CN204843509U - Numerical control door plant engraver - Google Patents

Abstract

The utility model discloses a numerical control door plant engraver, its left stand and right stand divide row in lathe bed both sides to can follow the lathe bed and slide, left stand and right stand top are equipped with the crossbeam, are equipped with gliding X axle slide above that on the crossbeam, are equipped with Z axle slide on the X axle slide, are equipped with gliding preceding main shaft above that on the Z axle slide, the both sides of Z axle slide are equipped with rotary device respectively, and rotary device is used for fixed and rotatory double -end main shaft and saw bit main shaft, rotary device is including impeing jar, propulsion gear strip, swing pinion, rotation axis, rotatory backing plate, bearing and runing rest, swing pinion and rotatory backing plate are connected respectively to runing rest and Z axle slide fixed connection, rotation axis, and the rotation axis passes through the bearing to be fixed on the runing rest, and the swing pinion passes through the propulsion gear strip and connects the propulsion jar. The utility model discloses reduce manufacturing cost, improve smooth finish and machining precision, easy to assemble, debugging and maintenance, machining efficiency improves, and mounting point and fault point are few, fault rate decline.

Description

Numerical control door-plate engraving machine

Technical field

The utility model relates to a kind of numerical control door-plate engraving machine.

Background technology

Existing door-plate engraving machine is that an electro spindle and one group of gang drill device are arranged on Z axis slide plate respectively.Gang drill is mainly used to bore in side opening or door-plate plane and holes, side opening door lock hole, and gang drill rigidity is not enough, can not bear very large radial load, and the thing of the other bending drill head of gang drill often occurs, maintenance rate is very high, gang drill device is all import, and price is very expensive and maintenance cost is very high.Electro spindle is mainly used to hole in door-plate plane, engraving, and cutting, and when cutting door limit, the fineness of its cut surface is very poor, and working (machining) efficiency is very low, cannot meet customer requirement.

Utility model content

For solving the problems of the technologies described above, the utility model provides a kind of numerical control door-plate engraving machine.

To achieve these goals, the utility model adopts following technical scheme.

Numerical control door-plate engraving machine, comprises lathe bed, left column, right column, crossbeam, X-axis slide plate, Z axis slide plate; Described left column and right column are respectively in lathe bed both sides, and can slide along lathe bed, be provided with crossbeam above described left column and right column, crossbeam is provided with the X-axis slide plate that can slide thereon, X-axis slide plate is provided with Z axis slide plate, and Z axis slide plate is provided with the forward spindle that can slide thereon; The both sides of described Z axis slide plate are respectively equipped with whirligig, and whirligig is used for fixing and rotating double end main shaft and saw blade main shaft, and saw blade main shaft is provided with single head rotating saw; Described whirligig comprises propulsion cylinder, advances tooth bar, swing pinion, rotating shaft, rotary cushion board, bearing and runing rest; Runing rest is fixedly connected with Z axis slide plate, and rotating shaft connects swing pinion and rotary cushion board respectively, and rotating shaft is fixed on runing rest by bearing, and swing pinion connects propulsion cylinder by advancing tooth bar.

As further improvement of the utility model, described whirligig is provided with the positioning cylinder of locking double end main shaft and saw blade main shaft.

Balance cylinder is provided with above described Z axis slide plate.

Front electric appliance box is provided with above described balance cylinder.

Described lathe bed side is provided with drag chain support.

Described left column and right column realize sliding on lathe bed by gear, tooth bar, guide rail and Y-axis servomotor.

Described right column is provided with limit switch.

Described forward spindle is advanced close to processed door-plate fast by stroke cylinder.

The dress of described Z slide plate both sides double end main shaft on the spinning device or single head rotating saw advance close to processed door-plate fast respectively by stroke cylinder.

The dress of described Z slide plate both sides double end main shaft on the spinning device or single head rotating saw are located respectively and are realized by Z axis lead screw transmission.

Described lathe bed is provided with the adsorption table face of adsorption tooling, and adsorption table face is provided with left locating piece, prelocalization block.

Be provided with X-axis servo support above described crossbeam, X-axis servo support is provided with X-axis servomotor.

Described X-axis slide plate is provided with Z axis servomotor.

Described X-axis slide plate is provided with dust leg support.

Described crossbeam is provided with X-axis limited block.

The utility model scheme be exactly both sides on the Z axis slide plate of mobile gantry respectively add one can 0-90 ° of automatic rotating device in X, Y plane, left side automatic rotating device is installed a saw blade main shaft and single head rotating saw (cutting processing for door-plate), and a double end main shaft (for boring side opening and opening lock-hole of door board) has been installed on the automatic rotating device on right side.Still be installed with in the middle of Z axis slide plate and the forward spindle of X, Y plane orthogonal (on door-plate the engraving of plane and boring).

