CN203636034U

CN203636034U - Three-axis multi-head gantry machining equipment

Info

Publication number: CN203636034U
Application number: CN201320742282.3U
Authority: CN
Inventors: 刘海涛; 夏政; 董明
Original assignee: TAICANG WEGOMA MACHINERY EQUIPMENT CO Ltd
Current assignee: TAICANG WEGOMA MACHINERY EQUIPMENT CO Ltd
Priority date: 2013-11-22
Filing date: 2013-11-22
Publication date: 2014-06-11
Anticipated expiration: 2023-11-22

Abstract

The utility model discloses three-axis multi-head gantry machining equipment. The three-axis multi-head gantry machining equipment comprises a machine tool bed, a traveler gantry, a compact modularization clamp, a Z-directional feeding moving head and a Y-directional feeding moving head, wherein X-directional linear guide rails are arranged on the machine tool bed, the traveler gantry is arranged on the X-directional linear guide rails, and a machine tool table-board is arranged above the traveler gantry; the compact modularization clamp is located on the machine tool table-board; Y-directional guide rails and Z-directional guide rails are arranged on the traveler gantry; the Y-directional feeding moving head is arranged on the Y-directional guide rails; and the Z-directional feeding moving head is arranged on the Z-directional guide rails. The three-axis multi-head gantry machining equipment has the advantages that the all-directional simultaneous machining is completed by changing machining thought and arranging the multiple moving heads according to the machining idea of fixing sectional materials and moving machines, the comprehensive machining is completed through one-time location, the machining accuracy is high, and the machining speed is fast.

Description

Three axle bull gantry process equipments

Technical field

The utility model relates to the process equipment in aluminium section bar deep processing field, door and window curtain wall manufacture field, specifically three axle bull gantry process equipments of the universal processing in a kind of implementation space.

Background technology

At present, in aluminium section bar door and window processing industry, Milling Process for aluminium section bar is processed as main form processing with single single sectional, for complex shapes, need to process multiple end faces, processing is taking locking equipment ejector half material as main machining based conception, the end face of a locus of the every processing of section bar just need to take out from process equipment, repositions and adjusts location machining angle, again processing, process operation complexity, working (machining) efficiency is low;

Moreover, due to the particularity of the industry, obtain required precision for milling on the low side, it exists the main cause of this problem to be: the precision that requires again product under single single sectional processing form, production efficiency just becomes and lowly, cannot meet factory workization at a high speed and produce.

Utility model content

Utility model object: be the deficiency existing for prior art, a kind of three axle bull gantry process equipments that can carry out many section bar processings of single are provided, this equipment can be realized the comprehensive processing simultaneously of many section bars simultaneously.

Technical scheme: for achieving the above object, the utility model provides a kind of three axle bull gantry process equipments, comprising: bed piece, traveller gantry, compact module fixture, Z-direction feeding slip-on head, Y-direction feeding slip-on head; The annexation of above-mentioned each parts is: described bed piece is provided with X to line slideway, and described traveller gantry is installed on X on line slideway, and described traveller gantry top is provided with lathe table top; Described compact module fixture is positioned on lathe table top; Described traveller gantry is provided with Y-direction guide rail and Z-direction guide rail, and Y-direction feeding slip-on head is installed on Y-direction guide rail; Described Z-direction feeding slip-on head is installed on Z-direction guide rail.

In the utility model, also comprise servomotor; Described traveller gantry, Z-direction feeding slip-on head, Y-direction feeding slip-on head move on guide rail by driven by servomotor; In the utility model, adopt the power source of servomotor as traveller gantry, Z-direction feeding slip-on head, Y-direction feeding slip-on head, more stable, more energy-conservation, product longer service life.

