CN217915773U - Double-gantry wood mold three-axis machining center - Google Patents

Abstract

The utility model relates to the technical field of numerical control machining, in particular to a double-gantry wood pattern three-axis machining center, which comprises a frame, a workbench, a Y-axis module, a first X-axis module, a second X-axis module, a first Z-axis module, a second Z-axis module, a first machining main shaft and a second machining main shaft, wherein the frame comprises two groups of support frames; the workbench is arranged on the surface of the underframe and positioned between the two groups of supporting frames; the Y-axis module is provided with two groups and is respectively arranged on the two groups of supporting frames; the first Z-axis module is erected between the first X-axis module and the second X-axis module; the second Z-axis module is erected between the first X-axis module and the second X-axis module. The utility model discloses have two sets of X axle modules, all installed Z axle module and processing main shaft on the X axle module of every group, formed two longmen structures, can process the wooden model on the workstation simultaneously, and then promote machining efficiency greatly.

Description

Double-gantry wood mold three-axis machining center

Technical Field

The utility model relates to a numerical control processing technology field especially relates to a two longmen wooden pattern triaxial machining centers.

Background

The numerical control processing equipment is mechanical automation equipment which controls the displacement of a processing cutter and the displacement of a part to be processed by digital information. The numerical control machining equipment generally comprises a workbench, an XYZ module, a machining spindle and the like. The numerical control equipment can be used for hardware part processing, die processing, wood die processing and the like.

The existing wood pattern machining equipment generally needs to process in large batch, only an independent gantry main shaft is used for processing in the machining process, and the machining efficiency is low, so that the existing wood pattern numerical control machining equipment can be improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a have two sets of X axle module, all installed Z axle module and processing main shaft on the X axle module of every group, formed two longmen structures, can process the wooden model on the workstation simultaneously, and then promote machining efficiency's two longmen wooden model triaxial machining center greatly.

The utility model adopts the technical proposal that: a double-gantry wood mold three-axis machining center comprises a frame, a workbench, a Y-axis module, a first X-axis module, a second X-axis module, a first Z-axis module, a second Z-axis module, a first machining main shaft and a second machining main shaft, wherein the frame comprises a bottom frame, two groups of support frames positioned on two sides of the bottom frame and a surrounding plate arranged on the bottom frame in a surrounding manner, and the two sides of the support frames are surrounded by the surrounding plate; the workbench is arranged on the surface of the underframe and positioned between the two groups of supporting frames; the Y-axis module is provided with two groups and is respectively arranged on the two groups of supporting frames; the first X-axis module can be movably mounted on the Y-axis module along with the Y-axis module; the second X-axis module can be movably mounted on the Y-axis module along with the Y-axis module; the first Z-axis module is erected between the first X-axis module and the second X-axis module and can move along with the first X-axis module and the second X-axis module; the second Z-axis module is erected between the first X-axis module and the second X-axis module and can move along with the first X-axis module and the second X-axis module; the first machining main shaft is arranged on the first Z-axis module and faces the workbench; and the second processing spindle is arranged on the second Z-axis module and faces the workbench.

The further improvement of the scheme is that one side of the bottom frame, which is far away from the workbench, is provided with a waste water tank, and the surface of the waste water tank is provided with a grating plate.

The further improvement of the scheme is that one side of the rack is provided with an electric cabinet which is electrically connected with the Y-axis module, the first X-axis module, the second X-axis module, the first Z-axis module and the second Z-axis module.

The further improvement of the scheme is that a system control box is arranged on one side of the rack and provided with an operation table, and the system control box is electrically connected with the electric control box.

The further improvement of the scheme is that the two ends of the coaming, which are positioned on the support frame, are respectively provided with a front door plate and a rear door plate, the front door plate and the rear door plate can be opened and closed, the front door plate is provided with a window, and the window is covered by a transparent panel.

The further improvement to above-mentioned scheme does, can install first Y axle slip table and second Y axle slip table on the Y axle module movably, first X axle module connection is in first Y axle slip table, second X axle module connection is in second Y axle slip table.

The further improvement to above-mentioned scheme does, the Y axle module is located first Y axle slip table and second Y axle slip table both sides and is equipped with Y axle organ cover.

The further improvement of the scheme is that the first X-axis module comprises a first X-axis base transversely arranged on the Y-axis module, first end covers arranged at two ends of the first X-axis base, and a first X-axis organ cover arranged on the first end covers and connected with the first Z-axis module, and the first X-axis base is covered by the first X-axis organ cover.

The further improvement of the scheme is that the second X-axis module comprises a second X-axis base transversely arranged on the Y-axis module, second end covers arranged at two ends of the second X-axis base, and a second X-axis organ cover arranged on the second end covers and connected with the second Z-axis module, and the second X-axis organ cover covers the second X-axis base.

