CN218254068U - Column type exchange platform machining center machine - Google Patents

Abstract

The utility model discloses a column type exchange platform machining center machine, which comprises a base, a saddle, a stand column, a machine head and a tool magazine; the saddle is movably arranged on the base along the X-axis direction; the upright post is movably arranged on the saddle along the Y-axis direction; the machine head is movably arranged on the upright column along the Z-axis direction, a main shaft is arranged on the machine head, and a cutter for processing is arranged on the main shaft; the tool magazine is provided with a plurality of tools, the tools on the tool magazine are used for being switched with the tools on the main shaft, the tool magazine is connected with the base through the support, the support comprises a lower support frame and an upper support frame, one end of the lower support frame is fixed on the side of the base, the bottom of the upper support frame is fixed at the other end of the lower support frame, and the side of the upper support frame is connected with the tool magazine. The utility model discloses the tool magazine passes through the support and is connected with the base, reduces the part that sets up at the stand, and the stand of being convenient for removes.

Description

Column type exchange platform machining center machine

Technical Field

The utility model relates to a machine tool machining technical field, in particular to column type exchange platform machining center machine.

Background

The machining center is an automatic multifunctional numerical control machine tool with a tool magazine and a tool changing device. With the rapid development of manufacturing technology, the requirements on processing technology are higher and higher, and the efficiency of processing is also higher and higher.

The existing machining center usually comprises a base, an upright post, a saddle, a workbench, a spindle box, a tool magazine and other parts, for example, patent document with application number of 202020259739.5 discloses a numerical control double-exchange workbench high-speed machining center, which comprises an integrated full-support base, wherein the upright post is installed at the upside of one end of the integrated full-support base, the spindle box is installed at one side of the upright post to move up and down, an umbrella-shaped tool magazine is installed at one side of the spindle box to move up and down, a front-and-back moving saddle and a hydraulic exchange table are installed at the upside of the other end of the integrated full-support base, the left-and-right moving workbench is installed at the upside of the front-and-back moving saddle, and a hydraulic locking mechanism is installed at the upside of the left-and-right moving workbench and the downside of one end of the hydraulic exchange table.

The tool magazine of the machining center machine in the prior art is usually an umbrella-shaped tool magazine which is directly installed on a spindle box, so that the tool magazine moves synchronously when an upright post moves, the umbrella-shaped tool magazine is heavier in weight, the spindle box is installed on the upright post, the upright post and parts arranged on the upright post are large in overall weight, and the moving speed of the upright post is slower. In view of the above, the present inventors have made intensive studies to solve the above-mentioned drawbacks of the prior art and have developed the present invention.

SUMMERY OF THE UTILITY MODEL

The present invention aims at solving at least one of the technical problems in the above-mentioned technology to a certain extent. Therefore, the utility model aims to provide a column type exchange platform machining center machine, its tool magazine passes through the support and is connected with the base, reduces the part that sets up at the stand, and the stand of being convenient for removes.

In order to achieve the purpose, the embodiment of the utility model provides a column type exchange platform machining center machine, which comprises a base, a saddle, a column, a machine head and a tool magazine;

the saddle is movably arranged on the base along the X-axis direction; the upright post is movably arranged on the saddle along the Y-axis direction; the machine head is movably arranged on the upright column along the Z-axis direction, a main shaft is arranged on the machine head, and a cutter for processing is arranged on the main shaft;

the tool magazine is provided with a plurality of tools, the tools on the tool magazine are used for being switched with the tools on the main shaft, the tool magazine is connected with the base through the support, the support comprises a lower support frame and an upper support frame, one end of the lower support frame is fixed on the side of the base, the bottom of the upper support frame is fixed at the other end of the lower support frame, and the side of the upper support frame is connected with the tool magazine.

Further, the lower support frame comprises a horizontal support frame, a vertical support frame and an inclined support frame, one end of the horizontal support frame is arranged on the side portion of the base, one end of the vertical support frame is connected with the other end of the horizontal support frame, one end of the inclined support frame is connected with the other end of the vertical support frame, the other end of the inclined support frame is connected with the upper support frame, and a yielding space is formed between the inclined support frame and the horizontal support frame.

Further, the base lateral part sets up a plurality of connecting holes that are used for being connected with horizontal support frame.

Further, the base is provided with an inclined surface for chip removal.

