CN217648030U - High-efficient two-zone three-shaft gantry machining center - Google Patents

Abstract

The utility model discloses a three axle longmen machining centers in high-efficient two district, which comprises a bod, the organism includes first processing district, second processing district and joining region, the joining region is located between first processing district and the second processing district, the bisymmetry lateral wall of organism all is provided with X axle linear guide, X axle linear guide's removal slip table surface mounting has the portal frame, the surface of portal frame is provided with Z axle linear guide, install Y axle linear guide on the removal slip table on Z axle linear guide surface. The utility model discloses an auger, push away bits chamber, arrange the material chamber, blow the setting of expecting mechanism, collection material mouth isotructure, can blow in the piece or make the piece fall into from the mouth that gathers materials automatically and push away bits intracavity portion man-hour to auger through starting this processing district makes the piece automatic discharge, greatly reduced organism surface clastic adhesion volume, make things convenient for a large amount of pieces automatic discharge, it is more convenient to clear up the piece.

Description

High-efficient two-area three-shaft gantry machining center

Technical Field

The utility model relates to a work piece processing technology field especially relates to a high-efficient two regional triaxial longmen machining center.

Background

The gantry machining center is a machining center with the axis of a Z shaft of a main shaft perpendicular to a workbench, the overall structure is a large machining center machine with a portal structure frame consisting of double upright posts and a top beam, and a cross beam is arranged in the middle of the double upright posts. The method is particularly suitable for processing large workpieces and workpieces with complex shapes.

Double-zone three-shaft gantry machining center is gantry machining center's one kind, X axle through setting up, Y axle and Z axle make the processing head can move about from top to bottom, through setting up two processing districts, a processing area adds man-hour, another regional material loading waits for, the latency of pay-off and location has been reduced, the whole time of processing has been shortened greatly, machining efficiency and process speed have been improved, double-zone three-shaft gantry machining center can produce a large amount of sweeps when the cutting punches, fall on the processing platform surface, because gantry machining center is bulky, be not convenient for clear up a large amount of pieces, it wastes time and energy to clear up.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the defects existing in the prior art and providing a high-efficiency double-area three-shaft gantry machining center.

In order to realize the purpose, the utility model adopts the following technical scheme: the utility model provides a high-efficient two regional triaxial longmen machining center, includes the organism, the organism includes first processing district, second processing district and joining region, the joining region is located between first processing district and the second processing district, the two symmetrical lateral walls of organism all are provided with X axle linear guide, X axle linear guide's removal slip table surface mounting has the portal frame, the surface of portal frame is provided with Z axle linear guide, install Y axle linear guide on the removal slip table on Z axle linear guide surface, install the processing head on the removal slip table on Y axle linear guide surface, the inside in first processing district and second processing district all is provided with pushes away the bits chamber, and the upper surface in first processing district and second processing district has all seted up a collection material mouth, a plurality of fixture are installed to the both sides of collection material mouth, all install on the two symmetrical lateral walls of portal frame and blow the material mechanism.

Furthermore, blow the material mechanism including fixing the air pump case on portal frame bisymmetry lateral wall, the inside air pump that is provided with of air pump case, the air pump has the blowing head through pipe connection, the blowing head is installed on the inner wall of portal frame to blow the material.

Furthermore, the blowing head is the downward sloping setting, conveniently blows the bits that scatter on the organism surface to the aggregate opening department of locating to fall into the chip removal intracavity portion to the at utmost.

Furthermore, all be fixed with driving motor on the lateral wall in first processing district and second processing district, driving motor's drive end extends to inside and the fixedly connected with auger that pushes away the bits chamber, rotates through the auger and produces thrust so that arrange the piece into discharge chamber department.

Further, the inside in joining region is provided with the row material chamber, the bin outlet has been seted up to the lateral wall in row material chamber, the diapire in row material chamber is to the one side slope of bin outlet, driving motor's one end is kept away from to the auger extends to row material chamber department, because the diapire in row material chamber is to the one side slope of bin outlet, discharges into the piece of row material intracavity portion and discharges from the bin outlet under the effect of gravity.