The further improvement of the scheme is that the first Z-axis module comprises a first connecting seat, a first spindle seat which can be movably arranged on the first connecting seat and a first Z-axis driving module which is used for driving the first spindle seat to move along the first connecting seat; the second Z-axis module comprises a second connecting seat, a second spindle seat capable of moving on the second connecting seat, and a second Z-axis driving module for driving the second spindle seat to move along the second connecting seat.

The utility model has the advantages that:

compare current wooden pattern machining center, the utility model discloses a two gantry structures have two sets of X axle modules, have all installed Z axle module and processing main shaft on the X axle module of every group, have formed two gantry structures, can process the wooden pattern on the workstation simultaneously, and then promote machining efficiency greatly, are favorable to wooden pattern processing production. The machining device comprises a rack, a workbench, a Y-axis module, a first X-axis module, a second X-axis module, a first Z-axis module, a second Z-axis module, a first machining main shaft and a second machining main shaft, wherein the rack comprises an underframe, two groups of supporting frames positioned at two sides of the underframe and a surrounding plate surrounding the underframe, and the two sides of the supporting frames are surrounded by the surrounding plate; the workbench is arranged on the surface of the underframe and positioned between the two groups of supporting frames; the Y-axis module is provided with two groups and is respectively arranged on the two groups of supporting frames; the first X-axis module can be movably arranged on the Y-axis module along with the Y-axis module; the second X-axis module can be movably mounted on the Y-axis module along with the Y-axis module; the first Z-axis module is erected between the first X-axis module and the second X-axis module and can move along with the first X-axis module and the second X-axis module; the second Z-axis module is erected between the first X-axis module and the second X-axis module and can move along with the first X-axis module and the second X-axis module; the first machining main shaft is arranged on the first Z-axis module and faces the workbench; and the second processing main shaft is arranged on the second Z-axis module and faces the workbench. Two sets of side by side of Y axle module can drive two sets of X axle modules simultaneously and remove, under the cooperation of Y axle module, X axle module and Z axle module, has realized the transmission of triaxial direction for the processing main shaft can be to the wood pattern processing on the workstation, and the frame has adopted the bounding wall to enclose to establish moreover, encloses to establish the back reduction to ambient environmental pollution.

Drawings

Fig. 1 is a schematic perspective view of a double-gantry wood pattern three-axis machining center of the present invention;

fig. 2 is a schematic perspective view of a part of the structure of the double-gantry wood mold triaxial machining center in fig. 1.

Description of reference numerals: the machining device comprises a rack 1, an underframe 11, a waste water tank 111, a grating plate 112, a support frame 12, a coaming 13, a front door plate 131, a rear door plate 132, an electric cabinet 14, a system control box 15, an operation table 151, a workbench 2, a Y-axis module 3, a first Y-axis sliding table 31, a second Y-axis sliding table 32, a Y-axis organ cover 33, a first X-axis module 4, a first X-axis base 41, a first end cover 42, a first X-axis organ cover 43, a second X-axis module 5, a second X-axis base 51, a second end cover 52, a second X-axis organ cover 53, a first Z-axis module 6, a first connecting seat 61, a first main shaft seat 62, a first Z-axis driving module 63, a second Z-axis module 7, a second connecting seat 71, a second main shaft seat 72, a second Z-axis driving module 73, a first machining main shaft 8 and a second machining main shaft 9.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described more fully hereinafter with reference to the accompanying drawings. The preferred embodiments of the present invention are shown in the drawings. The invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention.

As shown in fig. 1-2, a double-gantry wood mold three-axis machining center is provided with a frame 1, a workbench 2, a y-axis module 3, a first X-axis module 4, a second X-axis module 5, a first Z-axis module 6, a second Z-axis module 7, a first machining spindle 8 and a second machining spindle 9, wherein the frame 1 comprises an underframe 11, two groups of support frames 12 positioned at two sides of the underframe 11 and a coaming 13 arranged around the underframe 11, and the coaming 13 surrounds two sides of the support frames 12; the workbench 2 is arranged on the surface of the base frame 11 and positioned between the two groups of support frames 12; the Y-axis module 3 is provided with two groups and is respectively arranged on the two groups of supporting frames 12; the first X-axis module 4 can be movably arranged on the Y-axis module 3 along with the Y-axis module 3; the second X-axis module 5 can be movably arranged on the Y-axis module 3 along with the Y-axis module 3; the first Z-axis module 6 is erected between the first X-axis module 4 and the second X-axis module 5 and can move along with the first X-axis module 4 and the second X-axis module 5; the second Z-axis module 7 is erected between the first X-axis module 4 and the second X-axis module 5 and can move along with the first X-axis module 4 and the second X-axis module 5; the first machining main shaft 8 is arranged on the first Z-axis module 6 and faces the workbench 2; the second machining spindle 9 is mounted on the second Z-axis module 7 and faces the table 2.

