CN203650201U - Numerically-controlled special-shaped stone processing center - Google Patents

Abstract

The utility model discloses a numerically-controlled special-shaped stone processing center. The numerically-controlled special-shaped stone processing center comprises a base. A high foundation wall and a low foundation wall are arranged on the base. Long tracks are laid on the high foundation wall and the low foundation wall. Racks are arranged in the long tracks. An integral rack moves in the long tracks through a Y-axis movement and transmission mechanism in the Y-axis direction. The integral rack is provided with a cross beam rack and a machine body vertical rack. Linear guide rails are arranged on the cross beam rack. A set of sliding blocks are arranged on the linear guide rails in a sleeved mode and fixedly connected with a sliding base of a lifting host machine. The lifting host machine moves along the linear guide rails through an X-axis movement and transmission mechanism in the X-axis direction. A main abrasive disk headstock is arranged in the lifting host machine and moves along the lifting host machine through a Z-axis movement and transmission mechanism in the Z-axis direction. A main shaft abrasive disk head is driven by a rotating mechanism to rotate and drive an abrasive disk to integrally rotate for cutting workpieces. The numerically-controlled special-shaped stone processing center is higher in grinding efficiency and capable of carrying out automatic grinding and machining and automatically replacing different tools used in different procedures, and needs fewer watch men.

Description

Numerical control special Machining Center for stone material

Technical field

The utility model relates to processing of stone machinery field, relates to stone machining equipment, concrete relevant with a kind of numerical control special Machining Center for stone material, is particularly applied to and automatically processes relevant for multiple tombstone high efficiency grindings in surface.

Background technology

Even to this day, at stone machining equipment, particularly be applied in the lathe classification of the automatic processing of tombstone grinding, mostly adopt single bistrique to carry out grinding work, to cause like this working (machining) efficiency not high, in process, do not arrange and can automatically identify processing object, therefore cannot accomplish to arrange corresponding processing route by self-intelligent diagnostics.Current machining state, still in often processing an object, just needs manually to arrive controller display screen, then resets and put new processing route, thereby caused poor efficiency, and expensive, consumption is artificial.

Utility model content

The purpose of this utility model is to solve the problem of prior art, and a kind of numerical control special Machining Center for stone material of high efficiency automatic processing is provided.

For reaching above-mentioned purpose, the utility model adopts following technical scheme:

Numerical control special Machining Center for stone material, comprising:

Pedestal, pedestal is provided with height foot wall, on height foot wall, is equipped with long track, in long track, tooth row is housed, and integral-rack moves along Y direction in long track by Y-axis movement and transmission mechanism;

Described Y-axis movement and transmission mechanism is: on integral-rack, be fixed with three axle steer devices, in three axle steer devices, be fixed with Y-axis mobile motor, the rotating shaft of Y-axis mobile motor by power by gear transform distribute to another two be 90 degree arrange power transmission shaft, end part of driving shaft is provided with driven wheel, and driven wheel and tooth row engaged transmission drive integral-rack to move in Y direction along long track;

Integral-rack is provided with crossbeam frame and body vertical frame, and crossbeam frame is provided with line rail, is arranged with one group of slide block on line rail, and slide block and lifting main frame slide are affixed, and lifting main frame moves in X-direction by X-axis movement and transmission mechanism rail along the line;

Described X-axis movement and transmission mechanism is: in crossbeam frame, be fixed with decelerator, decelerator is provided with drive motors, drive motors drives the driving wheel of Timing Belt to rotate, the other end of the driven pulley fixed cross beam frame of Timing Belt, the stage casing of Timing Belt and lifting main frame slide are affixed, drive lifting main frame rail along the line to move in X-direction;

Main mill headstock is housed in lifting main frame, and main mill headstock moves in Z-direction along lifting main frame by Z axis movement and transmission mechanism;

Described Z axis movement and transmission mechanism is: in main frame slide, be socketed with lifting stock, lifting stock top is fixed with lifting top board, in lifting top board, be provided with lifting decelerator, lifting decelerator is driven by lifting motor, and main mill headstock and lifting stock are affixed and move in Z-direction together with the first body of main shaft mill;

Main shaft mill head rotates under the drive of rotating mechanism, and described rotating mechanism is: on main mill headstock, be fixed with main cutting motor, main cutting motor drives main mill headstock together with mill unitary rotation cutting workpiece by transmission mechanism.

Further, in body vertical frame, being provided with tool magazine assembly coordinates and changes cutter head group together with main shaft mill head with main mill headstock, described tool magazine assembly comprises the big disk tool magazine being arranged in body vertical frame, in big disk tool magazine, store many group cutter head groups, described big disk tool magazine turns to the position of main shaft mill head by being fixed under the driving of the tool magazine electric rotating machine in body vertical frame, and is screwed by removable cutter under the driving of mechanism and change cutter head group.

