CN219275067U - Combined machining center - Google Patents

Abstract

The utility model discloses a composite machining center which comprises a tool part, a 1A whole part, a 1B whole part, a 2A whole part, a 2B whole part, a 3A whole part, a 3B whole part and a 4A whole part, wherein the tool part is arranged on a lathe bed in a sliding manner, the 1A whole part, the 2A whole part, the 3A whole part and the 4A whole part are fixedly arranged on one side of the lathe bed, the 1B whole part, the 2B whole part and the 3B whole part are fixedly arranged on the other side of the lathe bed, a tool driving part is fixedly arranged at the bottom of the tool part and on the lathe bed, and the tool part is arranged above the tool driving part in a sliding manner. The tool driving component is simple in structure and reasonable in design, the secondary clamping of the second position in the machining process is avoided, the machining efficiency is improved, a plurality of whole machine components are matched for machining, the cutters of the corresponding whole machine components are different, the types and the diversification of the machining are greatly improved, and the practicability is higher.

Description

Combined machining center

Technical Field

The utility model relates to the technical field of composite type centering, in particular to a composite type machining center.

Background

The composite machining center is also called a multi-face machining center, and refers to equipment capable of completing machining of multiple faces after one-time clamping of workpieces, for parts with few batches and complex part shapes, the composite machining center shortens machining time and achieves high efficiency of part machining, but in the prior art, the types of machining of the composite machining center are limited due to limitation of cutters and machining directions, the limitation of machining is still large, in the machining process, the workpieces to be machined may need to be disassembled halfway and clamped secondarily, machining precision is reduced, and machining quality is low.

Disclosure of Invention

The utility model aims to solve the technical problem that a composite machining center is provided for overcoming the defects in the prior art.

In order to achieve the purpose, the utility model adopts the following technical scheme:

the utility model provides a combined type machining center, includes frock part and complete machine part, frock part and complete machine part fixed mounting are on the lathe bed, frock part includes frock loading table and locating piece, locating piece even fixed mounting is on four directions of frock loading table, frock drive part is fixed to lathe bed, frock loading table bottom, frock loading table slidable mounting is on frock drive part, frock drive part includes ball screw, frock loading table and ball screw fixed connection, complete machine part includes cutter, headstock part and slipway part, slipway part and lathe bed fixed connection, the cutter is fixed on the headstock part surface, headstock part slidable sets up on the slipway part, slipway part includes slipway ball screw, headstock part fixed mounting is on ball screw, through control the feeding of cutter can be realized to slipway ball screw, through control the axial displacement of frock loading table can be controlled to ball screw.

Preferably, the tool part comprises a workbench sliding seat, a sliding plate, a support and a corner oil cylinder, wherein the tool carrying table is fixedly arranged on the workbench sliding seat, the sliding plate is fixedly arranged between adjacent positioning blocks, the support is fixedly arranged on the sliding plate, and the corner oil cylinder is fixedly arranged on the support.

Preferably, a roller linear rail is fixedly installed on the lathe bed, a linear rail sliding block is arranged on the roller linear rail in a sliding mode, the workbench sliding seat is fixedly installed and connected with the linear rail sliding block, a false rail is arranged at the end portion of the roller linear rail, and the roller linear rail is fixedly connected with the false rail.

Preferably, the tool driving component comprises a bearing seat and a main motor, the ball screw comprises a screw rod and a nut, the nut is slidably connected to the screw rod, the workbench sliding seat is fixedly connected with the nut, the bearing seat is fixedly arranged at two ends of the screw rod, the main motor is fixedly arranged at the bottom of the bearing seat, and an output shaft of the main motor is connected with the screw rod through belt transmission.