One side of the bottom frame 11 far away from the workbench 2 is provided with a waste water tank 111, the surface of the waste water tank 111 is provided with a grating plate 112, and the waste water tank 111 can be used for recovering and filtering waste materials and cooling liquid generated in the machining process.

The electric cabinet 14 is arranged on one side of the rack 1, the electric cabinet 14 is electrically connected with the Y-axis module 3, the first X-axis module 4, the second X-axis module 5, the first Z-axis module 6 and the second Z-axis module 7, and the further improvement is that the system control box 15 is arranged on one side of the rack 1, the system control box 15 is provided with an operation table 151, the system control box 15 is electrically connected with the electric cabinet 14 and used for power connection control through the electric cabinet 14, and the system control box 15 is arranged for controlling equipment processing and is convenient to operate.

Both ends that bounding wall 13 is located support frame 12 are equipped with preceding door plant 131 and back door plant 132 respectively, preceding door plant 131 and back door plant 132 all can open and shut the setting, the window has been seted up to preceding door plant 131, the window is covered by transparent panel, can open and shut through preceding door plant 131 and back door plant 132, and the wood former of conveniently packing into processes, and convenient operation has still set up the window and has been used for observing processing.

First Y axle slip table 31 and second Y axle slip table 32 can be installed movably on the Y axle module 3, first X axle module 4 is connected in first Y axle slip table 31, second X axle module 5 is connected in second Y axle slip table 32, adopts two sets of X axle module of two Y axle slip table cooperations to connect, also conveniently moves along Y axle slip table, removes stably.

Y axle module 3 is located first Y axle slip table 31 and second Y axle slip table 32 both sides and is equipped with Y axle organ cover 33, encapsulates the inside component of Y axle module 3 through setting up Y axle organ cover 33, and is effectual to the structure protection, and inside generally adopts motor, screw rod and slide rail cooperation to realize the drive, and the structure is reliable.

The first X-axis module 4 comprises a first X-axis base 41 transversely arranged on the Y-axis module 3, first end covers 42 arranged at two ends of the first X-axis base 41, and first X-axis organ covers 43 arranged on the first end covers 42 and connected with the first Z-axis module 6, wherein the first X-axis organ covers 43 cover the first X-axis base 41, the further improvement is that the second X-axis module 5 comprises a second X-axis base 51 transversely arranged on the Y-axis module 3, second end covers 52 arranged at two ends of the second X-axis base 51, and a second X-axis organ cover 53 arranged on the second end cover 52 and connected with the second Z-axis module 7, and the second X-axis organ cover 53 covers the second X-axis base 51; the two ends of the X-axis base are fixed through the end covers, the X-axis organ cover is matched to encapsulate an internal structure, and the X-axis module is a linear module formed by matching the motor, the screw and the sliding rail.

The first Z-axis module 6 includes a first connecting base 61, a first spindle base 62 movable on the first connecting base 61, and a first Z-axis driving module 63 for driving the first spindle base 62 to move along the first connecting base 61; the second Z-axis module 7 includes a second connecting seat 71, a second spindle seat 72 movably disposed on the second connecting seat 71, and a second Z-axis driving module 73 for driving the second spindle seat 72 to move along the second connecting seat 71; the Z-axis driving module drives the spindle seat to move along the connecting seat, the connecting seat is installed on the X-axis module and moves along with the X-axis module, and the machining spindle is driven to be used for machining the wood pattern when the connecting seat moves.

The utility model discloses a two gantry structures have two sets of X axle modules, have all installed Z axle module and processing main shaft on the X axle module of every group, have formed two gantry structures, can process the wooden model on workstation 2 simultaneously, and then promote machining efficiency greatly, are favorable to wooden model processing production. Specifically, the machine comprises a rack 1, a workbench 2, a Y-axis module 3, a first X-axis module 4, a second X-axis module 5, a first Z-axis module 6, a second Z-axis module 7, a first machining spindle 8 and a second machining spindle 9, wherein the rack 1 comprises an underframe 11, two groups of support frames 12 positioned at two sides of the underframe 11 and a coaming 13 arranged around the underframe 11, and the coaming 13 is used for encircling two sides of the support frames 12; the workbench 2 is arranged on the surface of the base frame 11 and positioned between the two groups of support frames 12; the Y-axis module 3 is provided with two groups and is respectively arranged on the two groups of supporting frames 12; the first X-axis module 4 can be movably arranged on the Y-axis module 3 along with the Y-axis module 3; the second X-axis module 5 can be movably arranged on the Y-axis module 3 along with the Y-axis module 3; the first Z-axis module 6 is erected between the first X-axis module 4 and the second X-axis module 5 and can move along with the first X-axis module 4 and the second X-axis module 5; the second Z-axis module 7 is erected between the first X-axis module 4 and the second X-axis module 5 and can move along with the first X-axis module 4 and the second X-axis module 5; the first machining main shaft 8 is arranged on the first Z-axis module 6 and faces the workbench 2; the second machining spindle 9 is mounted on the second Z-axis module 7 and faces the table 2. Two sets of 3 parallels of Y axle module, can drive two sets of X axle modules simultaneously and remove, under the cooperation of Y axle module 3, X axle module and Z axle module, realized the transmission of triaxial direction for the processing main shaft can be to the wooden model processing on the workstation 2, and frame 1 has adopted bounding wall 13 to enclose to establish in addition, encloses to establish the back reduction to ambient environmental pollution.