Further, an X-axis slide rail, an X-axis driving mechanism and an X-axis screw rod are arranged on the base, and the X-axis driving mechanism drives the X-axis screw rod to rotate; the X-axis sliding block and the X-axis connecting seat are arranged at the bottom of the saddle, the X-axis sliding block is connected with the X-axis sliding rail in a sliding mode, and the X-axis connecting seat is connected with the X-axis screw rod and driven to move by the rotating X-axis screw rod.

Further, a Y-axis slide rail, a Y-axis driving mechanism and a Y-axis screw rod are arranged on the saddle, and the Y-axis driving mechanism drives the Y-axis screw rod to rotate; the bottom of the upright post is provided with a Y-axis sliding block and a Y-axis connecting seat, the Y-axis sliding block is connected with a Y-axis sliding rail in a sliding manner, and the Y-axis connecting seat is connected with a Y-axis screw rod and is driven by the rotating Y-axis screw rod to move.

Further, a Z-axis slide rail, a Z-axis driving mechanism and a Z-axis screw rod are arranged on the stand column, and the Z-axis driving mechanism drives the Z-axis screw rod to rotate; the lateral part of the machine head is provided with a Z-axis sliding block and a Z-axis connecting seat, the Z-axis sliding block is connected with a Z-axis sliding rail in a sliding manner, and the Z-axis connecting seat is connected with a Z-axis screw rod and is driven by the rotating Z-axis screw rod to move.

Furthermore, the stand includes back, first side, installation face and second side, and the back slope sets up, sets up a plurality of first trapezoidal reinforcing plates on the first side, and the installation face is used for installing Z axle slide rail, Z axle actuating mechanism and Z axle lead screw, sets up a plurality of second trapezoidal reinforcing plates on the second side.

Further, the tool magazine includes mount pad, slewing mechanism and tool changing mechanism, and mount pad one side sets up the blade disc, sets up a plurality of blade holders that are used for holding different cutters on the blade disc, and each blade holder is used for holding a cutter, and slewing mechanism sets up on the mount pad, and slewing mechanism orders about the blade disc and rotates, and tool changing mechanism sets up on the mount pad, and tool changing mechanism switches the cutter on the blade holder with main epaxial cutter.

Furthermore, the rotating mechanism comprises a rotating motor, a speed reducer and a cutter head transmission mechanism, the rotating motor is arranged on the mounting seat, the speed reducer is connected with the rotating motor, and the cutter head transmission mechanism is connected with the speed reducer and drives the cutter head to rotate.

Further, the tool changing mechanism comprises a tool changing cylinder, a tool changing driver and a tool changing arm, the tool changing cylinder is arranged on the mounting seat, the tool changing driver is connected with the tool changing cylinder, and the tool changing arm is connected with the tool changing driver.

After the structure is adopted, the utility model relates to a column type exchange platform machining center machine, it has following beneficial effect at least:

when the tool magazine is used, the tool magazine is connected with the base through the support, so that the tool magazine is not connected with the stand column, parts connected with the stand column are reduced, the whole weight of the stand column and the parts arranged on the stand column is lighter, the stand column can move conveniently, and the stand column can move faster. The tool magazine is connected with the base through the support, and the support does not generate displacement, so that the tool magazine can be firmly fixed on the base through the support.

Secondly, a saddle, an upright post and a machine head are arranged, a main shaft is arranged on the machine head, a cutter is arranged on the main shaft, the saddle can be movably arranged on the base along the X-axis direction during machining, and the upright post can be movably arranged on the saddle along the Y-axis direction; the machine head can be movably arranged on the upright post along the Z-axis direction, so that the proper position of the cutter can be adjusted, and the processing is convenient.

Compared with the prior art, the utility model discloses a set up base, saddle, stand, aircraft nose and tool magazine, the tool magazine passes through the support and is connected with the base for the tool magazine is not connected with the stand, thereby reduces the part of being connected with the stand, makes the stand and sets up the whole weight of the part on the stand lighter, thereby the stand of being convenient for removes. The support does not generate displacement, so that the tool magazine can be firmly fixed on the base through the support.

Drawings

Fig. 1 is a schematic structural view of a column exchange machining center according to an embodiment of the present invention;

fig. 2 is a schematic view of a connection between a rack and a tool magazine according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a base according to an embodiment of the present invention;

figure 4 is a schematic structural view of a saddle according to an embodiment of the present invention;

figure 5 is a schematic view of another angle of the saddle according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a column according to an embodiment of the present invention;

fig. 7 is a schematic structural view of another angle of the pillar according to the embodiment of the present invention;

fig. 8 is a cross-sectional view of a post according to an embodiment of the present invention;

fig. 9 is a schematic structural diagram of a tool magazine according to an embodiment of the present invention;

fig. 10 is a schematic structural view of another angle of the tool magazine according to the embodiment of the present invention.