The operation principle of above-mentioned three axle bull gantry process equipments is: driven by servomotor traveller gantry moves to line slideway along X, realize X displacement upwards, traveller gantry X to motion time drive be positioned at the Z-direction feeding slip-on head of traveller gantry top and Y-direction feeding slip-on head at X to motion; Driven by servomotor Y-direction feeding slip-on head is realized Y-direction displacement along Y-direction guide rail movement, and Z-direction feeding slip-on head is realized Z-direction displacement along Z-direction guide rail movement, by the ingehious design of three guide rail positions, realize any adjustment of X, Y, Z-direction Working position, can realize the processing of total space optional position, processing is not subject to spatial limitation, and is provided with Z-direction feeding slip-on head and Y-direction feeding slip-on head simultaneously, two slip-on heads are processed simultaneously, have greatly improved the efficiency of processing.

In the utility model, be also provided with counterweight cylinder, described counterweight cylinder one end is fixed on described traveller gantry, and the other end is connected with Z-direction feeding slip-on head, described counterweight cylinder operation principle is: device fabrication adds man-hour, provide pressurized air source by air pump and adjust to required force value through pressure regulator valve, offset Z-direction feeding slip-on head Action of Gravity Field and guarantee that the above Z-direction feeding slip-on head of lathe is in suspended state, because Z-direction feeding slip-on head adds the pressure producing man-hour higher than provided bleed pressure, by adopt fast-discharge valve drain rapidly increase air pressure, simultaneously in this process balance the huge inertia of gravity factor, extended the service life of each parts by counterweight cylinder, make described Z-direction feeding slip-on head operation more steady, and can effectively reduce the force value of source air pressure.

In three axle bull gantry process equipments described in the utility model, to process by realizing many section bars simultaneously, improve working (machining) efficiency, just need to described compact module fixture be set according to the radical of fabircated shapes, make described compact module fixture can clamp many section bars, in order further to improve working (machining) efficiency, clamping position is simpler, quick, accurate simultaneously, process velocity is just faster, and crudy is just more guaranteed.

To achieve these goals, described compact module jig Design becomes modularization, by multiple fixture module compositions, and the every corresponding module of section bar, several section bars are processed simultaneously and are just placed several fixture modules.

Described compact module fixture comprises: end standard and at least one fixture module; Described end standard is positioned at one end of fixture module;

Institute's fixture module comprises: fixture fixed reference end, fixture active edges, fixture movable block, fixture movable carriage, compression cylinder, guide shaft, lower bolster, mistake gas circuit backing plate;

Described fixture fixed reference end is fixed on base plate by lower bolster and mistake gas circuit backing plate; Described compression cylinder is connected with fixture movable carriage by guide shaft; Described fixture movable carriage is installed on lower bolster and crosses on gas circuit backing plate; Described fixture movable carriage upper surface is provided with horizontal concrete chute, and described fixture active edges lower end is provided with the vertical protrusion suitable with horizontal concrete chute; Described fixture active edges is carried out horizontal movement by vertical protrusion along horizontal concrete chute; The inner side of described fixture active edges is provided with vertical chute; The described fixture movable block back side is provided with the horizontal projection suitable with vertical chute; Described fixture movable block is in vertical motion along vertical chute by horizontal projection.

Fixture module in the fixture of compact module described in the utility model is taking the gripping range limit that meets rapidoprint size as basis, while replacing for the processing of differential profiles, without changing fixture, only need to adjust the relative position of benchmark portion and the correspondingly-sized of fixture module, fixture module can complete clamping in required clamping profile size is all encompassed in; Each, fixture module is all equipped with independent compression cylinder, stretching motion control by compression cylinder realizes the clamping of fixture and loosens, when can meeting many section bars, the modular setting of fixture clamps, moreover because fixture is strip, can multiple fixture modules be set according to the length of section bar, while having avoided clamping, the generation of the too small phenomenon of area is pressed from both sides and clamped to void.

The feeding slip-on head of Z-direction described in the utility model and Y-direction feeding slip-on head can arrange various processing apparatus, as: precessing saw, gear, milling cutter, hairbrush etc.; Choosing as follows the most frequently used milling cutter is example.