The whirligig working method of Z axis slide plate both sides is: fixed on the rotary shaft by rotary cushion board, be assembled together by bearing and runing rest and load swing pinion on the rotary shaft, tooth bar is connected with the piston rod of propulsion cylinder, keep rack and pinion engagement, fixing cylinder, guide rail slide block tooth bar assembly is contained in runing rest and keeps rack and pinion engagement, fixing cylinder, guide rail slide block tooth bar assembly is contained on runing rest, by runing rest, is fixed on by whirligig on Z slide plate.When system sends signal propulsion cylinder band carry-over bar forward-reverse by gear, tooth bar engaged transmission makes gear 0-90 ° rotarily drive rotating shaft, rotary cushion board 0-90 ° of rotation.The rotary cushion board of left rotation and right rotation device fixes double end main shaft or single head rotating saw respectively, and when double end main shaft or single head rotating saw rotate to the position of setting in XY plane, positioning cylinder work (by programme-control) is by double end main shaft or the locking of single head rotating saw.Double end main shaft or single head rotating saw just can machined.

The said structure overall weight be arranged on Z axis slide plate is laid particular stress on, to the technical program can have a negative impact as: sagging, distortion, poor rigidity etc.Considering the impact of factors, other parts have also been made corresponding amendment, and (1) broadens the crossbeam at gantry.(2) guide rail, slide block selects large gauge.(3) for preventing the sagging impact on Z-direction leading screw, Z axis slide plate adds two balance cylinders.

Numerical control door-plate engraving machine of the present utility model adjusts the processing technology of door-plate, the boring of door limit (sidetracking hole) or open keyhole, machines by (with can a 90-degree rotation device) double end main shaft.The cutting on door limit has been cut by (with can 90-degree rotation device) rotating saw blade.The defect (shortcoming) of existing equipment is obtained for solution.This equipment in occupation of absolute advantage, is deeply subject to the welcome of client in the ratio of performance to price.

The beneficial effects of the utility model are, considerably reduce device fabrication cost, shorten the production cycle, improve fineness and the machining accuracy of door-plate processing.The installation of more convenient workman, debugging and maintenance.The efficiency of processing door-plate obtains and increases substantially.Mounting points decreases, and trouble point has been lacked, and equipment failure rate is significantly declined.The ratio of performance to price in market, occupies absolute advantage, deeply favors by domestic and international client.

Certainly, implement arbitrary product of the present utility model might not need to reach above-described all advantages simultaneously.

Accompanying drawing explanation

Fig. 1 is the utility model overall structure schematic diagram.

Fig. 2 is the left view of Fig. 1.

Fig. 3 is the top view of Fig. 1.

Fig. 4 is rotary device structure schematic diagram.

Fig. 5 is the A-A sectional view of Fig. 4.

Wherein, 1, lathe bed; 2, drag chain support; 3, tooth bar; 4, guide rail; 5, right column; 6, limit switch; 7, double end main shaft; 8, whirligig; 81, propulsion cylinder; 82, tooth bar is advanced; 83, swing pinion; 84, rotating shaft; 85, rotary cushion board; 86, bearing; 87, runing rest; 88, positioning cylinder; 9, forward spindle; 10, stroke cylinder; 11, saw blade main shaft; 12, Z axis slide plate; 13, left column; 14, frock; 15, left locating piece; 16, crossbeam; 17, X-axis slide plate; 18, X-axis servo support; 19, X-axis servomotor; 20, Z axis servomotor; 21, dust leg support; 22, balance cylinder; 23, front electric appliance box; 24, prelocalization block; 25, X-axis limited block; 26, adsorption table face; 27, Y-axis servomotor.

Detailed description of the invention

Be clearly and completely described the technical solution of the utility model below in conjunction with accompanying drawing, obviously, described embodiment is the utility model part embodiment, instead of whole embodiments.Based on the embodiment in the utility model, those of ordinary skill in the art are not making the every other embodiment obtained under creative work prerequisite, all belong to the scope of the utility model protection.

In description of the present utility model, it should be noted that, orientation or the position relationship of the instruction such as term " " center ", " on ", D score, "left", "right", " vertically ", " level ", " interior ", " outward " they be based on orientation shown in the drawings or position relationship; be only the utility model and simplified characterization for convenience of description; instead of instruction or imply the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second ", " the 3rd " only for describing object, and can not be interpreted as instruction or hint relative importance.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be mechanical connection, also can be electrical connection; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals.For the ordinary skill in the art, concrete condition the concrete meaning of above-mentioned term in the utility model can be understood.