The cutter comprises a 1A cutter, the power box part comprises a 1A power head part and a 1A left gear box part, the sliding table part comprises a 1A sliding table part, the 1A cutter, the 1A power head part, the 1A left gear box part and the 1A sliding table part form a 1A whole machine part, the 1A power head part comprises a 1A power head ball screw, a 1A power head bearing seat, a 1A power head motor and a 1A power head base, the 1A power head base is clamped with the 1A cutter, the 1A cutter is connected to the 1A power head ball screw, the 1A power head bearing seat is fixedly connected with the 1A power head motor on one side, the 1A power head motor is in belt transmission connection with the 1A power head ball screw, the driving and the feeding of the 1A cutter can be realized through the 1A power head motor, the 1A sliding table part is fixedly connected with the lathe bed left gear box part, the 1A power head ball screw is fixedly connected with the 1A gear box part, the 1A sliding table part is arranged on one side of the 1A power head base, and the 1A power head is fixedly stacked on one side of the left gear box part, and the 1A cutter is fixedly stacked on one side of the left gear box part;

the cutter includes 1B cutter, the headstock part includes 1B unit head part and 1B right gear box part, the slip table part includes 1B slip table part, 1B cutter, 1B unit head part, 1B right gear box part, 1B slip table part constitution 1B complete machine part, 1B unit head part includes 1B unit head ball screw, 1B unit head bearing frame, 1B unit head motor, 1B unit head base, the joint has 1B cutter on the 1B unit head base, 1B cutter is connected on 1B unit head ball screw, 1B unit head ball screw both ends installation 1B unit head bearing frame, one side 1B unit head bearing frame and 1B unit head motor fixed connection, 1B unit head motor and 1B unit head ball screw belt drive are connected, through 1B unit head motor can realize 1B unit head ball screw's drive and control, 1B unit head motor and lathe bed fixed connection, 1B right gear box part sliding arrangement is on 1B unit head ball screw, 1B unit head right gear box part is fixed connection 1B unit head one side, 1B unit head right gear box part is fixed with 1B cutter.

Preferably, the cutter comprises a 2A cutter, the power box part comprises a 2A power box part and a 2A power head part, the sliding table part comprises a 2A sliding table part, the 2A cutter, the 2A power box part, the 2A power head part and the 2A sliding table part form a 2A whole machine part, the 2A sliding table part is fixedly connected with the lathe bed, the 2A power box part is slidably arranged on the upper part of the 2A sliding table part, the 2A power head part is rotatably arranged in the 2A power box part, the 2A power box part comprises a 2A power box main shaft and a 2A power box main shaft motor, the 2A power box main shaft is in belt transmission connection with the 2A power box main shaft motor, the 2A cutter is fixedly connected with the 2A power box main shaft motor, the 2A power box main shaft motor can realize the driving of the 2A power box main shaft and the 2A cutter, and the 2A cutter is a tapping cutter body;

the cutter includes 2B cutter, the headstock part includes 2B headstock part, slip table part includes 2B slip table part, 2B cutter, 2B headstock part, 2B slip table part constitution 2B complete machine part, 2B slip table part and lathe bed fixed connection, 2B headstock part slidable mounting is on 2B slip table part, 2B headstock part includes 2B headstock main shaft and 2B headstock main shaft motor, 2B headstock main shaft is connected with 2B headstock main shaft motor belt drive, 2B cutter and 2B headstock main shaft fixed connection, 2B cutter is right drilling sword.

Preferably, the cutter comprises a 3A cutter, the power box part comprises a 3A power box part, the sliding table part comprises a 3A sliding table part, the 3A cutter, the 3A power box part and the 3A sliding table part form a 3A whole machine part, the 3A sliding table part is fixedly connected with the lathe bed, the 3A power box part is slidably arranged on the 3A sliding table part, the 3A power box part comprises a 3A power box main shaft and a 3A power box main shaft motor, the 3A power box main shaft is in belt transmission connection with the 3A power box main shaft motor, the 3A cutter is fixedly connected with the 3A power box main shaft, and the 3A cutter is a left drilling cutter;

the cutter includes 3B cutter, the headstock part includes 3B headstock part, the slip table part includes 3B slip table part, 3B cutter, 3B headstock part, 3B slip table part constitution 3B complete machine part, 3B slip table part and lathe bed fixed connection, 3B headstock part slidable mounting is on 3B slip table part, 3B headstock part includes 3B headstock main shaft and 3B headstock main shaft motor, 3B headstock main shaft and 3B headstock main shaft motor belt drive are connected, 3B cutter and 3B headstock main shaft fixed connection, 3B cutter fixed mounting is on 3B headstock part, 3B cutter is right tapping sword.