Slip-on head in described Z-direction feeding slip-on head and Y-direction feeding slip-on head preferably adopts multiaxis milling; Described multiaxis milling comprises: drive motors, shaft coupling, driving wheel, driven pulley, Timing Belt, driven shaft, driving shaft, bearing are installed casing, milling cutter; Described drive motors is connected with driving shaft by shaft coupling; On described driving shaft, fix driving wheel, driving wheel is connected with driven pulley by Timing Belt; Described driven pulley is fixedly connected with driven shaft; Described driving shaft, driven shaft are installed casing through bearing and are fixedly connected with milling cutter.

The operation principle of above-mentioned multiaxis milling is as follows: drive motors drives shaft coupling motion, shaft coupling drives the driving shaft rotation being attached thereto, driving shaft drives driving wheel rotation fixed thereon, under the drive of Timing Belt, driving wheel drives driven pulley motion, and driven pulley drives the driven shaft motion being attached thereto, and milling cutter is all equipped with in driving shaft and driven shaft bottom, the location that driving shaft and driven shaft are installed casing by bearing ensures not rotate skew in motion, has ensured machining accuracy.

The processing method that also discloses three axle bull gantry process equipments in the utility model, concrete steps are as follows:

(A), according to gripping range and the positioning datum of the shape of required fabircated shapes and width adjustment compact module fixture, determine the group number of compact module fixture according to the radical of fabircated shapes, a corresponding one group of fixture of fabircated shapes simultaneously;

(B) adjust after compact module fixture, many section bars to be processed are sent in compact module fixture, fixture fixed reference end, the end standard of section bar by abut against clip placed the origin reference location of realizing section bar, and compression cylinder drives fixture active edges along the fixture movable carriage clamping section bar that moves simultaneously;

(C) traveller gantry moves to line slideway along the X on bed piece, realizes the gantry machining structure of fixed bed body driven portal, and driven by servomotor traveller gantry is realized directions X motion; On the basis of traveller gantry, Y-direction guide rail and Z-direction guide rail are set thereon, realize Y-direction feeding slip-on head, the Y-direction of Z-direction feeding slip-on head and the movement of Z-direction by driven by servomotor; In the moving process of X, Y, Z-direction, Y-direction feeding slip-on head, Z-direction feeding slip-on head complete the processing of section bar;

(D) after machining, portal frame is return zero-bit, unclamps compression cylinder, takes out the section bar having machined; Complete the processing of section bar.

Beneficial effect: the utlity model has following advantage:

1, in the utility model, process thinking by change, with the machining based conception of the material motivation tool of shaping, complete comprehensive processing simultaneously by multiple slip-on heads are set, complete comprehensive processing by one-time positioning, machining accuracy is high, and speed is fast;

2, the utility model replaces in the past the processing mode of single single sectional Milling Process in the past with many section bar processing modes of single, improves working (machining) efficiency, and machine operation is easy, easy to maintenance;

3, in the utility model because the modular theory of clamping position, in time, processes number and adjusts quickly and easily as required, has improved mechanical versatility, and processing applicability;

4, fixture described in the utility model is versatility fixture, for different section bars, the benchmark portion that only needs to adjust fixture complete positioning instant can, applicability is extensive.

Brief description of the drawings

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the side view of three axle bull gantry process equipments in the utility model.

Fig. 3 is the structural representation of compact module fixture described in the utility model.

Fig. 4 is three axle milling structural representations in embodiment described in the utility model.

