CN215035349U - Horizontal five-axis machining center of powerful board that turns over - Google Patents

Abstract

The utility model belongs to the lathe field, concretely relates to horizontal five-axis machining center of powerful board that turns over. The technical scheme is as follows: the X-axis linear motion assembly, the Y-axis linear motion assembly, the Z-axis linear motion assembly, the five mechanical shaft heads, the turning plate assembly and the exchange workbench assembly are included, and the five mechanical shaft heads are provided with an A/C axis rotating assembly and an SP main shaft; the X-axis linear motion assembly, the Y-axis linear motion assembly and the Z-axis linear motion assembly drive the SP main shaft to do linear motion within a space stroke range; the A/C shaft rotating assembly drives the SP main shaft to do spatial curved surface motion; the turnover plate assembly is used for turning the workbench and the workpiece from a horizontal position to a vertical position in the material preparation area; the exchange workbench assembly is used for moving the workbench and the workpiece between the material preparation area and the processing area. The utility model discloses can carry out big cutting force processing and five-axis linkage finish machining, be fit for the aviation structure processing of the high and complicated curved surface of metal clearance.

Description

Horizontal five-axis machining center of powerful board that turns over

Technical Field

The utility model belongs to the lathe field, concretely relates to horizontal five-axis machining center of powerful board that turns over.

Background

With the continuous development and progress of the economic society, the requirements of the large structural member on the precision and the rigidity are continuously improved. The traditional large structural member is welded, connected and the like, so that the strength of a workpiece cannot meet new requirements of the industry. Large structural parts are integrally machined and formed, and gradually become a new technical trend. Because of integral type machine-shaping, the metal clearance of part is very big, and the tradition of part is placed the mode and can not reach technical requirement.

SUMMERY OF THE UTILITY MODEL

The utility model provides a horizontal five-axis machining center with a powerful turning plate, which can perform large cutting force machining and five-axis linkage finish machining and is suitable for machining aviation structural parts with high metal removal rate and complex curved surfaces; the size of the workbench is large, and a large structural part can be clamped; the turnover plate structure is large in size, large in bearing capacity, stable in operation, accurate in positioning of the exchange workbench and high in efficiency.

The technical scheme of the utility model as follows:

a powerful turning plate horizontal five-axis machining center comprises an X-axis linear motion assembly, a Y-axis linear motion assembly, a Z-axis linear motion assembly, a five-axis mechanical head, a turning plate assembly and an exchange workbench assembly, wherein the five-axis mechanical head is provided with an A/C axis rotating assembly and an SP main shaft; the X-axis linear motion assembly, the Y-axis linear motion assembly and the Z-axis linear motion assembly drive the SP main shaft to do linear motion within a space stroke range; the A/C shaft rotating assembly drives the SP main shaft to do spatial curved surface motion; the turnover plate assembly is used for turning the workbench and the workpiece from a horizontal position to a vertical position in the material preparation area; the exchange workbench component is used for moving the workbench and the workpiece between the material preparation area and the processing area;

the X-axis linear motion assembly comprises an upright post, a sliding seat, X-axis hydrostatic guide rails and an X-axis driving mechanism, wherein two groups of X-axis hydrostatic guide rails are arranged on the right front part of a lathe bed of the machining center in parallel, the sliding seat is installed with the X-axis hydrostatic guide rails in a sliding fit manner, the upright post is arranged on the sliding seat, the X-axis driving mechanism is a gear meshing rack power applying structure, and the X-axis driving mechanism is used for driving the sliding seat to horizontally move left and right on the X-axis hydrostatic guide rails; the Y-axis linear motion assembly comprises a carriage, Y-axis hydrostatic guide rails and a Y-axis driving mechanism, wherein two groups of Y-axis hydrostatic guide rails are arranged on the upright column in parallel, the carriage and the Y-axis hydrostatic guide rails are arranged together in a sliding fit manner, the Y-axis driving mechanism is a structure in which double screw rods are matched with nuts to apply power, and the Y-axis driving mechanism is used for driving the carriage to vertically move on the Y-axis hydrostatic guide rails; the Z-axis linear motion assembly comprises a ram, linear guide rails and a Z-axis driving mechanism, three groups of linear guide rails are arranged on the carriage in parallel, the ram and the linear guide rails are arranged together in a sliding fit manner, and the Z-axis driving mechanism is used for driving the ram to horizontally move back and forth on the linear guide rails; the five mechanical shafts are arranged on the ram; the center of an A-axis rotating shaft of the A/C-axis rotating assembly is parallel to an X axis, and a C-axis revolving axis is parallel to a Z axis;

