CN212946516U - Swing shaft type aluminum product machining center - Google Patents

Abstract

The utility model discloses a swing shaft type aluminum product machining center, which comprises a machine body, a clamp component, a baffle component, an X-axis displacement mechanism, a machine head frame, a Z-axis displacement mechanism, a Y-axis displacement mechanism and a machine head; the clamp assembly is used for placing clamping sectional materials, the sectional materials are blocked by the baffle plate assembly to be positioned, the baffle plate pushes the rotary shaft seat to turn over through the air cylinder, the baffle plate is prevented from turning over due to collision of the sectional materials, and the baffle plate is always kept in a vertical state; the position of the machine head is adjusted through the X-axis displacement mechanism, the Y-axis displacement mechanism and the Z-axis displacement mechanism, and the machine head is rotated through the driving motor, so that three sides of the section are machined.

Description

Swing shaft type aluminum product machining center

Technical Field

The utility model relates to a machining's technical field, in particular to pendulum shaft type aluminum product machining center.

Background

In the current course of working, need carry out the manufacturing procedure such as trompil, fluting to the section bar usually, current machining center can only process to the single face of section bar, and the remaining face needs add man-hour, needs the manual work to overturn the section bar, current machining center, when baffle device blockked that the section bar removes and makes the section bar stop the location, the skew appears because of the section bar striking in baffle device, and then the deviation appears in the stop position that makes the section bar to lead to the processing deviation, consequently need improve above-mentioned technical problem.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, the utility model provides a pivot formula aluminum product machining center can once accomplish the trilateral processing of shaping material to the machining precision is accurate.

According to the utility model discloses a pendulum shaft type aluminum product machining center, including fuselage, anchor clamps subassembly, baffle subassembly, X axle displacement mechanism, headstock, Z axle displacement mechanism, Y axle displacement mechanism, aircraft nose; the clamp assemblies are arranged on the front side plate of the machine body; the baffle assembly is fixed on the left side of the machine body and comprises a baffle, a rotary shaft seat and an air cylinder, the rotary shaft seat is fixed on the back side of the baffle, one end of the rotary shaft seat is rotatably arranged on a baffle bottom plate, the rotary shaft seat is rotatably connected with the air cylinder, the bottom of the air cylinder is rotatably arranged on an air cylinder bottom plate, and the air cylinder bottom plate is connected with the baffle bottom plate; the X-axis displacement mechanism is fixed on a rear side plate of the machine body; the machine head frame is arranged on the X-axis displacement mechanism; the Z-axis displacement mechanism is fixed on the headstock; the Y-axis displacement mechanism is fixed on the Z-axis displacement mechanism; the machine head is arranged on the Y-axis displacement mechanism and is connected with a driving motor, and the machine head is rotated through the driving motor.

According to the utility model discloses a portable warm quilt machine has following beneficial effect at least:

the clamp assembly is used for placing clamping sectional materials, the sectional materials are blocked by the baffle plate assembly to be positioned, the baffle plate pushes the rotary shaft seat to turn over through the air cylinder, the baffle plate is prevented from turning over due to collision of the sectional materials, and the baffle plate is always kept in a vertical state; the position of the machine head is adjusted through the X-axis displacement mechanism, the Y-axis displacement mechanism and the Z-axis displacement mechanism, and the machine head is rotated through the driving motor, so that three sides of the section are machined.

According to some embodiments of the present invention, a first clamp slide rail is fixed on a front side plate of the machine body, a second clamp slide rail is fixed on a front portion of a top plate of the machine body, and at least two sets of clamp assemblies are slidably mounted on the first clamp slide rail and the second clamp slide rail; the clamp assembly comprises a first side plate, a second side plate, a bottom plate and a clamp cylinder, wherein the first side plate is arranged on the first clamp slide rail through a slide block, the second side plate is arranged on the second clamp slide rail through a slide block, the top of the first side plate and the top of the second side plate are fixedly provided with the bottom plate, the clamp cylinder is arranged at the top of one end of the bottom plate, a movable baffle is arranged on the clamp cylinder, and a fixed baffle facing the movable baffle is arranged at the top of the other end of the bottom plate.

According to some embodiments of the utility model, the side of first curb plate is connected with the connecting plate, be equipped with first latch segment, second latch segment on the connecting plate respectively, through first latch segment with the second latch segment will first anchor clamps slide rail presss from both sides tightly.