Wherein, bed piece 1, traveller gantry 2, compact module fixture 3, Z-direction feeding slip-on head 4, Y-direction feeding slip-on head 5, electronic box 6, platen face 7, counterweight cylinder 8, servomotor 9, drawer 10;

Fixture fixed reference end 301, end standard 302, end face slope module 303, fixture active edges 304, fixture movable block 305, Cowhells 306, fixture movable carriage 307, pad 308, end standard flat board 309, compression cylinder 310, guide shaft 311, lower bolster 312, mistake gas circuit backing plate 313, point air parcel 314;

Installing plate 401, drive motors 402, shaft coupling 403, driving wheel 404, driven pulley 405, contact roller 406, Timing Belt 407, driven shaft 408, driving shaft 409, bearing are installed casing 410, milling cutter 411, angular contact ball bearing 412, collet 413, stiffener 414.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, further illustrate the utility model, the present embodiment is implemented under taking technical solutions of the utility model as prerequisite, should understand these embodiment and only be not used in restriction scope of the present utility model for the utility model is described.

Embodiment:

One three axle bull gantry process equipments as shown in Figure 1, 2, comprising: bed piece 1, traveller gantry 2, compact module fixture 3, Z-direction feeding slip-on head 4, Y-direction feeding slip-on head 5, electronic box 6, platen face 7, counterweight cylinder 8, servomotor 9, drawer 10;

The annexation of above-mentioned each parts is as follows; Described bed piece 1 is provided with X to line slideway, and described traveller gantry 2 is installed on X on line slideway, and described traveller gantry 2 tops are provided with lathe table top 7; Described compact module fixture 3 is positioned on lathe table top 7; Described traveller gantry 2 is provided with Y-direction guide rail and Z-direction guide rail, and Y-direction feeding slip-on head 5 is installed on Y-direction guide rail; Described Z-direction feeding slip-on head 4 is installed on Z-direction guide rail; Described electronic box 6 provides electric energy for equipment operation; Described traveller gantry 2, Z-direction feeding slip-on head 4, Y-direction feeding slip-on head 5 move on guide rail by driven by servomotor, and described drawer 10 is positioned at bed piece 1 bottom.

Compact module fixture 3 as described in Fig. 3,4 comprises: three groups of fixture module groups and end standard 302, end face slope module 303, end standard flat board 309; Described fixture module comprises: fixture fixed reference end 301, fixture active edges 304, fixture movable block 305, elastic component 306, fixture movable carriage 307, pad 308, compression cylinder 310, guide shaft 311, lower bolster 312, mistake gas circuit backing plate 313, point air parcel 314; Three fixture module groups are set up in parallel, and are provided with two longitudinally fixture modules of alignment in each fixture module group;

The annexation of above-mentioned each parts is as follows: in described fixture module, fixture fixed reference end 301 is fixed on base plate by lower bolster 312 and mistake gas circuit backing plate 313; Described compression cylinder 310 is connected with fixture movable carriage 307 by guide shaft 311; Described fixture movable carriage 307 is installed on lower bolster 312 and crosses on gas circuit backing plate 313; Described fixture movable carriage 307 upper surfaces are provided with horizontal concrete chute 315, and described fixture active edges 304 lower ends are provided with the vertical protrusion suitable with horizontal concrete chute; Described fixture active edges 304 is carried out horizontal movement by vertical protrusion along horizontal concrete chute; The inner side of described fixture active edges 304 is provided with vertical chute 316; Described fixture movable block 305 back sides are provided with the horizontal projection suitable with vertical chute 316; Described fixture movable block is in vertical motion along vertical chute by horizontal projection; Described elastic component 306 is fixed on the inner side of fixture movable block 305; Described fixture fixed reference end 301 medial surfaces are provided with pad holddown groove, and described pad 308 is fixed on fixture fixed reference end 301 inner sides by pad holddown groove; Described point of air parcel was positioned at one end of gas circuit backing plate 313; Described point of air parcel 314 1 sides are provided with total inlet end, the total outlet side being connected with the external world that a source of the gas connects, opposite side is provided with at least one point inlet end being connected with compression cylinder 310 inlet ends, with at least one point outlet side being connected with compression cylinder 310 outlet sides; Described end standard 302 is fixed on base plate by end standard flat board 309, and is positioned at the end face of fixture module; Described end face slope module 303 is fixed on the top of described end standard 302.