the vertical bed body is vertically arranged on the right rear part of the bed body, and the cross beam is arranged on the vertical bed body; the upright post is provided with an auxiliary sliding seat, and the auxiliary sliding seat is arranged together with the cross beam in a sliding fit manner;

the turnover plate assembly comprises a frame seat, a turnover plate, a plurality of turnover shafts, a plurality of support plates, a plurality of turnover units, two groups of material preparation areas and two groups of exchange sliding seats, wherein the frame seat is arranged on the left part of the lathe bed; a plurality of turnover shafts are sequentially arranged on a long frame of the frame seat, and the turnover shafts are rotatably connected with the frame seat; the turnover units are arranged on the other long frame of the frame seat at equal intervals and comprise servo motors, speed reducers and gears, the speed reducers are connected with the output ends of the servo motors, and the gears are fixedly arranged on the output ends of the speed reducers; the supporting plate is a fan-shaped plate, a gear ring is arranged on the outer edge of the supporting plate, and the circle center of the supporting plate is fixedly connected with the turnover shaft; the gear is meshed with the gear ring; the turning plate is vertically and fixedly arranged with the support plates; the two groups of material preparation areas are respectively arranged on two sides of the frame seat, and the exchange sliding seat moves between the material preparation areas and the turning plate; the workbench is fixedly arranged on the exchange sliding seat, and the workpiece is fixedly arranged on the workbench.

Furthermore, a limiting mechanism is arranged beside the turnover unit and used for limiting the support plate after being turned over for 90 degrees; the limiting mechanism comprises a first air cylinder, a fixing block and a wedge-shaped adjusting pad, the first air cylinder and the wedge-shaped adjusting pad are fixedly mounted on the frame seat, the fixing block is fixedly mounted on a piston rod of the first air cylinder, the fixing block is used for positioning the lower end face of the end of the supporting plate to realize lower end locking, and the wedge-shaped adjusting pad is used for positioning the upper end face of the end of the supporting plate to realize upper limit positioning; the material preparation area is provided with 10 guide rails and two sets of worms driven by a motor, 10 sets of idler wheels and two needle roller bearing sets are arranged below the exchange sliding seat, the idler wheels are installed in a matched mode with the guide rails, the needle roller bearing sets are installed in a matched mode with the worms, and the worms drive the needle roller bearing sets to realize transmission; the turning plate is provided with a plurality of groups of hydraulic clamping devices for fixing the exchange sliding seat; the turnover shaft is provided with an angle encoder for detecting the running angle of the support plate in real time and adjusting and compensating to ensure synchronous running of a plurality of turnover units; the number of the turnover shafts, the support plates and the turnover units is four.

Furthermore, in the horizontal five-axis machining center with the powerful turning plate, the exchange workbench assembly comprises an exchange slide seat driving mechanism and a butt joint extension driving mechanism; the exchange slide seat driving mechanism comprises a motor speed reducer, a belt wheel, a belt, a first driving worm, a second air cylinder, a spline sleeve and a butt joint transmission key shaft, wherein the motor speed reducer, the first driving worm and the second air cylinder are arranged on the turning plate; the workbench is provided with a worm wheel, and the worm wheel and the driving worm are matched and installed together; the butt joint extension driving mechanism comprises a butt joint key groove shaft, a driving worm II, a driving extension rod and a driving worm III, the driving worm II and the driving worm III are respectively and fixedly connected with two ends of the driving extension rod, the driving worm II and the driving worm III are installed on the vertical lathe body, and the butt joint key groove shaft is fixedly connected with the driving worm II; when the turnover plate is turned to the vertical position, the butt joint transmission key shaft corresponds to the butt joint key groove shaft in position.

Furthermore, in the horizontal five-axis machining center with the powerful turning plate, the vertical lathe bed, the cross beam, the auxiliary sliding seat, the upright post, the sliding seat and the lathe bed are integrally formed into a closed-loop gate type structure.

Furthermore, the funnel-shaped chain plate type chip cleaner is arranged between the lathe body and the vertical lathe body.

Furthermore, in the horizontal five-axis machining center with the powerful turning plate, the Y-axis linear motion assembly is provided with a balance oil cylinder, and the balance oil cylinder is hung on the stand column and connected with the dragging plate through a pulley block.