Description of the reference symbols

The tool changer comprises a base 1, a connecting hole 11, an inclined surface 12, an X-axis slide rail 13, an X-axis driving mechanism 14, an X-axis screw rod 15, a saddle 2, an X-axis slider 21, an X-axis connecting seat 22, a Y-axis slide rail 23, a Y-axis driving mechanism 24, a Y-axis screw rod 25, an upright post 3, a Z-axis slide rail 31, a Z-axis driving mechanism 32, a Z-axis screw rod 33, a back surface 34, a first side surface 35, a first trapezoid reinforcing plate 351, a mounting surface 36, a second side surface 37, a second trapezoid reinforcing plate 371, a connecting shaft 38, an X-shaped connecting frame 381, a first connecting frame 3811, a second connecting frame 3812, a Y-axis slider 39, a Y-axis connecting seat 310, a machine head 4, a main shaft 41, a tool magazine 5, a mounting seat 51, a tool disc 511, a tool apron 512, an abdication hole 513, a rotating mechanism 52, a rotating motor 521, a tool changer 53, a tool changing cylinder 531, a tool changer 532, a tool changing arm 533, a tool support 6, a lower support frame 61, a horizontal support frame 611, a vertical support frame 612, an inclined support frame, an abdication space 614, a vertical reinforcing plate 613, a horizontal reinforcing plate 615, an upper reinforcing plate 616.

Detailed Description

Reference will now be made in detail to the embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

As shown in fig. 1 to 10, a column exchange machining center according to an embodiment of the present invention includes a base 1, a saddle 2, a column 3, a head 4, and a tool magazine 5; the saddle 2 is movably arranged on the base 1 along the X-axis direction; the upright post 3 is movably arranged on the saddle 2 along the Y-axis direction; the machine head 4 is movably arranged on the upright post 3 along the Z-axis direction, a main shaft 41 is arranged on the machine head 4, and a cutter for processing is arranged on the main shaft 41; the tool magazine 5 is connected with the base 1 through the bracket 6, the tool magazine 5 comprises an installation seat 51, a rotating mechanism 52 and a tool changing mechanism 53, a tool disc 511 is arranged on one side of the installation seat 51, a plurality of tool holders 512 for accommodating different tools are arranged on the tool disc 511, each tool holder 512 is used for accommodating a tool, the rotating mechanism 52 is arranged on the installation seat 51, the rotating mechanism 52 drives the tool disc 511 to rotate, the tool changing mechanism 53 is arranged on the installation seat 51, and the tools on the tool holders 512 and the tools on the main shaft 41 are switched by the tool changing mechanism 53.

Thus, the utility model relates to a column type exchange platform machining center machine, when using, tool magazine 5 passes through support 6 and is connected with base 1 for tool magazine 5 is not connected with stand 3, thereby reduces the part of being connected with stand 3, makes stand 3 and the whole weight of the part of setting on stand 3 lighter, thereby is convenient for stand 3 to remove, makes stand 3 remove faster. The tool magazine 5 is connected with the base 1 through the support 6, and the support 6 does not displace, so that the tool magazine 5 can be firmly fixed on the base 1 through the support 6. By arranging the saddle 2, the upright post 3 and the machine head 4, the machine head 4 is provided with the main shaft 41, the main shaft 41 is provided with a cutter, the saddle 2 can be movably arranged on the base 1 along the X-axis direction during processing, and the upright post 3 can be movably arranged on the saddle 2 along the Y-axis direction; the machine head 4 can be movably arranged on the upright post 3 along the Z-axis direction, so that the proper position of the cutter can be adjusted, and the processing is convenient.

Optionally, the support 6 includes a lower support frame 61 and an upper support frame 62, one end of the lower support frame 61 is fixed on the side of the base 1, the bottom of the upper support frame 62 is fixed on the other end of the lower support frame 61, and the side of the upper support frame 62 is connected with the tool magazine 5. The upper support frame 62 is adjustably arranged on the lower support frame 61, so that the position of the tool magazine 5 can be adjusted, and the tools on the main shaft 41 and the tools on the tool magazine 5 can be conveniently replaced.