The above-mentioned embodiments only represent some embodiments of the present invention, and the description thereof is specific and detailed, but not to be construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the concept of the present invention, several variations and modifications can be made, which all fall within the scope of the present invention. Therefore, the protection scope of the present invention should be subject to the appended claims.

Claims (10)

1. The utility model provides a two longmen wooden model triaxial machining centers which characterized in that: comprises that

The device comprises a rack, a plurality of supporting frames and a plurality of surrounding plates, wherein the rack comprises an underframe, two groups of supporting frames positioned on two sides of the underframe and the surrounding plates surrounding the underframe;

the workbench is arranged on the surface of the underframe and positioned between the two groups of supporting frames;

the Y-axis module is provided with two groups and is respectively arranged on the two groups of supporting frames;

the first X-axis module can be movably arranged on the Y-axis module along with the Y-axis module;

the second X-axis module can be movably arranged on the Y-axis module along with the Y-axis module;

the first Z-axis module is erected between the first X-axis module and the second X-axis module and can move along with the first X-axis module and the second X-axis module;

the second Z-axis module is erected between the first X-axis module and the second X-axis module and can move along with the first X-axis module and the second X-axis module;

the first machining main shaft is arranged on the first Z-axis module and faces the workbench;

and the second machining main shaft is arranged on the second Z-axis module and faces the workbench.

2. The double-gantry wood mold triaxial machining center according to claim 1, wherein: one side of the bottom frame, which is far away from the workbench, is provided with a waste water tank, and the surface of the waste water tank is provided with a grating plate.

3. The double-gantry wood mold triaxial machining center according to claim 2, wherein: and an electric cabinet is arranged on one side of the rack and is electrically connected with the Y-axis module, the first X-axis module, the second X-axis module, the first Z-axis module and the second Z-axis module.

4. The double-gantry wood mold triaxial machining center according to claim 3, wherein: and a system control box is arranged on one side of the rack, an operating table is arranged on the system control box, and the system control box is electrically connected with the electric control box.

5. The double-gantry wood mold triaxial machining center according to claim 1, wherein: the two ends of the coaming, which are positioned on the support frame, are respectively provided with a front door plate and a rear door plate, the front door plate and the rear door plate can be arranged in an opening and closing mode, the front door plate is provided with a window, and the window is covered by a transparent panel.

6. The double-gantry wood mold triaxial machining center according to claim 1, wherein: first Y axle slip table and second Y axle slip table can be installed movably on the Y axle module, first X axle module connection is in first Y axle slip table, second X axle module connection is in second Y axle slip table.

7. The double-gantry wood mold triaxial machining center according to claim 6, wherein: y axle module is located first Y axle slip table and second Y axle slip table both sides and is equipped with Y axle organ cover.

8. The double-gantry wood mold triaxial machining center according to claim 1, wherein: the first X-axis module comprises a first X-axis base transversely arranged on the Y-axis module, first end covers arranged at two ends of the first X-axis base, and a first X-axis organ cover arranged on the first end covers and connected with the first Z-axis module, and the first X-axis base is covered by the first X-axis organ cover.

9. The double gantry wood mold triaxial machining center according to claim 8, wherein: the second X-axis module comprises a second X-axis base transversely arranged on the Y-axis module, second end covers arranged at two ends of the second X-axis base, and a second X-axis organ cover arranged on the second end covers and connected with the second Z-axis module, and the second X-axis base is covered by the second X-axis organ cover.

10. The double-gantry wood mold triaxial machining center according to claim 1, wherein: the first Z-axis module comprises a first connecting seat, a first spindle seat capable of moving on the first connecting seat and a first Z-axis driving module for driving the first spindle seat to move along the first connecting seat; the second Z-axis module comprises a second connecting seat, a second spindle seat capable of moving on the second connecting seat, and a second Z-axis driving module for driving the second spindle seat to move along the second connecting seat.

Images