes through the abdicating space 233 and then is connected with a grinding head 5.

Thus, the utility model relates to a bull intelligence is decided thick and is polished all-in-one, when using, arrange the stone material in 2 bottoms of portal frame in back, portal frame 2 can carry out the removal of X axle direction along first base 11 and second base 12, thereby make portal frame 2 can adjust to suitable position, then sideslip seat 3 carries out the removal of Y axle direction along crossbeam 23, crossbeam 23 removes along Z axle direction, so that sideslip seat 3 that sets up on portal frame 2 aims at the position that the stone material needs the edging, slewing mechanism 4 of being convenient for orders about bistrique 5 and rotates and to the stone material edging.

Through setting up first crossbeam 231 and second crossbeam 232, form the space 233 that steps down between first crossbeam 231 and the second crossbeam 232, when the edging, a plurality of pivots 412 pass this space 233 that steps down and be connected with bistrique 5 for a plurality of bistriques 5 aim at a stone material and need the edging position, and a plurality of bistriques 5 rotate and carry out quick edging to this edging position.

Because slewing mechanism 4 includes the rotatory group 41 of multiunit, every rotatory group 41 of group includes a driving motor 411 and two pivots 412 for during the edging, the rotatory group 41 of multiunit can polish the stone material simultaneously, and a driving motor 411 orders about two pivots 412 to rotate simultaneously, orders about two bistriques 5 synchronous rotations, and the edging efficiency is high.

Optionally, an elastic telescopic sleeve 42 for protecting the rotating shaft 412 is disposed outside the rotating shaft 412. By arranging the elastic telescopic sleeve 42, the elastic telescopic sleeve 42 can protect the part of the rotating shaft 412 exposed to the outside, and prevent external dust from falling between the rotating shaft 412 and the traverse seat 3 to influence the rotation of the rotating shaft 412. Meanwhile, the elastic telescopic sleeve 42 has elasticity, so that when the rotating shaft 412 ascends or descends, the part of the rotating shaft 412 exposed to the outside can be protected.

Furthermore, a mounting plate 221 is arranged on the outer side of the second vertical beam 22, and a control cabinet 222 for controlling the movement of the first vertical beam 21, the second vertical beam 22 and the cross beam 23 is arranged on the mounting plate 221. Through setting up switch board 222, can the synchronous control first vertical beam 21 remove along first base 11 and second vertical beam 22 removes along second base 12, be convenient for first vertical beam 21 and second vertical beam 22 and remove steadily. By providing the control cabinet 222, the cross beam 23 can be controlled to be stably raised or lowered along the first and second vertical beams 21 and 22 so that the grinding heads 5 contact and edge-grind the stone.

As shown in fig. 4 and fig. 5, in this example, each group of rotating groups 41 further includes a driving wheel 413, a connecting belt 414, two driven wheels 415, and two shaft sleeves 416, where the driving wheel 413 is connected to the driving motor 411 and is driven by the driving motor 411 to rotate, the connecting belt 414 is connected to the driving wheel 413 and the two driven wheels 415, each driven wheel 415 is connected to a shaft sleeve 416, and the rotating shaft 412 is driven by the lifting cylinder 8 to be arranged in a lifting manner along the shaft sleeve 416. When the edge grinding is performed on the stone, the driving motor 411 can drive the driving wheel 413 to rotate, one driving wheel 413 rotates to drive the two driven wheels 415 to rotate, the two driven wheels 415 rotate and drive the two rotating shafts 412 to rotate through the two shaft sleeves 416, because the rotating shafts 412 are connected with the grinding head 5, the rotating shafts 412 can drive the grinding head 5 to synchronously rotate, and the grinding head 5 rotates to perform edge grinding on the stone.

As shown in fig. 6, as an example, a coupling groove 4151 is provided in the driven wheel 415, a coupling boss inserted into the coupling groove 4151 is provided on an outer wall of the bushing 416 and a guide groove is provided on an inner wall thereof, and a guide protrusion engaged with the guide groove is provided on an outer wall of the rotation shaft 412.

By providing the linking groove 4151 and the linking boss, when the driven wheel 415 rotates, the shaft sleeve 416 is driven to rotate synchronously by the matching of the linking groove 4151 and the linking boss. Through setting up guide way and direction bead for when axle sleeve 416 rotated, through the cooperation of guide way and direction bead and order about pivot 412 synchronous rotation, bistrique 5 is connected to pivot 412, and pivoted pivot 412 can order about bistrique 5 to rotate, thereby realizes edging the stone material. Meanwhile, the lifting cylinder 8 can stably drive the rotating shaft 412 to lift through the matching of the guide groove and the guide rib.