According to some embodiments of the utility model, it has T shape spout to open on the bottom plate, T shape nut is equipped with in the T shape spout, anchor clamps cylinder fixed mounting is on the cylinder mount pad, cylinder mount pad bottom with T shape nut is connected.

According to the utility model discloses a some embodiments, driving motor adopts the RV motor, the last rotatory speed reducer that is equipped with of driving motor, rotatory speed reducer is fixed in through the support frame on the Y axle displacement mechanism, connect the main shaft rotor plate on the rotatory speed reducer, the main shaft rotor plate with driving motor fixed connection.

According to some embodiments of the utility model, the headstock includes horizontal stand, vertical frame, the horizontal stand is located the fuselage top, fixed mounting is gone up to the horizontal stand Z axle displacement mechanism, vertical frame bottom is fixed on the X axle displacement mechanism.

According to some embodiments of the utility model, X axle displacement mechanism includes L shape displacement plate, displacement rack, first X axis rail, second X axis rail, X axle displacement motor, L shape displacement plate is fixed in perpendicular frame bottom, first X axis rail is fixed in the roof rear portion of fuselage, second X axis rail is fixed in the lower part of the posterior lateral plate of fuselage, the displacement rack is fixed in the upper portion of the posterior lateral plate of fuselage and with second X axis rail is parallel, X axle displacement motor is fixed in on the L shape displacement plate, be equipped with the displacement gear on the power shaft of X axle displacement motor, the displacement gear with displacement rack toothing.

According to some embodiments of the present invention, the Z-axis displacement mechanism includes two Z-axis rails, two Z-axis threaded rods, two Z-axis nuts, and a Z-axis displacement motor, the two Z-axis rails are parallel to each other, the two Z-axis rails are fixed on a side plate of the horizontal frame, the Z-axis threaded rods are located between the two Z-axis rails and parallel to each other, two ends of the Z-axis threaded rods are fixed on the horizontal frame through a first bearing seat, and the Z-axis threaded rods are driven to rotate by the Z-axis displacement motor; the Z-axis rail is provided with a Z-axis sliding block, the Z-axis sliding block is fixedly provided with a Y-axis fixing plate, the Y-axis fixing plate is provided with a screw rod seat, the Z-axis nut is fixed on the screw rod seat and is in threaded connection with the Z-axis threaded rod, and the Y-axis displacement mechanism is fixedly installed on the Y-axis fixing plate.

According to the utility model discloses a some embodiments, Y axle displacement mechanism includes Y axle rail, Y axle threaded rod, Y axle nut, Y axle displacement motor, the Y axle rail adopts two and mutual parallel to fix on Y axle bottom plate, two be equipped with Y axle slider on the Y axle rail, Y axle slider is fixed on the Y axle fixed plate, Y axle threaded rod is located two between the Y axle rail, Y axle nut with Y axle threaded rod threaded connection just is fixed in on the Y axle fixed plate, install on the Y axle fixed plate the aircraft nose, the second bearing frame is equipped with at the both ends of Y axle threaded rod, the second bearing frame is fixed in on the Y axle bottom plate, Y axle bottom plate top is equipped with and is used for fixing the motor cabinet of Y axle displacement motor, Y axle displacement motor is used for the drive Y axle threaded rod is rotatory.

According to the utility model discloses a some embodiments, baffle subassembly left side is equipped with the tool magazine, the tool magazine includes tool magazine frame, sword card, the sword card adopts two at least and arranges and is fixed in tool magazine frame top, the tool magazine frame is fixed in on the fuselage.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a first perspective view of an embodiment of the present invention;

fig. 2 is a perspective view of the embodiment of the present invention;

fig. 3 is a right side schematic view of an embodiment of the present invention;

fig. 4 is a schematic view of a machine head and a Z-axis displacement mechanism according to an embodiment of the present invention;

fig. 5 is a schematic view of a machine head, a Y-axis displacement mechanism and a Z-axis displacement mechanism according to an embodiment of the present invention;

fig. 6 is a schematic cross-sectional view of a Y-axis displacement mechanism according to an embodiment of the present invention;

fig. 7 is a schematic view of a handpiece in an embodiment of the present invention;

FIG. 8 is a schematic view of a baffle assembly according to an embodiment of the present invention;

fig. 9 is a schematic view of a clamp assembly according to an embodiment of the present invention.