Adopt technique scheme, the utility model is when lay the stone of multiple wait processing planes in specific machining area, after the utility model equipment body is walked from the upper side, on main frame, be provided with sensor, can scan, gather the spatial positional information that is placed in the object to be processed in machining area.And above-mentioned information exchange is crossed after control system processing, can be carried out automatic grinding processing and automatically change the cutter that each operation is different by intelligent set processing route, few manually on duty.

Brief description of the drawings

Accompanying drawing described herein is used to provide further understanding of the present utility model, forms a part of the present utility model, and schematic description and description of the present utility model is used for explaining the utility model, does not form improper restriction of the present utility model.In the accompanying drawings:

Fig. 1 is the utility model complete machine perspective view;

Fig. 2 is the utility model complete machine floor map;

Fig. 3 is the utility model partial schematic diagram one;

Fig. 4 is the utility model partial schematic diagram two;

Fig. 5 is the utility model partial schematic diagram three;

Fig. 6 is the utility model partial schematic diagram four;

Fig. 7 is the utility model partial schematic diagram five.

Detailed description of the invention

In order to make technical problem to be solved in the utility model, technical scheme and beneficial effect clearer, clear, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the utility model, and be not used in restriction the utility model.

As shown in Fig. 1-Fig. 7, numerical control special Machining Center for stone material described in the utility model, comprising:

Pedestal 1, pedestal 1 is provided with height foot wall 2, and height is equipped with long track 3 on foot wall 2, in long track 3, tooth row 4 is housed, and integral-rack 5 moves along Y direction long track 3 is interior by Y-axis movement and transmission mechanism;

Described Y-axis movement and transmission mechanism is: on integral-rack 5, be fixed with three axle steer devices 6, in three axle steer devices 6, be fixed with Y-axis mobile motor 7, the rotating shaft of Y-axis mobile motor 7 by power by gear transform distribute to another two be 90 degree arrange power transmission shaft 8, power transmission shaft 8 ends are provided with driven wheel 9, and driven wheel 9 drives integral-rack 5 to move in Y direction along long track 3 with tooth row 4 engaged transmission;

Integral-rack 5 is provided with crossbeam frame 10 and body vertical frame 11, crossbeam frame 10 is provided with line rail 12, on line rail 12, be arranged with one group of slide block, 13 slide blocks 13 affixed with lifting main frame slide 14, lifting main frame 15 moves in X-direction by X-axis movement and transmission mechanism rail 12 along the line;

Described X-axis movement and transmission mechanism is: in crossbeam frame 10, be fixed with decelerator 16, decelerator 16 is provided with drive motors 17, drive motors 17 drives the driving wheel of Timing Belt 18 to rotate, the other end of the driven pulley fixed cross beam frame 10 of Timing Belt, the stage casing of Timing Belt 18 and lifting main frame slide 14 are affixed, drive lifting main frame 15 rails 12 along the line to move in X-direction;

Main mill headstock 19 is housed in lifting main frame 15, and main mill headstock 19 moves in Z-direction along lifting main frame 15 by Z axis movement and transmission mechanism;

Described Z axis movement and transmission mechanism is: on main frame slide 14, be arranged with lifting stock 20, lifting stock 20 tops are fixed with lifting top board 21, in lifting top board 21, be provided with lifting decelerator 22, lifting decelerator 22 is driven by lifting motor 23, and main mill headstock 19 is affixed and move in Z-direction together with main shaft mill head 24 one with lifting stock 20;

Main shaft mill head 24 rotates under the drive of rotating mechanism, and described rotating mechanism is: on main mill headstock 19, be fixed with main cutting motor 25, main cutting motor 25 drives main mill headstock 19 together with mill 26 one rotary cutting workpiece by transmission mechanism.

In body vertical frame 11, being provided with tool magazine parts coordinates and changes cutter head group together with main shaft mill head 24 with main mill headstock 19, described tool magazine parts comprise the big disk tool magazine 27 being arranged in body vertical frame 11, in big disk tool magazine, store many group cutter head groups 28, described big disk tool magazine 27 turns to the position of main shaft mill head 24 by being fixed under the driving of the tool magazine electric rotating machine 29 in body vertical frame 11, and is screwed by removable cutter under the driving of mechanism 30 and change cutter head group.