Furthermore, the powerful panel turnover horizontal five-axis machining center has the automatic cutter grabbing function of the SP main shaft, the intelligent robot tool magazine is used for automatically changing the cutters of the SP main shaft, and the intelligent robot tool magazine is arranged on one side of the vertical lathe bed.

The utility model has the advantages that:

1. the X-axis linear motion assembly of the utility model is of a closed static pressure guide rail structure, and has stronger rigidity and good vibration resistance; the gear is meshed with the rack to move, so that the torque is large, the clearance is eliminated, and the dynamic characteristic is good;

2. the Y-axis linear motion component of the utility model is of a closed static pressure guide rail structure, and has stronger rigidity and good vibration resistance; the driving is a double-screw compensation structure, a balance oil cylinder participates in gravity balance, and the dynamic characteristic of the Y axis can be improved;

3. the five spindle heads of the spindle machine of the utility model have large power and torque, are suitable for powerful cutting and complex curved surface processing, and have metal removal rate of more than 350cm high speed cultivation/min;

4. the funnel-shaped chain plate type chip cleaner is a high-efficiency cooling chip cleaner, the metal removal rate of parts is high, and the chip removal capacity of the chip cleaner reaches over 5000cm speed cultivation/min;

5. the workbench of the utility model has large size of 2.8m multiplied by 10.5m and large bearing capacity, and is suitable for large-size aviation structural members;

6. the workbench of the utility model is vertically arranged in the processing area, which is beneficial to chip removal, in particular to the chip removal of titanium alloy parts;

7. the two sets of exchange slide seats of the utility model can be exchanged alternately, and the work piece clamping time is not occupied during processing, thereby saving time and improving efficiency;

8. the turning plate of the utility model has large size and good rigidity; the turnover plate has a reasonable driving structure, consists of a plurality of groups of gear meshing gear rings, so that the turnover plate is stressed uniformly in the turnover process, the turnover is stable, the expansibility is strong, and the size of the workbench can be amplified infinitely theoretically by the driving structure;

9. in the machine tool host of the utility model, the vertical bed body, the beam, the auxiliary slide seat, the upright post, the slide seat and the bed body form an integral closed-loop gate structure, and the integral rigidity is further improved;

10. the utility model discloses dispose intelligent robot tool magazine, automatic tool changing, the fast shortcoming of cutter wearing and tearing when compensateing powerful cutting titanium alloy structure has improved efficiency.

Drawings

FIG. 1 is a left front view of a horizontal five-axis machining center with a powerful turning plate;

FIG. 2 is a left rear view of a horizontal five-axis machining center with a powerful turning plate;

FIG. 3 is a right front view of a horizontal five-axis machining center with a powerful turning plate;

FIG. 4 is a schematic view of the turning plate assembly in a horizontal state;

FIG. 5 is a schematic view of the operation state of the position-limiting mechanism;

fig. 6 is a schematic structural diagram of the exchange workbench assembly.

Detailed Description

As shown in fig. 1-6, the horizontal five-axis machining center with the powerful turning plate comprises an X-axis linear motion assembly, a Y-axis linear motion assembly, a Z-axis linear motion assembly, a five-axis mechanical head 6, a turning plate assembly and an exchange workbench assembly, wherein the five-axis mechanical head 6 is provided with an a/C axis rotating assembly and an SP spindle.