A body 100, a first clamp rail 110, a second clamp rail 120; the clamp assembly 200, the first side plate 210, the second side plate 220, the bottom plate 230, the T-shaped sliding groove 231, the T-shaped nut 232, the clamp cylinder 240, the movable baffle 241, the fixed baffle 250, the connecting plate 260, the first locking block 270, the second locking block 280 and the cylinder mounting seat 290; the baffle plate assembly 300, the baffle plate 310, the rotary shaft seat 320, the air cylinder 330, the baffle plate bottom plate 340 and the air cylinder bottom plate 350; the X-axis displacement mechanism 400, the L-shaped displacement plate 410, the displacement rack 420, the first X-axis rail 430, the second X-axis rail 440, the X-axis displacement motor 450 and the displacement gear 460; a headstock 500, a horizontal frame 510, a vertical frame 520; the device comprises a Z-axis displacement mechanism 600, a Z-axis linear rail 610, a Z-axis threaded rod 620, a Z-axis nut 630, a Z-axis displacement motor 640, a first bearing seat 650, a Z-axis sliding block 660, a Y-axis fixing plate 670 and a screw rod seat 680; a Y-axis displacement mechanism 700, a Y-axis rail 710, a Y-axis threaded rod 720, a Y-axis nut 730, a Y-axis displacement motor 740, a second bearing pedestal 750 and a motor pedestal 760; the machine head 800, the driving motor 810, the rotary speed reducer 820, the supporting frame 830 and the spindle rotating plate 840; tool magazine 900, tool magazine rack 910, tool card 920.

Detailed Description

Reference will now be made in detail to 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 function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

Referring to fig. 1, 2 and 8, a swing shaft type aluminum material machining center comprises a machine body 100, a clamp assembly 200, a baffle assembly 300, an X-axis displacement mechanism 400, a machine head frame 500, a Z-axis displacement mechanism 600, a Y-axis displacement mechanism 700 and a machine head 800; the clamp assembly 200 is arranged on the front side plate of the machine body 100, the clamp assembly 200 is used for placing and clamping the section bar, the baffle plate assembly 300 is fixed on the left side of the machine body 100, and the section bar is stopped and positioned through the baffle plate assembly 300.

The back side of a baffle plate 310 in the baffle plate assembly 300 is fixedly provided with a rotary shaft seat 320, one end of the rotary shaft seat 320 is rotatably arranged on a baffle plate base plate 340, the rotary shaft seat 320 is rotatably connected with an air cylinder 330, the bottom of the air cylinder 330 is rotatably arranged on an air cylinder base plate 350, the air cylinder base plate 350 is connected with the baffle plate base plate 340, the rotary shaft seat 320 is pushed by the air cylinder 330, so that the baffle plate 310 rotates to be vertical and is kept, the baffle plate 310 is not overturned due to the collision of the sectional materials, and the sectional materials.

An X-axis displacement mechanism 400 is installed on a rear side plate of the machine body 100, a machine head frame 500 is installed on the X-axis displacement mechanism 400, a Z-axis displacement mechanism 600 is installed on the machine head frame 500, a Y-axis displacement mechanism 700 is installed on the Z-axis displacement mechanism 600, a machine head 800 is installed on the Y-axis displacement mechanism 700, the machine head 800 rotates by a driving motor 810,

a rotation shaft holder 320 to which the X-axis displacement mechanism 400 is fixed to the back side of the barrier 310; the headstock 500 is mounted thereon; the Z-axis displacement mechanism 600 is fixed thereto; the Y-axis displacement mechanism 700 is fixed to the Z-axis displacement mechanism 600; the machine head 800 is mounted on the Y-axis displacement mechanism 700, the machine head 800 is connected with a driving motor 810, and the machine head 800 is rotated by the driving motor 810; the position of the machine head 800 is adjusted by the X-axis displacement mechanism 400, the Y-axis displacement mechanism 700 and the Z-axis displacement mechanism 600, and the machine head 800 rotates by the driving motor 810, so that the machine head 800 can face the front side, the back side and the top of the section bar, and three sides are machined.

Referring to fig. 9, a first clamp slide rail 110 is fixed on a front side plate of the machine body 100, a second clamp slide rail 120 is fixed on a front portion of a top plate of the machine body 100, the clamp assembly 200 is slidably mounted on the first clamp slide rail 110 and the second clamp slide rail 120, and the position of the clamp assembly 200 is adjustable through the first clamp slide rail 110 and the second clamp slide rail 120, so that the clamp assembly 200 is prevented from blocking a position where a section bar needs to be processed; and the number of the clamp assemblies 200 can be selected according to the size of the profile, and at least two groups of the clamp assemblies 200 are adopted to realize the bearing of the profile.