Preferably, the cutter comprises a 4A cutter, the power box part comprises a 4A power box part, the slipway part comprises a 4A slipway part, the 4A cutter, the 4A power box part and the 4A slipway part form a 4A whole machine part, the 4A slipway part is fixedly connected with the lathe bed, the 4A power box part is slidably mounted on the 4A slipway part, the 4A power box part comprises a 4A power box spindle and a 4A power box spindle motor, the 4A power box spindle is in belt transmission connection with the 4A power box spindle motor, the 4A cutter is fixedly connected with the 4A power box spindle, the 4A cutter is fixedly mounted on the 4A power box part, and the 4A cutter is a left tapping cutter.

Preferably, the lathe bed is fixedly provided with a spiral chip removal assembly, the spiral chip removal assembly comprises a chip guide groove, a chip winding screw rod and a speed reducing motor, the chip guide groove is arranged on the lathe bed, the speed reducing motor is fixedly arranged on the lathe bed, and the chip winding screw rod is fixedly connected with the output end of the speed reducing motor.

Preferably, two sides of the workbench sliding seat are slidably provided with foldable telescopic protection covers.

The utility model has the beneficial effects that:

the fixture driving component is simple in structure, reasonable in design and compact in structure, and the structure of the fixture driving component avoids secondary clamping of secondary positions in the machining process, so that the machining precision is improved, the machining time is shortened, and the machining efficiency is improved; the tool parts are fixedly arranged on two sides of the tool part and two side surfaces of the tool body, the selection quantity of the tools of each whole part is different, the matched machining of the whole parts is carried out, the types and the quantity of the tools of the whole parts are different, the multi-station combined machining is realized, and the practicability is higher.

Drawings

For ease of illustration, the utility model is described in detail by the following detailed description and the accompanying drawings.

Fig. 1 is a schematic structural view of the present embodiment;

fig. 2 is a partially enlarged schematic view of the structure at a of the present embodiment;

FIG. 3 is a schematic diagram of the top view of the present embodiment;

fig. 4 is a schematic structural diagram of the tool driving component and the spiral chip removing assembly according to the present embodiment.

In the figure: 1-a tool part; 110-a workbench slide; 120-tooling carrier; 130-positioning blocks; 140-slide plate; 150-a bracket; 160-turning angle oil cylinders;

2-1A parts of the whole machine; 21-1A left gearbox component; 22-1A cutter;

3-1B parts of the whole machine; 31-1B right gearbox component; 32-1B cutter;

4-2A parts of the whole machine; 41-2A cutter;

5-2B parts of the whole machine; 51-2B cutter;

6-3A complete machine parts; 61-3A cutter;

7-3B parts of the whole machine; 71-3B cutter;

8-4A complete machine parts; 81-4A cutter;

9-a lathe bed; 91-roller wire rail; 92-linear rail sliding blocks; 93-false rail;

10-a tool driving part; 101-a ball screw; 102-bearing seats; 103-a main motor;

11-a telescoping shield;

12-a spiral chip removal assembly; 121-a chip rolling screw; 122-a gear motor.

Detailed Description

The following are specific embodiments of the present utility model and the technical solutions of the present utility model will be further described with reference to the accompanying drawings, but the present utility model is not limited to these embodiments; in the following description, specific details such as specific configurations and components are provided merely to facilitate a thorough understanding of embodiments of the utility model. It will therefore be apparent to those skilled in the art that various changes and modifications can be made to the embodiments described herein without departing from the scope and spirit of the utility model. In addition, descriptions of well-known functions and constructions are omitted for clarity and conciseness.