The lower support frame 61 includes a horizontal support frame 611, a vertical support frame 612 and an inclined support frame 613, one end of the horizontal support frame 611 is disposed at the side of the base 1, one end of the vertical support frame 612 is connected with the other end of the horizontal support frame 611, one end of the inclined support frame 613 is connected with the other end of the vertical support frame 612, the other end of the inclined support frame 613 is connected with the upper support frame 62, and a yielding space 614 is formed between the inclined support frame 613 and the horizontal support frame 611. By arranging the abdicating space 614, the saddle 2 is convenient to mount, and by arranging the inclined support frame 613, the tool magazine 5 is convenient to approach the main shaft 41 on the machine head 4 so as to change tools, and due to the fact that the position of the tool magazine 5 is higher, when the machine head 4 moves downwards together with the main shaft 41 on the machine head 4 and approaches the workbench, the workpiece to be machined on the workbench is convenient to machine.

Further, the side of the base 1 is provided with a plurality of connecting holes 11 for connecting with the horizontal support frame 611, and the connecting holes 11 are arranged, so that the connecting holes 11 can be connected with different connecting holes 11, the position of the support 6 can be adjusted, and the tool magazine 5 can be used for tool changing conveniently. A vertical reinforcing plate 615 and a plurality of horizontal reinforcing plates 616 can be arranged inside the lower supporting frame 61, the vertical reinforcing plate 615 is connected with the middle parts of the horizontal reinforcing plates 616, and the end part of each horizontal reinforcing plate 616 is connected with the inner side wall of the side plate of the lower supporting frame 61. Through setting up a vertical reinforcing plate 615 and a plurality of horizontal reinforcing plate 616, can effectively improve the intensity of bottom suspension strut 61, be the cavity between vertical reinforcing plate 615 and a plurality of horizontal reinforcing plate 616 simultaneously for the whole weight of bottom suspension strut 61 is lighter.

In some examples, the base 1 is provided with an inclined surface 12 for debris removal. Through setting up inclined plane 12, the piece that produces when treating that the machined part adds man-hour can be along the 12 landing on inclined plane, prevents that the piece from influencing processing, is convenient for in time discharge the piece.

Furthermore, an X-axis slide rail 13, an X-axis driving mechanism 14 and an X-axis screw rod 15 are arranged on the base 1, and the X-axis driving mechanism drives the X-axis screw rod 15 to rotate; the bottom of the saddle 2 is provided with an X-axis sliding block 21 and an X-axis connecting seat 22, the X-axis sliding block 21 is connected with an X-axis sliding rail 13 in a sliding manner, and the X-axis connecting seat 22 is connected with an X-axis screw rod 15 and driven by the rotating X-axis screw rod 15 to move. Through the arrangement of the X-axis slide rail 13, the X-axis driving mechanism 14 and the X-axis screw rod 15, the X-axis driving mechanism 14 can drive the X-axis screw rod 15 to rotate, so that the X-axis connecting seat 22 is driven to move, the X-axis sliding block 21 slides along the X-axis slide rail 13, and the saddle 2 can move along the X-axis direction.

In some examples, a Z-axis slide rail 31, a Z-axis driving mechanism 32 and a Z-axis lead screw 33 are arranged on the upright post 3, and the Z-axis driving mechanism drives the Z-axis lead screw 33 to rotate; the lateral part of the machine head 4 is provided with a Z-axis sliding block and a Z-axis connecting seat, the Z-axis sliding block is connected with a Z-axis sliding rail 31 in a sliding manner, and the Z-axis connecting seat is connected with a Z-axis screw rod 33 and is driven by the rotating Z-axis screw rod 33 to move. Through the arrangement of the Z-axis slide rail 31, the Z-axis driving mechanism 32 and the Z-axis screw 33, the Z-axis driving mechanism 32 can drive the Z-axis screw 33 to rotate, so that the Z-axis connecting seat is driven to move, the Z-axis sliding block slides along the Z-axis slide rail 31, and the machine head 4 can move along the Z-axis direction.

The column 3 includes a back surface 34, a first side surface 35, a mounting surface 36 and a second side surface 37, the back surface 34 is disposed in an inclined manner, the first side surface 35 is provided with a plurality of first trapezoidal reinforcing plates 351, the mounting surface 36 is used for mounting the Z-axis slide rail 31, the Z-axis driving mechanism 32 and the Z-axis screw 33, and the second side surface 37 is provided with a plurality of second trapezoidal reinforcing plates 371. The back surface 34 is arranged obliquely, so that the cross section of the side part of the upright post 3 is in a right-angled ladder shape, and the weight of the upright post 3 is reduced. By providing the plurality of first trapezoidal reinforcing plates 351 and the plurality of second trapezoidal reinforcing plates 371, the strength of the first side surface 35 and the second side surface 37 can be effectively enhanced.