The clamp assembly 200 comprises a first side plate 210, a second side plate 220, a bottom plate 230 and a clamp cylinder 240, wherein the first side plate 210 is mounted on the first clamp slide rail 110 through a slide block, the second side plate 220 is mounted on the second clamp slide rail 120 through a slide block, the top of the first side plate 210 and the top of the second side plate 220 are fixedly connected to the bottom of the bottom plate 230, the clamp cylinder 240 is mounted at the top of one end of the bottom plate 230, a movable baffle 241 is mounted on the clamp cylinder 240, a fixed baffle 250 is mounted at the top of the other end of the bottom plate 230, and the movable baffle 241 is pushed to the fixed baffle 250 through the clamp cylinder 240, so that the section bar is clamped and.

In order to fix the position of the clamp assembly 200, a connecting plate 260 is connected to a side edge of the first side plate 210, a first locking block 270 and a second locking block 280 are respectively mounted on the connecting plate 260, and the first clamp slide rail 110 is clamped by the first locking block 270 and the second locking block 280, so that the position of the first side plate 210 on the first clamp slide rail 110 is fixed; a handle is attached to the first locking block 270, and the first locking block 270 is pressed against the first clamp rail 110 by rotating the handle, or the first clamp rail 110 is released from being pressed.

Because the specifications of the profiles are different, the position of the clamp cylinder 240 needs to be adjusted, a T-shaped sliding groove 231 is formed in the bottom plate 230, a T-shaped nut 232 is installed in the T-shaped sliding groove 231, the clamp cylinder 240 is fixedly installed on the cylinder installation seat 290, and the bottom of the cylinder installation seat 290 is connected with the T-shaped nut 232, so that the position of the clamp cylinder 240 can be adjusted.

Referring to fig. 6 and 7, the driving motor 810 adopts an RV motor, the driving motor 810 is provided with a rotary speed reducer 820, the rotary speed reducer 820 is fixed on the Y-axis displacement mechanism 700 through a support frame 830, a spindle rotating plate 840 is connected to the rotary speed reducer 820, and the spindle rotating plate 840 is fixedly connected with the driving motor 810.

Referring to fig. 3, the headstock 500 includes a horizontal frame 510 and a vertical frame 520, the horizontal frame 510 is located above the machine body 100, the horizontal frame 510 is fixedly mounted with the Z-axis displacement mechanism 600, and the bottom of the vertical frame 520 is fixed to the X-axis displacement mechanism 400.

The X-axis displacement mechanism 400 includes an L-shaped displacement plate 410, a displacement rack 420, a first X-axis rail 430, a second X-axis rail 440, and an X-axis displacement motor 450, wherein the L-shaped displacement plate 410 is fixed at the bottom of a vertical frame 520, the first X-axis rail 430 is fixed at the rear of the top plate of the machine body 100, the second X-axis rail 440 is fixed at the lower part of the rear side plate of the machine body 100, the displacement rack 420 is fixed at the upper part of the rear side plate of the machine body 100 and is parallel to the second X-axis rail 440, the X-axis displacement motor 450 is fixed on the L-shaped displacement plate 410, a displacement gear 460 is mounted on the power shaft of the X-axis displacement motor 450, and the displacement gear 460 is engaged with the displacement.

Referring to fig. 4 and 5, the Z-axis displacement mechanism 600 includes two Z-axis rails 610, two Z-axis threaded rods 620, two Z-axis nuts 630, and a Z-axis displacement motor 640, where the two Z-axis rails 610 are parallel to each other, the two Z-axis rails 610 are fixed to a side plate of the horizontal frame 510, the Z-axis threaded rods 620 are located between the two Z-axis rails 610 and parallel to each other, two ends of the Z-axis threaded rods 620 are fixed to the horizontal frame 510 through first bearing seats 650, and the Z-axis threaded rods 620 are driven to rotate by the Z-axis displacement motor 640; a Z-axis sliding block 660 is installed on the Z-axis linear rail 610, a Y-axis fixing plate 670 is fixed on the Z-axis sliding block 660, a screw rod seat 680 is installed on the Y-axis fixing plate 670, a Z-axis nut 630 is fixed on the screw rod seat 680 and is in threaded connection with the Z-axis threaded rod 620, and a Y-axis displacement mechanism 700 is fixedly installed on the Y-axis fixing plate 670.