The X-axis linear motion assembly comprises an upright post 1, a sliding seat 2, X-axis hydrostatic guide rails 3 and an X-axis driving mechanism 23, wherein two groups of X-axis hydrostatic guide rails 3 are arranged on the right front part of the lathe bed 12 in parallel, the sliding seat 2 and the X-axis hydrostatic guide rails 3 are arranged together in a sliding fit manner, the upright post 1 is arranged on the sliding seat 2, the X-axis driving mechanism 23 is a structure for applying power to a gear meshing rack, and the X-axis driving mechanism 23 is used for driving the sliding seat 2 to horizontally move left and right on the X-axis hydrostatic guide rails 3; the Y-axis linear motion assembly comprises a carriage 4, Y-axis hydrostatic guide rails 24 and a Y-axis driving mechanism 25, wherein two groups of Y-axis hydrostatic guide rails 24 are arranged on the upright post 1 in parallel, the carriage 4 and the Y-axis hydrostatic guide rails 24 are installed together in a sliding fit manner, the Y-axis driving mechanism 25 is a structure for applying power by matching a double lead screw with a nut, and the Y-axis driving mechanism 25 is used for driving the carriage 4 to vertically move on the Y-axis hydrostatic guide rails 24; the Y-axis linear motion assembly is provided with a balance oil cylinder 21, and the balance oil cylinder 21 is hung on the upright post 1 and is connected with the carriage 4 through a pulley block; the Z-axis linear motion assembly comprises a ram 5, linear guide rails 26 and a Z-axis driving mechanism 27, wherein three groups of linear guide rails 26 are arranged on the carriage 4 in parallel, the ram 5 and the linear guide rails 26 are installed together in a sliding fit manner, and the Z-axis driving mechanism 27 is used for driving the ram 5 to horizontally move back and forth on the linear guide rails 26; the mechanical five-shaft head 6 is arranged on the ram 5; the center of an A-axis rotating shaft of the A/C-axis rotating assembly is parallel to an X axis, and a C-axis revolving axis is parallel to a Z axis; the SP main shaft has an automatic cutter grabbing function, and the intelligent robot tool magazine 20 automatically changes cutters for the SP main shaft.

The vertical lathe bed 7 is vertically arranged on the right rear part of the lathe bed 12, the cross beam 8 is arranged on the vertical lathe bed 7, and the intelligent robot tool magazine 20 is arranged on one side of the vertical lathe bed 7; the upright post 1 is provided with an auxiliary sliding seat 11, and the auxiliary sliding seat 11 is installed together with the cross beam 8 in a sliding fit manner; the vertical lathe bed 7, the cross beam 8, the auxiliary sliding seat 11, the vertical column 1, the sliding seat 2 and the lathe bed 12 form a closed-loop gate structure integrally; a funnel-shaped chain plate type chip cleaner 19 is arranged between the bed body 12 and the vertical bed body 7.

The turning plate assembly comprises a frame seat 38, a turning plate 17, four turning shafts 39, four support plates 18, four turning units, a first material preparation area 13, a second material preparation area 14, a first exchange sliding seat 15 and a second exchange sliding seat 16, and the frame seat 38 is arranged on the left part of the lathe bed 12; four turning shafts 39 are sequentially arranged on a long frame of the frame seat 38, and the turning shafts 39 are rotatably connected with the frame seat 38; the four turning units are arranged on the other long frame of the frame seat 38 at equal intervals, each turning unit comprises a servo motor, a speed reducer and a gear, the speed reducer is connected with the output end of the servo motor, and the gear is fixedly arranged on the output end of the speed reducer; the supporting plate 18 is a fan-shaped plate, a gear ring is arranged on the outer edge of the supporting plate 18, and the circle center of the supporting plate 18 is fixedly connected with the overturning shaft 39; the gear is meshed with the gear ring; the turning plate 17 and the four support plates 18 are vertically and fixedly arranged together; the first material preparation area 13 and the second material preparation area 14 are respectively arranged on two sides of the frame seat 38; the material preparation area I13 and the material preparation area II 14 are respectively provided with 10 guide rails and two sets of worms driven by a motor, 10 groups of rollers and two needle roller bearing groups are respectively arranged below the exchange sliding seat I15 and the exchange sliding seat II 16, the rollers are installed in a matched manner with the guide rails, the needle roller bearing groups are installed in a matched manner with the worms, and the worms drive the needle roller bearing groups to realize transmission; the first workbench 9 is fixedly arranged on the first exchange slide seat 15, the second workbench 10 is fixedly arranged on the second exchange slide seat 16, and the workpiece is fixedly arranged on the first workbench 9 or the second workbench 10.

A limiting mechanism is arranged beside the overturning unit and used for limiting the support plate 18 after being overturned for 90 degrees; the limiting mechanism comprises a first air cylinder 41, a fixed block 42 and a wedge-shaped adjusting pad 44, the first air cylinder 41 and the wedge-shaped adjusting pad 44 are fixedly installed on the frame seat 38, the fixed block 42 is fixedly installed on a piston rod 43 of the first air cylinder 41, the fixed block 42 is used for positioning the lower end face of the support plate end head 40 to realize lower end locking, and the wedge-shaped adjusting pad 44 is used for positioning the upper end face of the support plate end head 40 to realize upper limit positioning; a plurality of groups of hydraulic clamping devices are arranged on the turning plate 17 and used for fixing the first exchange sliding seat 15 and the second exchange sliding seat 16; the turning shaft 39 is provided with an angle encoder for detecting the running angle of the support plate 18 in real time, adjusting and compensating the running angle, and ensuring that four turning units run synchronously.