A connecting shaft 38 is provided inside the column 3, and the connecting shaft 38 is connected to the back surface 34, the first side surface 35, the mounting surface 36, and the second side surface 37 via a plurality of X-shaped connecting brackets 381. Each X-shaped connecting frame 381 includes a first connecting frame 3811 and a second connecting frame 3812, one end of the first connecting frame 3811 is fixedly connected to the back surface 34 and the first side surface 35, the other end of the first connecting frame 3811 is fixedly connected to the mounting surface 36 and the second side surface 37, one end of the second connecting frame 3812 is fixedly connected to the back surface 34 and the second side surface 37, and the other end of the second connecting frame 3812 is fixedly connected to the mounting surface 36 and the first side surface 35. Through setting up a plurality of X shape link 381 for 3 middle parts of stand have the cavity, and X shape link 381 is connected with back 34, first side 35, installation face 36 and second side 37, and bulk strength is big, and whole weight is lighter, the removal of the stand 3 of further being convenient for, make use the less motor of drive power can be with the removal of driving the stand 3 fast, and the stand 3 translation rate is fast.

In some examples, the saddle 2 is provided with a Y-axis slide rail 23, a Y-axis driving mechanism 24 and a Y-axis screw rod 25, and the Y-axis driving mechanism drives the Y-axis screw rod 25 to rotate; the bottom of the upright post 3 is provided with a Y-axis sliding block 39 and a Y-axis connecting seat 310, the Y-axis sliding block 39 is connected with the Y-axis sliding rail 23 in a sliding manner, and the Y-axis connecting seat 310 is connected with the Y-axis screw rod 25 and is driven by the rotating Y-axis screw rod 25 to move. Through the arrangement of the Y-axis slide rail 23, the Y-axis driving mechanism 24 and the Y-axis screw rod 25, the Y-axis driving mechanism 24 can drive the Y-axis screw rod 25 to rotate, so that the Y-axis connecting seat 310 is driven to move, the Y-axis sliding block 39 slides along the Y-axis slide rail 23, and the upright post 3 can move along the Y-axis direction.

In some examples, the rotating mechanism 52 includes a rotating motor 521, a speed reducer, and a cutter head transmission mechanism, the rotating motor 521 is disposed on the mounting seat 51, the speed reducer is connected with the rotating motor 521, and the cutter head transmission mechanism is connected with the speed reducer and drives the cutter head 511 to rotate. Through the arrangement of the rotating motor 521, when tool changing is needed, the rotating motor 521 can drive the cutter 511 to rotate through the speed reducer and the cutter transmission mechanism, so that a tool on the cutter 511 rotates to the lower part, and the tool changing mechanism 53 can conveniently change the tool. A relief hole 513 is formed below the mounting seat 51, and after the cutter on the cutter disc 511 rotates downward and is located at the relief hole 513, the rotating mechanism of the cutter holder 512 drives the cutter holder 512 to rotate 90 degrees, so that the cutter changing mechanism 53 can change the cutter.

In this example, the tool changing mechanism 53 includes a tool changing cylinder 531, a tool changing actuator 532, and a tool changing arm 533, the tool changing cylinder 531 is disposed on the mounting base 51, the tool changing actuator 532 is connected to the tool changing cylinder 531, and the tool changing arm 533 is connected to the tool changing actuator 532. The tool changing cylinder 531 drives the tool changing arm 533 to rotate through the tool changing driver 532, so that the tools on the main shaft 41 and the tool magazine 5 are switched, and the switching efficiency is high.

Compared with the prior art, the utility model discloses a set up base 1, saddle 2, stand 3, aircraft nose 4 and tool magazine 5, tool magazine 5 passes through support 6 and is connected with base 1 for tool magazine 5 is not connected with stand 3, thereby reduces the part of being connected with stand 3, makes stand 3 and the whole weight of the part of setting on stand 3 lighter, thereby is convenient for stand 3 to remove. The support 6 does not generate displacement, so that the tool magazine 5 can be firmly fixed on the base 1 through the support 6.

The above embodiments and drawings are not intended to limit the form and style of the present invention, and any suitable changes or modifications made by those skilled in the art should not be construed as departing from the scope of the present invention.