The utility model, in the processing space ground of erection unit, is provided with twice height foot wall, lays two long steel tracks on this twice foot wall, in each steel track, is equipped with a rectangular tooth row.Integral device frame is connected by eight rollers and steel track.In body, be provided with three axle steer devices, wherein an axle imports the rotation function of motor into and is transformed and distributed to another two output shafts by gear, these two output shaft ends are all furnished with driven wheel, and driven wheel can drive whole body to move back and forth in Y direction after engaging with the tooth row of steel track.On body, be provided with crossbeam frame and body vertical frame, in crossbeam frame, there are two rolling linear guides of laying, on guide rail, there are four slide blocks, each slide block and lifting main frame slide are connected, lifting main frame can do X-direction and move back and forth in crossbeam frame, and main shaft mill headstock is housed in lifting main frame, and main shaft mill headstock does Z-direction and moves back and forth together with lifting main frame, in mill headstock parts, be provided with the main motor of grinding, and grinding is done in the rotation of drive shaft mill head.Main shaft mill head output is equipped with four knife bars, and knife bar front end is provided with one section and connects screw thread, and the setting of four knife bars is, one of pivot, uniform three around center, every knife bar can coil thread connection with sharpening, its mode is or connects three cutterheads, or connects a cutterhead.In body vertical frame, be provided with big disk tool magazine, in tool magazine, can store eight groups of cutter heads, every group of cutter head or three for a group or a be one group, each group cutter head can exchange with the cutter head being arranged in main shaft simultaneously, in tool magazine, be provided with the de-cutter of eight assemblings and screw mechanism, its action function is three cutterheads or the cutterhead that can accurately simultaneously outward winding in main shaft, also can accurately screw in three cutterheads or a cutterhead in main shaft simultaneously.Tool magazine big disk is driven by stepper motor, rotates 45 ° at every turn.

The utility model is compared with stone machining equipment of the same type, grinding benefit is higher, can automatically gather and wait for the spatial positional information of processing object, by analysis, after diagnosis, can carry out automatic grinding processing and automatically change the cutter that each operation is different by intelligent set processing route, few manually on duty.

Above-mentioned explanation illustrates and has described preferred embodiment of the present utility model, as previously mentioned, be to be understood that the utility model is not limited to disclosed form herein, should not regard the eliminating to other embodiment as, and can be used for various other combinations, amendment and environment, and can, in utility model contemplated scope described herein, change by technology or the knowledge of above-mentioned instruction or association area.And the change that those skilled in the art carry out and variation do not depart from spirit and scope of the present utility model, all should be in the protection domain of the utility model claims.

Claims (2)

1. numerical control special Machining Center for stone material, is characterized in that: comprising:

Pedestal (1), pedestal (1) is provided with height foot wall (2), on height foot wall (2), be equipped with long track (3), tooth row (4) is housed in long track (3), integral-rack (5) moves along Y direction in long track (3) by Y-axis movement and transmission mechanism;

Described Y-axis movement and transmission mechanism is: on integral-rack (5), be fixed with three axle steer devices (6), in three axle steer devices (6), be fixed with Y-axis mobile motor (7), the rotating shaft of Y-axis mobile motor (7) by power by gear transform distribute to another two be 90 degree arrange power transmission shaft (8), power transmission shaft (8) end is provided with driven wheel (9), and driven wheel (9) drives integral-rack (5) to move in Y direction along long track (3) with tooth row (4) engaged transmission;

Integral-rack (5) is provided with crossbeam frame (10) and body vertical frame (11), crossbeam frame (10) is provided with line rail (12), on line rail (12), be arranged with one group of slide block (13) slide block (13) affixed with lifting main frame slide (14), lifting main frame (15) moves in X-direction by X-axis movement and transmission mechanism rail along the line (12);

Described X-axis movement and transmission mechanism is: in crossbeam frame (10), be fixed with decelerator (16), decelerator (16) is provided with drive motors (17), drive motors (17) drives the driving wheel of Timing Belt (18) to rotate, the other end of the driven pulley fixed cross beam frame (10) of Timing Belt, the stage casing of Timing Belt (18) and lifting main frame slide (14) are affixed, drive lifting main frame (15) rail (12) along the line to move in X-direction;

Main mill headstock (19) is housed in lifting main frame (15), and main mill headstock (19) moves in Z-direction together with lifting main frame (15) by Z axis movement and transmission mechanism;

Described Z axis movement and transmission mechanism is: in main frame slide (14), be socketed with lifting stock (20), lifting stock (20) top is fixed with lifting top board (21), in lifting top board (21), be provided with lifting decelerator (22), lifting decelerator (22) is driven by lifting motor (23), and main mill headstock (19) and lifting stock (20) are affixed and move in Z-direction together with main shaft mill head (24) one;

Main shaft mill head (24) rotates under the drive of rotating mechanism, described rotating mechanism is: on main mill headstock (19), be fixed with main cutting motor (25), main cutting motor (25) drives main mill headstock (19) together with mill (26) one rotary cutting workpiece by rotating mechanism.

2. numerical control special Machining Center for stone material as claimed in claim 1, it is characterized in that: in body vertical frame (11), be provided with tool magazine assembly and coordinate and change blade part together with main shaft mill head (24) with main mill headstock (19), described tool magazine parts comprise the big disk tool magazine (27) being arranged in body vertical frame (11), in big disk tool magazine, store many group cutter head groups (28), described big disk tool magazine (27) is by being fixed on the position that turns to main shaft mill head (24) under the driving of the tool magazine electric rotating machine (29) in body vertical frame (11), and screwed by removable cutter under the driving of mechanism (30) and change cutter head group.

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