In some examples, the turning mechanism 4 includes a first rotating group 41a, a second rotating group 41b, a third rotating group 41c, and a fourth rotating group 41d, the first rotating group 41a is disposed opposite to the second rotating group 41b, the first rotating group 41a is disposed side by side with the third rotating group 41c, the second rotating group 41b is disposed side by side with the fourth rotating group 41d, and the third rotating group 41c is disposed opposite to the fourth rotating group 41 d. Through setting up first rotatory group 41a, the rotatory group 41b of second, the rotatory group 41c of third and the rotatory group 41d of fourth for rotatory group 41 is the array distribution, makes bistrique 5 set up comparatively concentratedly, thereby realizes effectively carrying out quick edging, and the edging is efficient to a certain region of stone material.

Further, each lifting cylinder 8 is connected to a shaft 412 and drives the shaft 412 to move up or down in the shaft housing 416. Specifically, the plurality of lifting cylinders 8 are provided, each lifting cylinder 8 is connected to a rotating shaft 412, and the lifting cylinders 8 can stably and effectively drive the rotating shaft 412 to ascend or descend in the shaft sleeve 416. Through setting up lift cylinder 8, pivot 412 orders about its liftable setting along axle sleeve 416 through lift cylinder 8, can conveniently adjust the high position realization of each bistrique 5, and the definite thickness is edging the stone material.

As an example, as shown in fig. 7 and 8, a first driving mechanism 6 is disposed between the first base 11 and the first vertical beam 21, the first driving mechanism 6 includes a first mounting seat 61, a first motor 62, a first gear 63 and a first rack 64, the first motor 62 is disposed on the first mounting seat 61, the first gear 63 is connected to the first motor 62 and driven to rotate by the first motor 62, the first rack 64 is disposed on the first base 11, and the first rack 64 is engaged with the first gear 63. A second driving mechanism 7 is arranged between the second base 12 and the second vertical beam 22, the second driving mechanism 7 includes a second mounting seat 71, a second motor 72, a second gear 73 and a second rack 74, the second motor 72 is arranged on the second mounting seat 71, the second gear 73 is connected with the second motor 72 and driven by the second motor 72 to rotate, the second rack 74 is arranged on the second base 12, and the second rack 74 is meshed with the second gear 73.

When the first vertical beam 21 needs to move, the first motor 62 drives the first gear 63 to rotate, and the first gear 63 is meshed with the first rack 64, so that the first vertical beam 21 is driven to move along the first base 11 by the first gear 63, the position of the first vertical beam 21 is adjusted, and the grinding head 5 can grind the edge of the stone conveniently. When the second vertical beam 22 needs to move, the second motor 72 drives the second gear 73 to rotate, and since the second gear 73 is meshed with the second rack 74, the second vertical beam 22 is driven to move along the second base 12 by the rotating second gear 73, so that the position of the second vertical beam 22 is adjusted, and the grinding heads 5 can grind the stone conveniently. The first motor 62 and the second motor 72 in this example are synchronously controlled by the same control system so that the first vertical beam 21 and the second vertical beam 22 synchronously and stably move forward or forward and backward.

Still further, the beam 23 further includes a first connecting plate 234 and a second connecting plate; one end of the first beam 231 is fixed on the first connecting plate 234, the other end of the first beam 231 is fixed on the second connecting plate, one end of the second beam 232 is fixed on the first connecting plate 234, the other end of the second beam 232 is fixed on the second connecting plate, and the second beam 232 is parallel to the first beam 231. Through setting up first connecting plate 234 and second connecting plate, be convenient for connect first crossbeam 231 and second crossbeam 232, first crossbeam 231 is on a parallel with second crossbeam 232 simultaneously for sideslip seat 3 is stable to carry out the lateral shifting motion along first crossbeam 231 and second crossbeam 232.

In this example, a vertical driving device may be disposed between the cross beam and the first vertical beam and between the cross beam and the second vertical beam, for example, the motor drives the screw rod to rotate, the screw rod rotates to drive the nut seat to ascend or descend, the nut seat is connected to the cross beam, so as to stably drive the cross beam to ascend or descend, and the connection manner between the motor and the screw rod and the nut seat is prior art and is not described herein again.