Further, transparent chip blocking plates are installed on two sides of the surface of the machine body, the blowing head is located above the transparent chip blocking plates, chips are prevented from splashing, and meanwhile the transparent chip blocking plates are prevented from influencing the blowing head to blow materials.

Further, fixture includes the C type seat of sliding connection at the organism upper surface, the top of C type seat is fixed with the cylinder, the flexible end of cylinder extends to the inside of C type seat and is fixed with the clamp plate, can carry the work piece through the fixture who sets up in the mouth both sides of gathering materials to in process, and can make the inside that most piece of processing directly fell to the material collection mouth.

The utility model has the advantages that:

the utility model discloses an auger, push away bits chamber, arrange the material chamber, blow the setting of expecting mechanism, collection material mouth isotructure, can blow in the piece or make the piece fall into from the mouth that gathers materials automatically and push away bits intracavity portion man-hour to auger through starting this processing district makes the piece automatic discharge, greatly reduced organism surface clastic adhesion volume, make things convenient for a large amount of pieces automatic discharge, it is more convenient to clear up the piece.

Drawings

FIG. 1 is a perspective view of a high-efficiency double-area three-axis gantry machining center provided by the present invention;

FIG. 2 is a partial main sectional view of a high-efficiency dual-area three-axis gantry machining center according to the present invention;

fig. 3 is a partial cross sectional side view of a high-efficiency double-area three-axis gantry machining center provided by the present invention.

Illustration of the drawings:

1. a body; 101. a first processing zone; 102. a second processing zone; 103. a connecting region; 2. a gantry; 3. a Z-axis linear guide rail; 4. a Y-axis linear guide; 5. a machining head; 6. an X-axis linear guide rail; 7. a clamping mechanism; 8. a transparent chip-blocking plate; 9. a discharge outlet; 10. an air pump box; 11. a blowing head; 12. a drive motor; 13. a scrap pushing cavity; 14. a packing auger; 15. a material collecting port; 16. a discharge chamber.

Detailed Description

As shown in fig. 1-3, a high-efficiency double-area three-axis gantry machining center is provided, which comprises a machine body 1, wherein the machine body 1 comprises a first machining area 101, a second machining area 102 and a connecting area 103, the connecting area 103 is located between the first machining area 101 and the second machining area 102, two symmetrical side walls of the machine body 1 are respectively provided with an X-axis linear guide 6, a gantry 2 is arranged on the surface of a moving sliding table of the X-axis linear guide 6, a Z-axis linear guide 3 is arranged on the surface of the gantry 2, a Y-axis linear guide 4 is arranged on the moving sliding table of the Z-axis linear guide 3, a machining head 5 is arranged on the surface of the Y-axis linear guide 4, chip pushing cavities 13 are respectively arranged in the first machining area 101 and the second machining area 102, and the upper surface in first processing district 101 and second processing district 102 has all seted up the material collection mouth 15, a plurality of fixture 7 are installed to the both sides of material collection mouth 15, fixture 7 includes the C type seat of sliding connection at organism 1 upper surface, the top of C type seat is fixed with the cylinder, the flexible end of cylinder extends to the inside of C type seat and is fixed with the clamp plate, all install on the two symmetrical lateral walls of portal frame 2 and blow the material mechanism, blow the material mechanism including fixing the air pump case 10 on the two symmetrical lateral walls of portal frame 2, the inside air pump that is provided with of air pump case 10, the air pump has gas blowing head 11 through the pipe connection, gas blowing head 11 installs on the inner wall of portal frame 2, gas blowing head 11 is the downward sloping setting.

As shown in fig. 2 to 3, a driving motor 12 is fixed on the side walls of the first processing area 101 and the second processing area 102, a driving end of the driving motor 12 extends into the chip pushing cavity 13 and is fixedly connected with an auger 14, a discharging cavity 16 is arranged in the connecting area 103, a discharging opening 9 is formed in the side wall of the discharging cavity 16, the bottom wall of the discharging cavity 16 inclines towards one side of the discharging opening 9, and one end of the auger 14 far away from the driving motor 12 extends to the discharging cavity 16. Transparent chip blocking plates 8 are arranged on two sides of the surface of the machine body 1, and the blowing head 11 is located above the transparent chip blocking plates 8.