The exchange workbench component comprises an exchange slide seat driving mechanism and a butt joint extension driving mechanism; the exchange sliding seat driving mechanism comprises a motor speed reducer 28, a belt wheel, a belt 29, a first driving worm 30, a second air cylinder 31, a spline housing 32 and a butt joint transmission key shaft 33, the motor speed reducer 28, the first driving worm 30 and the second air cylinder 31 are installed on the turnover plate 17, the motor speed reducer 28 applies power to the first driving worm 30 through the belt wheel and the belt 29, the spline housing 32 is sleeved on the first driving worm 30, the butt joint transmission key shaft 33 is installed at the end head of the spline housing 32, and the spline housing 32 is connected with a piston rod of the second air cylinder 31; the first workbench 9 and the second workbench 10 are provided with worm gears, and the worm gears are matched and installed with the first driving worm 30; the butt joint extension driving mechanism comprises a butt joint key groove shaft 34, a second driving worm 35, a third driving worm 36 and a third driving worm 37, the second driving worm 35 and the third driving worm 37 are respectively and fixedly connected with two ends of the second driving extension rod 36, the second driving worm 35 and the third driving worm 37 are installed on the vertical lathe bed 7, and the butt joint key groove shaft 34 is fixedly connected with the second driving worm 35; when the turning plate 17 is turned to the vertical position, the butt joint transmission key shaft 33 corresponds to the butt joint key groove shaft 34 in position.

The working process of the horizontal five-axis machining center of the powerful turning plate is as follows:

the turning plate 17 is in a horizontal state, the first workbench 9 is clamped on the first exchange slide seat 15, and after a workpiece is clamped on the first workbench 9, the first exchange slide seat 15 drives the needle roller bearing set to rotate through a worm driven by a motor on the first material preparation area 13 and runs onto the turning plate 17;

the turning plate 17 is turned from a horizontal state to a vertical state by driving the support plate 18 to rotate through the turning unit;

the exchange slide seat driving mechanism is started, a piston rod of the second air cylinder 31 pushes the spline sleeve 32 to move forward, and the butt joint transmission key shaft 33 and the butt joint transmission key groove shaft 34 form matched butt joint of a key and a key groove, so that the exchange slide seat driving mechanism and the butt joint extension driving mechanism are connected into a whole; the motor reducer 28 drives the belt wheel, the belt 29 and the first driving worm 30 to rotate, the second driving worm 35, the extension rod 36 and the third driving worm 37 synchronously rotate along with the rotation, the first workbench 9 is conveyed to the vertical bed body 7, and the five-shaft mechanical head 6 is machined after the fixation;

after the machining is finished, the motor speed reducer 28 performs steering switching work, the first workbench 9 is conveyed back to the first exchange sliding seat 15 of the turning plate 17, the turning plate 17 falls back to the horizontal position from the vertical position, and the first exchange sliding seat 15 drives the first workbench 9 and machined parts to move to the first material preparation area 13 for blanking;

the second exchange slide 16 and the second workbench 10 start to repeat the feeding and discharging processes on the second material preparation area 14; and (5) circulating and reciprocating.

Claims (7)

1. A powerful horizontal turning plate five-axis machining center is characterized by comprising an X-axis linear motion assembly, a Y-axis linear motion assembly, a Z-axis linear motion assembly, a five-axis mechanical head, a turning plate assembly and an exchange workbench assembly, wherein the five-axis mechanical head is provided with an A/C axis rotating assembly and an SP main shaft;

the X-axis linear motion assembly comprises a stand column, a sliding seat, X-axis hydrostatic guide rails and an X-axis driving mechanism, wherein two groups of X-axis hydrostatic guide rails are arranged on the right front part of a lathe bed of the machining center in parallel, the sliding seat and the X-axis hydrostatic guide rails are installed together in a sliding fit mode, and the stand column is arranged on the sliding seat; the Y-axis linear motion assembly comprises a carriage, Y-axis hydrostatic guide rails and a Y-axis driving mechanism, wherein two groups of Y-axis hydrostatic guide rails are arranged on the upright column in parallel, and the carriage and the Y-axis hydrostatic guide rails are arranged together in a sliding fit manner; the Z-axis linear motion assembly comprises a ram, linear guide rails and a Z-axis driving mechanism, three groups of linear guide rails are arranged on the carriage in parallel, and the ram and the linear guide rails are arranged together in a sliding fit manner; the five mechanical shafts are arranged on the ram; the center of an A-axis rotating shaft of the A/C-axis rotating assembly is parallel to an X axis, and a C-axis revolving axis is parallel to a Z axis;