Compared with the prior art, the utility model discloses a set up first crossbeam 231 and second crossbeam 232, form between first crossbeam 231 and the second crossbeam 232 and step down space 233 for a plurality of pivots 412 are passed and are connected with a plurality of bistriques 5 behind this space 233 that steps down, can carry out quick edging in an area of stone material, and the edging is efficient.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be construed as departing from the scope of the present invention.

Claims (8)

1. The utility model provides a bull intelligence is decided thick polishes all-in-one which characterized in that: comprises a base, a portal frame, a transverse moving seat, a rotating mechanism and a grinding head;

the base comprises a first base and a second base, and the first base is parallel to the second base;

the portal frame comprises a first vertical beam, a second vertical beam, a cross beam and a connecting beam, the first vertical beam is movably arranged on the first base along the X-axis direction, the second vertical beam is movably arranged on the second base along the X-axis direction, one end of the cross beam is movably arranged on the first vertical beam along the Z-axis direction, the other end of the cross beam is movably arranged on the second vertical beam along the Z-axis direction, the cross beam comprises a first cross beam and a second cross beam, an abdicating space is formed between the first cross beam and the second cross beam, one end of the connecting beam is fixed at the upper end of the first vertical beam, and the other end of the connecting beam is fixed at the upper end of the second vertical beam;

the transverse moving seat is movably arranged on the cross beam; the rotating mechanism is arranged on the transverse moving seat and comprises a plurality of groups of rotating groups, each group of rotating groups comprises a driving motor and two rotating shafts, the driving motor drives the two rotating shafts to synchronously rotate, and each rotating shaft penetrates through the abdicating space and then is connected with a grinding head.

2. The multi-head intelligent thickness-fixing and polishing integrated machine according to claim 1, characterized in that: an elastic telescopic sleeve for protecting the rotating shaft is arranged outside the rotating shaft.

3. The multi-head intelligent thickness-setting and polishing integrated machine according to claim 1, characterized in that: the outside that the second erected the roof beam sets up the mounting panel, is used for controlling the switch board that first perpendicular roof beam, second erected roof beam and crossbeam removal on the mounting panel.

4. The multi-head intelligent thickness-setting and polishing integrated machine according to claim 1, characterized in that: each group of rotating groups further comprises a driving wheel, a connecting belt, two driven wheels and two shaft sleeves, the driving wheel is connected with the driving motor and driven by the driving motor to rotate, the connecting belt is connected with the driving wheel and the two driven wheels, each driven wheel is connected with one shaft sleeve, and the rotating shaft is driven by the lifting cylinder to be arranged in a lifting mode along the shaft sleeves.

5. The multi-head intelligent thickness-setting and polishing integrated machine according to claim 4, characterized in that: set up the linkage recess in the follow driving wheel, the axle sleeve outer wall is equipped with the linkage projection of embedding linkage recess and the inner wall is equipped with the guide way, and the pivot outer wall is equipped with the direction bead with guide way complex.

6. The multi-head intelligent thickness-fixing and polishing integrated machine according to claim 1, characterized in that: the rotating mechanism comprises a first rotating group, a second rotating group, a third rotating group and a fourth rotating group, the first rotating group and the second rotating group are arranged oppositely, the first rotating group and the third rotating group are arranged side by side, the second rotating group and the fourth rotating group are arranged side by side, and the third rotating group and the fourth rotating group are arranged oppositely.

7. The multi-head intelligent thickness-fixing and polishing integrated machine according to claim 1, characterized in that: a first driving mechanism is arranged between the first base and the first vertical beam, the first driving mechanism comprises a first mounting seat, a first motor, a first gear and a first rack, the first motor is arranged on the first mounting seat, the first gear is connected with the first motor and driven by the first motor to rotate, the first rack is arranged on the first base, and the first rack is meshed with the first gear; a second driving mechanism is arranged between the second base and the second vertical beam and comprises a second mounting seat, a second motor, a second gear and a second rack, the second motor is arranged on the second mounting seat, the second gear is connected with the second motor and driven to rotate by the second motor, the second rack is arranged on the second base, and the second rack is meshed with the second gear.

8. The multi-head intelligent thickness-fixing and polishing integrated machine according to claim 1, characterized in that: the cross beam also comprises a first connecting plate and a second connecting plate; one end of the first cross beam is fixed on the first connecting plate, the other end of the first cross beam is fixed on the second connecting plate, one end of the second cross beam is fixed on the first connecting plate, the other end of the second cross beam is fixed on the second connecting plate, and the second cross beam is parallel to the first cross beam.

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