When the machine is used, the surfaces of the first processing area 101 and the second processing area 102 are respectively loaded, the workpieces are clamped and fixed through the clamping mechanism 7, the processing head 5 moves to the position of the first processing area 101 through the X-axis linear guide rail 6 during processing, the workpieces on the position of the first processing area 101 are processed, the workpieces on the position of the second processing area 102 wait for processing, after the workpieces in the first processing area 101 are processed, the processing head 5 automatically moves to the second processing area 102 to become the processing area, the first processing area 101 starts to discharge and load, and is fixed and waits for processing, when processing operations such as cutting and punching are performed, most of generated scraps directly enter the scrap pushing cavity 13 from the material collecting port 15, the scraps splashed on the surface of the machine body 1 are blown into the scrap pushing cavity 13 through the blowing head 11 driven by the blowing pump in the air pump box 10, most of the surface of the machine body 1 are wiped by wet cleaning cloth in the later period without blowing, the scraps can be conveniently cleaned, the table top of the machine body 1, the scraps enter the scrap pushing cavity 13, the scrap is driven by starting the air pump 12 to drive the auger 14 to rotate, the auger 16 to discharge cavity, and the bottom wall 16 of the discharge cavity is inclined towards the discharge port 16 of the discharge port, and the discharge side of the discharge cavity 16, and the bottom wall 16 of the discharge port 16 is inclined.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (7)

1. The utility model provides a high-efficient two regional three-axis longmen machining center, includes organism (1), its characterized in that: organism (1) is including first processing district (101), second processing district (102) and joining region (103), joining region (103) are located between first processing district (101) and second processing district (102), the two symmetrical lateral walls of organism (1) all are provided with X axle linear guide (6), the removal slip table surface mounting of X axle linear guide (6) has portal frame (2), the surface of portal frame (2) is provided with Z axle linear guide (3), install Y axle linear guide (4) on the removal slip table on Z axle linear guide (3) surface, install processing head (5) on the removal slip table on Y axle linear guide (4) surface, the inside of first processing district (101) and second processing district (102) all is provided with pushes away bits chamber (13), and the upper surface of first processing district (101) and second processing district (102) has all seted up collection mouth (15), a plurality of fixture (7) are installed to the both sides of collection mouth (15), all install on the two symmetrical lateral walls of portal frame (2) and blow the material mechanism.

2. The efficient dual-zone three-axis gantry machining center of claim 1, wherein: the material blowing mechanism comprises an air pump box (10) fixed on two symmetrical side walls of a portal frame (2), an air blowing pump is arranged inside the air pump box (10), the air blowing pump is connected with an air blowing head (11) through a pipeline, and the air blowing head (11) is installed on the inner wall of the portal frame (2).

3. The efficient dual-zone three-axis gantry machining center of claim 2, wherein: the blowing head (11) is arranged in a downward inclined mode.

4. The efficient dual-zone three-axis gantry machining center of claim 1, wherein: all be fixed with driving motor (12) on the lateral wall in first processing district (101) and second processing district (102), the drive end of driving motor (12) extends to the inside of pushing away bits chamber (13) and fixedly connected with auger (14).

5. The efficient dual-zone three-axis gantry machining center of claim 4, wherein: the inside of joining region (103) is provided with row material chamber (16), bin outlet (9) have been seted up to the lateral wall in row material chamber (16), the diapire in row material chamber (16) is to the one side slope of bin outlet (9), the one end that driving motor (12) were kept away from in auger (14) extends to row material chamber (16) department.

6. The efficient dual-zone three-axis gantry machining center of claim 2, wherein: transparent chip blocking plates (8) are mounted on two sides of the surface of the machine body (1), and the blowing head (11) is located above the transparent chip blocking plates (8).

7. The efficient dual-zone three-axis gantry machining center of claim 1, wherein: fixture (7) are including the C type seat of sliding connection at organism (1) upper surface, the top of C type seat is fixed with the cylinder, the flexible end of cylinder extends to the inside of C type seat and is fixed with the clamp plate.

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