Referring to fig. 5 and 6, the Y-axis displacement mechanism 700 includes two Y-axis rails 710, two Y-axis threaded rods 720, two Y-axis nuts 730, and a Y-axis displacement motor 740, the two Y-axis rails 710 are fixed on a Y-axis base plate 770 in parallel, the two Y-axis rails 710 are provided with Y-axis sliders 780, the Y-axis sliders 780 are fixed on a Y-axis fixing plate 670, the Y-axis threaded rod 720 is located between the two Y-axis rails 710, the Y-axis nuts 730 are in threaded connection with the Y-axis threaded rods 720 and are fixed on the Y-axis fixing plate 670, the machine head 800 is mounted on the Y-axis fixing plate 670, two ends of the Y-axis threaded rod 720 are provided with second bearing blocks 750, the second bearing blocks 750 are fixed on the Y-axis base plate 770, the top of the Y-axis base plate 770 is provided with a motor base 760 for fixing the.

Referring to fig. 1, a tool magazine 900 is disposed on the left side of the baffle assembly 300, the tool magazine 900 includes at least two tool magazine frames 910 and at least two tool cards 920, the at least two tool cards 920 are arranged and fixed on the top of the tool magazine frame 910, the tool magazine frames 910 are fixed on the machine body 100, and the tool cards 920 are provided with machining tools.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. A pendulum shaft type aluminum product machining center is characterized by comprising:

a body (100);

the clamp assembly (200), the clamp assembly (200) is arranged on the front side plate of the machine body (100);

the baffle assembly (300) is fixed on the left side of the machine body (100), the baffle assembly (300) comprises a baffle plate (310), a rotary shaft seat (320) and a cylinder (330), the rotary shaft seat (320) is fixed on the back side of the baffle plate (310), one end of the rotary shaft seat (320) is rotatably installed on a baffle bottom plate (340), the rotary shaft seat (320) is rotatably connected with the cylinder (330), the bottom of the cylinder (330) is rotatably installed on a cylinder bottom plate (350), and the cylinder bottom plate (350) is connected with the baffle bottom plate (340);

an X-axis displacement mechanism (400), wherein the X-axis displacement mechanism (400) is fixed on a rear side plate of the machine body (100);

a headstock (500), said headstock (500) mounted on said X-axis displacement mechanism (400);

a Z-axis displacement mechanism (600), the Z-axis displacement mechanism (600) being fixed to the headstock (500);

a Y-axis displacement mechanism (700), the Y-axis displacement mechanism (700) being fixed to the Z-axis displacement mechanism (600);

the machine head (800), the machine head (800) is arranged on the Y-axis displacement mechanism (700), the machine head (800) is connected with a driving motor (810), and the machine head (800) is rotated through the driving motor (810).

2. The swing shaft type aluminum material machining center according to claim 1, wherein a first clamp slide rail (110) is fixed on a front side plate of the machine body (100), a second clamp slide rail (120) is fixed on a front portion of a top plate of the machine body (100), and at least two sets of clamp assemblies (200) are adopted and are slidably mounted on the first clamp slide rail (110) and the second clamp slide rail (120); the clamp assembly (200) comprises a first side plate (210), a second side plate (220), a bottom plate (230) and a clamp cylinder (240), wherein the first side plate (210) is installed on the first clamp sliding rail (110) through a sliding block, the second side plate (220) is installed on the second clamp sliding rail (120) through a sliding block, the bottom plate (230) is fixed on the top of the first side plate (210) and the top of the second side plate (220), the clamp cylinder (240) is installed at the top of one end of the bottom plate (230), a movable baffle (241) is installed on the clamp cylinder (240), and a fixed baffle (250) facing the movable baffle (241) is installed at the top of the other end of the bottom plate (230).

3. The swing shaft type aluminum material machining center of claim 2, wherein a connecting plate (260) is connected to a side edge of the first side plate (210), a first locking block (270) and a second locking block (280) are respectively mounted on the connecting plate (260), and the first clamp sliding rail (110) is clamped through the first locking block (270) and the second locking block (280).

4. The swing shaft type aluminum material machining center according to claim 2, wherein a T-shaped sliding groove (231) is formed in the bottom plate (230), a T-shaped nut (232) is installed in the T-shaped sliding groove (231), the clamp air cylinder (240) is fixedly installed on an air cylinder installation seat (290), and the bottom of the air cylinder installation seat (290) is connected with the T-shaped nut (232).