Claims (10)

1. The utility model provides a column type exchange platform machining center machine which characterized in that: comprises a base, a saddle, an upright post, a machine head and a tool magazine; the saddle is movably arranged on the base along the X-axis direction; the upright post is movably arranged on the saddle along the Y-axis direction; the machine head is movably arranged on the upright column along the Z-axis direction, a main shaft is arranged on the machine head, and a cutter for processing is arranged on the main shaft; the tool magazine is provided with a plurality of tools, the tools on the tool magazine are used for switching with the tools on the main shaft, the tool magazine is connected with the base through a support, the support comprises a lower support frame and an upper support frame, one end of the lower support frame is fixed on the side part of the base, the bottom of the upper support frame is fixed at the other end of the lower support frame, and the side part of the upper support frame is connected with the tool magazine.

2. The column exchange machining center according to claim 1, wherein: the lower support frame comprises a horizontal support frame, a vertical support frame and an inclined support frame, one end of the horizontal support frame is arranged on the side portion of the base, one end of the vertical support frame is connected with the other end of the horizontal support frame, one end of the inclined support frame is connected with the other end of the vertical support frame, the upper support frame is connected with the other end of the inclined support frame, and a yielding space is formed between the inclined support frame and the horizontal support frame.

3. The column exchange machining center according to claim 1, wherein: the base is provided with an inclined surface for chip removal.

4. The column exchange machining center according to claim 1, wherein: the X-axis slide rail, the X-axis driving mechanism and the X-axis screw rod are arranged on the base, and the X-axis driving mechanism drives the X-axis screw rod to rotate; the X-axis sliding block and the X-axis connecting seat are arranged at the bottom of the saddle, the X-axis sliding block is connected with the X-axis sliding rail in a sliding mode, and the X-axis connecting seat is connected with the X-axis screw rod and driven to move by the rotating X-axis screw rod.

5. The column exchange machining center according to claim 1, wherein: the saddle is provided with a Y-axis slide rail, a Y-axis driving mechanism and a Y-axis screw rod, and the Y-axis driving mechanism drives the Y-axis screw rod to rotate; the bottom of the upright post is provided with a Y-axis sliding block and a Y-axis connecting seat, the Y-axis sliding block is connected with a Y-axis sliding rail in a sliding manner, and the Y-axis connecting seat is connected with a Y-axis screw rod and is driven by the rotating Y-axis screw rod to move.

6. The column exchange machining center according to claim 1, wherein: the upright post is provided with a Z-axis slide rail, a Z-axis driving mechanism and a Z-axis screw rod, and the Z-axis driving mechanism drives the Z-axis screw rod to rotate; the lateral part of the machine head is provided with a Z-axis sliding block and a Z-axis connecting seat, the Z-axis sliding block is connected with a Z-axis sliding rail in a sliding manner, and the Z-axis connecting seat is connected with a Z-axis screw rod and is driven by the rotating Z-axis screw rod to move.

7. The column exchange machining center according to claim 6, wherein: the stand includes back, first side, installation face and second side, and the back slope sets up, sets up a plurality of trapezoidal reinforcing plates on the first side, and the installation face is used for installing Z axle slide rail, Z axle actuating mechanism and Z axle lead screw, sets up a plurality of trapezoidal reinforcing plates of second on the second side.

8. The column exchange machining center according to claim 1, wherein: the tool magazine comprises a mounting seat, a rotating mechanism and a tool changing mechanism, wherein a cutter disc is arranged on one side of the mounting seat, a plurality of cutter seats used for containing different tools are arranged on the cutter disc, each cutter seat is used for containing a tool, the rotating mechanism is arranged on the mounting seat, the rotating mechanism drives the cutter disc to rotate, the tool changing mechanism is arranged on the mounting seat, and the tools on the cutter seats and the tools on the main shaft are switched by the tool changing mechanism.

9. The column exchange machining center according to claim 8, wherein: the rotating mechanism comprises a rotating motor, a speed reducer and a cutter head transmission mechanism, the rotating motor is arranged on the mounting seat, the speed reducer is connected with the rotating motor, and the cutter head transmission mechanism is connected with the speed reducer and drives the cutter head to rotate.

10. The column exchange machining center according to claim 8, wherein: the tool changing mechanism comprises a tool changing cylinder, a tool changing driver and a tool changing arm, the tool changing cylinder is arranged on the mounting seat, the tool changing driver is connected with the tool changing cylinder, and the tool changing arm is connected with the tool changing driver.

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