As Figure 1-Figure 5, numerical control door-plate engraving machine, comprises lathe bed 1, left column 13, right column 5, crossbeam 16, X-axis slide plate 17, Z axis slide plate 12; Described left column 13 and right column 5 are respectively in lathe bed 1 both sides, and can slide along lathe bed 1, crossbeam 16 is provided with above described left column 13 and right column 5, crossbeam 16 is provided with the X-axis slide plate 17 that can slide thereon, X-axis slide plate 17 is provided with Z axis slide plate 12, Z axis slide plate 12 is provided with the forward spindle 9 that can slide thereon, and described forward spindle 9 is driven by stroke cylinder 10; The both sides of described Z axis slide plate 12 are respectively equipped with whirligig 8, and whirligig 8 is for fixing and rotating double end main shaft 7 and saw blade main shaft 11, and saw blade main shaft 11 is provided with single head rotating saw; Described whirligig 8 comprises propulsion cylinder 81, advances tooth bar 82, swing pinion 83, rotating shaft 84, rotary cushion board 85, bearing 86 and runing rest 87; Runing rest 87 is fixedly connected with Z axis slide plate 12, and rotating shaft 84 connects swing pinion 83 and rotary cushion board 85 respectively, and rotating shaft 84 is fixed on runing rest 87 by bearing 86, and swing pinion 83 connects propulsion cylinder 81 by advancing tooth bar 82.Described whirligig 8 is provided with the positioning cylinder 88 of locking double end main shaft 7 and saw blade main shaft 11.

Be provided with balance cylinder 22 above described Z axis slide plate 12, above described balance cylinder 22, be provided with front electric appliance box 23.

Described lathe bed 1 side is provided with drag chain support 2, and described left column 13 and right column 5 realize sliding on lathe bed 1 by gear, tooth bar 3, guide rail 4 and Y-axis servomotor 27, and right column 5 is provided with limit switch 6.Described lathe bed 1 is provided with the adsorption table face 26 of adsorption tooling 14, and adsorption table face 26 is provided with left locating piece 15, prelocalization block 24.

Be provided with X-axis limited block 25 and X-axis servo support 18 above described crossbeam 16, X-axis servo support 18 is provided with X-axis servomotor 19.

Described X-axis slide plate 17 is provided with Z axis servomotor 20 and dust leg support 21.

By reference to the accompanying drawings detailed description of the invention of the present utility model is described although above-mentioned; but the restriction not to the utility model protection domain; one of ordinary skill in the art should be understood that; on the basis of the technical solution of the utility model, those skilled in the art do not need to pay various amendment or distortion that creative work can make still within protection domain of the present utility model.

Claims (10)

1. numerical control door-plate engraving machine, is characterized in that, comprises lathe bed, left column, right column, crossbeam, X-axis slide plate, Z axis slide plate; Described left column and right column are respectively in lathe bed both sides, and can slide along lathe bed, be provided with crossbeam above described left column and right column, crossbeam is provided with the X-axis slide plate that can slide thereon, X-axis slide plate is provided with Z axis slide plate, and Z axis slide plate is provided with the forward spindle that can slide thereon; The both sides of described Z axis slide plate are respectively equipped with whirligig, and whirligig is used for fixing and rotating double end main shaft and saw blade main shaft, and saw blade main shaft is provided with single head rotating saw; Described whirligig comprises propulsion cylinder, advances tooth bar, swing pinion, rotating shaft, rotary cushion board, bearing and runing rest; Runing rest is fixedly connected with Z axis slide plate, and rotating shaft connects swing pinion and rotary cushion board respectively, and rotating shaft is fixed on runing rest by bearing, and swing pinion connects propulsion cylinder by advancing tooth bar.

2. numerical control door-plate engraving machine as claimed in claim 1, is characterized in that, described whirligig is provided with the positioning cylinder of locking double end main shaft and saw blade main shaft.

3. numerical control door-plate engraving machine as claimed in claim 1, is characterized in that, be provided with balance cylinder above described Z axis slide plate.

4. numerical control door-plate engraving machine as claimed in claim 1, is characterized in that, described left column and right column realize sliding on lathe bed by gear, tooth bar, guide rail and Y-axis servomotor.

5. numerical control door-plate engraving machine as claimed in claim 1, it is characterized in that, described forward spindle is advanced close to processed door-plate fast by stroke cylinder.

6. numerical control door-plate engraving machine as claimed in claim 1, is characterized in that, the dress of described Z slide plate both sides double end main shaft on the spinning device or single head rotating saw are located respectively and realized by Z axis lead screw transmission.

7. numerical control door-plate engraving machine as claimed in claim 1, it is characterized in that, described lathe bed is provided with the adsorption table face of adsorption tooling, and adsorption table face is provided with left locating piece, prelocalization block.

8. numerical control door-plate engraving machine as claimed in claim 1, it is characterized in that, be provided with X-axis servo support above described crossbeam, X-axis servo support is provided with X-axis servomotor.

9. numerical control door-plate engraving machine as claimed in claim 1, it is characterized in that, described X-axis slide plate is provided with Z axis servomotor.

10. numerical control door-plate engraving machine as claimed in claim 1, it is characterized in that, described X-axis slide plate is provided with dust leg support.