The operation principle of compact module fixture 3 is as follows: when determining that after the section bar that will process, a source of the gas is multiple compression cylinder air feed, by point 314 points of gas of air parcel; Then start compression cylinder 310, compression cylinder 310 drives guide shaft 311, and guide shaft 311 drives 307 horizontal movements of fixture movable carriage, according to the position of the width adjustment fixture movable carriage 307 of fabircated shapes, and then adjust fixture active edges 304, realize the fine setting of the size of horizontal direction; Adjust again fixture movable block 305, realize the adjusting of size in vertical direction; Complete the clamping adjusted size of fixture according to the size of section bar to be processed; Then locate by the end standard 302 of fixture module front end; If the end face of section bar is domatic, end face slope module 303 is set in the upper end of end standard 302, and to locate end face be domatic section bar, the air inlet pipe of clamping cylinder described in the present embodiment and blast pipe were embedded in the groove under gas circuit backing plate, be connected to point air parcel of gas circuit backing plate end, described point of air parcel is mainly the effect of playing high-pressure air source shunting, realizes single source of the gas and advance simultaneously the object of multiple cylinders.

Multiaxis milling as shown in the figure comprises: fixed head 401, drive motors 402, shaft coupling 403, driving wheel 404, driven pulley 405, contact roller 406, Timing Belt 407, driven shaft 408, driving shaft 409, bearing are installed casing 410, milling cutter 411, angular contact ball bearing 412, binding nut 413, stiffener 414.

The annexation of above-mentioned each parts is as follows: described fixed head drive motors 401 back sides are provided with stiffener 414: drive motors 402 is installed in the upper end of described fixed head 401, and lower end is installed described bearing casing 410 is installed; Described drive motors 402 is connected with driving shaft 408 by shaft coupling 403; Described driving wheel 404 is fixedly installed on driving shaft 409, is connected with driven pulley 405 by Timing Belt 407; Described driven pulley 405 is fixedly connected on driven shaft 408; Described driving shaft 409 and driven shaft 408 are installed the locating hole location on casing 410 through described bearing; Described milling cutter 411 is installed on described driving shaft 409 and driven shaft 408 belows; Described contact roller 406 is between described driving wheel 404 and driven pulley 405, and compression connects the Timing Belt 407 of driving wheel 404 and driven pulley 405; Described milling cutter 411 is connected by collet with driving wheel 404, driven pulley 405, and fixing by binding nut 413; Between locating hole on described bearing installation casing 410 and driving shaft, driven shaft, be provided with angular contact ball bearing 412.

The operation principle of above-mentioned each parts is as follows: drive motors 402 motions on fixed head 401 drive shaft coupling 403 to rotate, shaft coupling 403 drives driving shaft 409 synchronous rotaries, and driving shaft 409 rotates and then drives the driving wheel 404 being fixed on driving shaft 409 taking driving shaft as center of circle rotation; Driving wheel 404 drives driven pulley 405 to rotate by Timing Belt 407, and then the driven shaft rotation that is fixedly connected with driven pulley of drive, thereby realizes the synchronous rotary of driving shaft and driven shaft, and then realizes the milling cutter run-in synchronism of driving shaft and driven shaft lower end.

The processing method of above-mentioned three axle bull gantry process equipments, concrete steps are as follows:

(A), according to gripping range and the positioning datum of the shape of required fabircated shapes and width adjustment compact module fixture 3, determine the group number of compact module fixture according to the radical of fabircated shapes, a corresponding one group of fixture of fabircated shapes simultaneously;

(B) adjust after compact module fixture 3, many section bars to be processed are sent in compact module fixture, fixture fixed reference end 301, the end standard 302 of section bar by abut against clip placed the origin reference location of realizing section bar, and compression cylinder 310 drives fixture active edges 304 along the fixture movable carriage 307 clamping section bar that moves simultaneously;