5. The swing shaft type aluminum material machining center of claim 1, wherein the driving motor (810) is an RV motor, a rotary speed reducer (820) is mounted on the driving motor (810), the rotary speed reducer (820) is fixed on the Y-axis displacement mechanism (700) through a support frame (830), a main shaft rotating plate (840) is connected to the rotary speed reducer (820), and the main shaft rotating plate (840) is fixedly connected with the driving motor (810).

6. The swing shaft type aluminum material machining center of claim 1, wherein the headstock (500) comprises a horizontal frame (510) and a vertical frame (520), the horizontal frame (510) is located above the machine body (100), the Z-axis displacement mechanism (600) is fixedly mounted on the horizontal frame (510), and the bottom of the vertical frame (520) is fixed on the X-axis displacement mechanism (400).

7. The swing shaft type aluminum material processing center of claim 6, wherein the X-axis displacement mechanism (400) comprises an L-shaped displacement plate (410), a displacement rack (420), a first X-axis rail (430), a second X-axis rail (440), and an X-axis displacement motor (450), the L-shaped displacement plate (410) is fixed at the bottom of the vertical frame (520), the first X-axis rail (430) is fixed at the rear part of the top plate of the machine body (100), the second X-axis rail (440) is fixed at the lower part of the rear side plate of the machine body (100), the displacement rack (420) is fixed at the upper part of the rear side plate of the machine body (100) and is parallel to the second X-axis rail (440), the X-axis displacement motor (450) is fixed on the L-shaped displacement plate (410), and a displacement gear (460) is installed on the power shaft of the X-axis displacement motor (450), the displacement gear (460) is engaged with the displacement rack (420).

8. The swing shaft type aluminum material processing center of claim 6, wherein the Z-axis displacement mechanism (600) comprises two Z-axis rails (610), two Z-axis threaded rods (620), two Z-axis nuts (630) and a Z-axis displacement motor (640), the two Z-axis rails (610) are parallel to each other, the two Z-axis rails (610) are fixed on side plates of the horizontal frame (510), the Z-axis threaded rod (620) is located between the two Z-axis rails (610) and is parallel to each other, two ends of the Z-axis threaded rod (620) are fixed on the horizontal frame (510) through first bearing seats (650), and the Z-axis threaded rod (620) is driven to rotate by the Z-axis displacement motor (640); z axle slider (660) is equipped with on Z axle linear rail (610), be fixed with Y axle fixed plate (670) on Z axle slider (660), screw base (680) are equipped with on Y axle fixed plate (670), Z axle nut (630) are fixed in on screw base (680) and with Z axle threaded rod (620) threaded connection, fixed mounting is gone up in Y axle fixed plate (670) Y axle displacement mechanism (700).

9. The swing shaft type aluminum material processing center of claim 8, wherein the Y-axis displacement mechanism (700) comprises two Y-axis rails (710), two Y-axis threaded rods (720), two Y-axis nuts (730), and a Y-axis displacement motor (740), the two Y-axis rails (710) are fixed on a Y-axis base plate (770) in parallel, Y-axis sliders (780) are mounted on the two Y-axis rails (710), the Y-axis sliders (780) are fixed on the Y-axis fixing plate (670), the Y-axis threaded rod (720) is located between the two Y-axis rails (710), the Y-axis nuts (730) are in threaded connection with the Y-axis threaded rods (720) and are fixed on the Y-axis fixing plate (670), the machine head (800) is mounted on the Y-axis fixing plate (670), and second bearing seats (750) are mounted at two ends of the Y-axis threaded rods (720), the second bearing seat (750) is fixed on the Y-axis bottom plate (770), a motor seat (760) used for fixing the Y-axis displacement motor (740) is arranged at the top of the Y-axis bottom plate (770), and the Y-axis displacement motor (740) is used for driving the Y-axis threaded rod (720) to rotate.

10. The swing shaft type aluminum material machining center according to claim 1, wherein a tool magazine (900) is arranged on the left side of the baffle plate assembly (300), the tool magazine (900) comprises tool magazine frames (910) and tool clamps (920), the tool clamps (920) are fixed on the tops of the tool magazine frames (910) in at least two rows, and the tool magazine frames (910) are fixed on the machine body (100).

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