the vertical bed body is vertically arranged on the right rear part of the bed body, and the cross beam is arranged on the vertical bed body; the upright post is provided with an auxiliary sliding seat, and the auxiliary sliding seat is arranged together with the cross beam in a sliding fit manner;

the turnover plate assembly comprises a frame seat, a turnover plate, a plurality of turnover shafts, a plurality of support plates, a plurality of turnover units, two groups of material preparation areas and two groups of exchange sliding seats, wherein the frame seat is arranged on the left part of the lathe bed; a plurality of turnover shafts are sequentially arranged on a long frame of the frame seat, and the turnover shafts are rotatably connected with the frame seat; the turnover units are arranged on the other long frame of the frame seat at equal intervals and comprise servo motors, speed reducers and gears, the speed reducers are connected with the output ends of the servo motors, and the gears are fixedly arranged on the output ends of the speed reducers; the supporting plate is a fan-shaped plate, a gear ring is arranged on the outer edge of the supporting plate, and the circle center of the supporting plate is fixedly connected with the turnover shaft; the gear is meshed with the gear ring; the turning plate is vertically and fixedly arranged with the support plates; the two groups of material preparation areas are respectively arranged on two sides of the frame seat, and the exchange sliding seat moves between the material preparation areas and the turning plate; the workbench is fixedly arranged on the exchange sliding seat, and the workpiece is fixedly arranged on the workbench.

2. The horizontal five-axis machining center with the powerful turning plate according to claim 1, wherein a limiting mechanism is arranged beside the turning unit, the limiting mechanism comprises a first air cylinder, a fixed block and a wedge-shaped adjusting pad, the first air cylinder and the wedge-shaped adjusting pad are fixedly installed on the frame base, and the fixed block is fixedly installed on a piston rod of the first air cylinder; the material preparation area is provided with 10 guide rails and two sets of worms driven by a motor, 10 sets of idler wheels and two needle roller bearing sets are arranged below the exchange sliding seat, the idler wheels are installed in a matched mode with the guide rails, and the needle roller bearing sets are installed in a matched mode with the worms; the turning plate is provided with a plurality of groups of hydraulic clamping devices for fixing the exchange sliding seat; the overturning shaft is provided with an angle encoder; the number of the turnover shafts, the support plates and the turnover units is four.

3. The horizontal five-axis machining center with powerful turning plates according to claim 1, wherein the exchange workbench assembly comprises an exchange slide driving mechanism and a butt joint extension driving mechanism; the exchange slide seat driving mechanism comprises a motor speed reducer, a belt wheel, a belt, a first driving worm, a second air cylinder, a spline sleeve and a butt joint transmission key shaft, wherein the motor speed reducer, the first driving worm and the second air cylinder are installed on the turning plate; the workbench is provided with a worm wheel, and the worm wheel and the driving worm are matched and installed together; the butt joint extension driving mechanism comprises a butt joint key groove shaft, a driving worm II, a driving extension rod and a driving worm III, the driving worm II and the driving worm III are fixedly connected with two ends of the driving extension rod respectively, the driving worm II and the driving worm III are installed on the vertical lathe body, and the butt joint key groove shaft is fixedly connected with the driving worm II.

4. The horizontal five-axis machining center with powerful turning plates as claimed in claim 1, wherein the vertical lathe bed, the cross beam, the auxiliary slide seats, the vertical column, the slide seats and the lathe bed are integrally formed into a closed-loop gate type structure.

5. The horizontal five-axis machining center with the powerful turning plate according to claim 1, wherein a funnel-shaped chain plate type chip remover is arranged between the lathe bed and the vertical lathe bed.

6. The horizontal five-axis machining center with the powerful turning plate as claimed in claim 1, wherein the Y-axis linear motion assembly is provided with a balance cylinder, the balance cylinder is suspended on the upright and connected with the dragging plate through a pulley block.

7. The horizontal five-axis machining center with powerful turning plates according to claim 1, wherein an intelligent robot tool magazine is arranged on one side of the vertical lathe bed.

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