(C) traveller gantry 2 moves to line slideway along the X on bed piece 1, realizes the gantry machining structure of fixed bed body driven portal, and driven by servomotor traveller gantry 2 is realized directions X motion; On the basis of traveller gantry, Y-direction guide rail and Z-direction guide rail are set thereon, realize Y-direction feeding slip-on head 5, the Y-direction of Z-direction feeding slip-on head 4 and the movement of Z-direction by driven by servomotor; In the moving process of X, Y, Z-direction, Y-direction feeding slip-on head 5, Z-direction feeding slip-on head 4 complete the processing of section bar;

(D) after machining, portal frame is return zero-bit, unclamps compression cylinder 310, takes out the section bar having machined; Complete the processing of section bar.

Claims

1. three axle bull gantry process equipments, is characterized in that: comprising: bed piece (1), traveller gantry (2), compact module fixture (3), Z-direction feeding slip-on head (4), Y-direction feeding slip-on head (5); Described bed piece (1) is provided with X to line slideway, and described traveller gantry (2) is installed on X on line slideway, and described traveller gantry (2) top is provided with lathe table top (7); Described compact module fixture (3) is positioned on lathe table top (7); Described traveller gantry (2) is provided with Y-direction guide rail and Z-direction guide rail, and Y-direction feeding slip-on head (5) is installed on Y-direction guide rail; Described Z-direction feeding slip-on head (4) is installed on Z-direction guide rail.

2. three axle bull gantry process equipments according to claim 1, is characterized in that: comprising: counterweight cylinder (8), and described counterweight cylinder (8) one end is fixed on described traveller gantry (2), and the other end is connected with Z-direction feeding slip-on head (4).

3. three axle bull gantry process equipments according to claim 1, is characterized in that: comprise servomotor (9); Described traveller gantry (2), Z-direction feeding slip-on head (4), Y-direction feeding slip-on head (5) move on guide rail by driven by servomotor.

4. three axle bull gantry process equipments according to claim 1, is characterized in that: described compact module fixture (3) comprising: end standard (2) and at least one fixture module; Described end standard (2) is positioned at one end of fixture module;

Described fixture module comprises: fixture fixed reference end (301), fixture active edges (304), fixture movable block (305), fixture movable carriage (307), compression cylinder (310), guide shaft (311), lower bolster (312), mistake gas circuit backing plate (313);

Described fixture fixed reference end (301) is fixed on base plate by lower bolster (312) and mistake gas circuit backing plate (313); Described compression cylinder (310) is connected with fixture movable carriage (307) by guide shaft (311); Described fixture movable carriage (307) is installed on lower bolster (312) and crosses on gas circuit backing plate (313); Described fixture movable carriage (307) upper surface is provided with horizontal concrete chute (315), and described fixture active edges (304) lower end is provided with the vertical protrusion suitable with horizontal concrete chute; Described fixture active edges (304) is carried out horizontal movement by vertical protrusion along horizontal concrete chute; The inner side of described fixture active edges (304) is provided with vertical chute (316); Described fixture movable block (305) back side is provided with the horizontal projection suitable with vertical chute (316); Described fixture movable block is in vertical motion along vertical chute by horizontal projection.

5. three axle bull gantry process equipments according to claim 1, is characterized in that: the slip-on head in described Z-direction feeding slip-on head (4), Y-direction feeding slip-on head (5) is multiaxis milling; Described multiaxis milling comprises: drive motors (402), shaft coupling (403), driving wheel (404), driven pulley (405), Timing Belt (407), driven shaft (408), driving shaft (409), bearing are installed casing (410), milling cutter (411);

Described drive motors (402) is connected with driving shaft (409) by shaft coupling (403); The upper fixing driving wheel (404) of described driving shaft (409), driving wheel (404) is connected with driven pulley (405) by Timing Belt (407); Described driven pulley (405) is fixedly connected with driven shaft (408); Described driving shaft (409), driven shaft (408) are installed casing (410) through bearing and are fixedly connected with milling cutter (411).