In addition, the embodiments of the present utility model and the features of the embodiments may be combined with each other without collision.

As shown in fig. 1-4, a composite machining center provided in this embodiment includes a tool component 1 and a complete machine component, where the complete machine component includes a 1A complete machine component 2, a 1B complete machine component 3,2A complete machine component 4, a 2B complete machine component 5, a 3A complete machine component 6, a 3B complete machine component 7, and a 4A complete machine component 8, the tool component 1 is slidably disposed on a lathe bed 9, the 1A complete machine component 2, 2A complete machine component 4, 3A complete machine component 6, and 4A complete machine component 8 are fixedly mounted on one side of the lathe bed 9, the 1B complete machine component 3, 2B complete machine component 5, and 3B complete machine component 7 are fixedly mounted on the other side of the lathe bed 9, a tool driving component 10 is fixedly mounted on the bottom of the tool component 1 and the lathe bed 9, and the tool component 1 is fixedly mounted above the tool driving component 10.

Further, the tooling component 1 comprises a workbench sliding seat 110, a tooling loading table 120, a positioning block 130, a sliding plate 140, a support 150 and a corner oil cylinder 160, wherein the tooling loading table 120 is fixedly arranged on the workbench sliding seat 110 through pins, the positioning block 130 is uniformly and fixedly arranged in four directions of the tooling loading table 120, the sliding plate 140 is fixedly arranged between adjacent positioning blocks 130, the support 150 is fixedly arranged on the sliding plate 140, the corner oil cylinder 160 is fixedly arranged on the support 150, a plurality of steps are arranged on the positioning block 130, an inverted T-shaped groove is arranged on the sliding plate 140, the support 150 is fixedly arranged on the sliding plate 140 through the T-shaped groove, the support 150 and the corner oil cylinder 160 can be moved on the sliding plate 140 through manual disassembly and assembly, when a workpiece to be processed is clamped, the workpiece to be processed is placed on the positioning block 130, the steps on the positioning block 130 are internally supported and the support is moved, the corner oil cylinder 160 is used for compressing the workpiece to be processed, the clamping is completed, and secondary clamping is not needed in the processing process;

specifically, a roller wire rail 91 is fixedly installed on the lathe bed 9, a wire rail sliding block 92 is slidably arranged on the roller wire rail 91, a workbench sliding seat 110 is fixedly installed and connected with the wire rail sliding block 92, further, a workbench sliding seat 120 is fixedly installed on the lathe bed 9 and the roller wire rail 91, sliding table side shields are downwards fixedly installed on two side faces of the workbench sliding seat 110, a certain protection and isolation are provided for the roller wire rail 91 and the wire rail sliding block 92, a false rail 93 is arranged at the end part of the roller wire rail 91, the roller wire rail 91 is fixedly connected with the false rail 93, a sliding table bracket 150 is fixedly installed at the end part and the bottom of the false rail 93 through screws, and the roller wire rail 91 and the false rail 93 are fixedly connected with the lathe bed 9 through the sliding table bracket 150 and the screws;

specifically, the tool driving part 10 comprises a ball screw 101, a bearing seat 102 and a main motor 103, the ball screw 101 comprises a screw rod and a nut, the nut is slidably connected to the screw rod, a workbench sliding seat 110 is fixedly connected with the nut, the bearing seat 102 is fixedly installed at two ends of the screw rod, one end of the bearing seat 102 is fixedly installed on a motor plate simultaneously with the main motor 103, the screw rod is connected with an output shaft of the main motor 103 through belt transmission to realize driving and control of the screw rod, a mounting surface of a non-sliding table side shield and the side surface of the workbench sliding seat 110 are fixedly provided with a drag chain through screws, the other end of the drag chain is fixedly connected with the lathe bed 9, and when the main motor 103 is started, the wire rail sliding block 92 and the drag chain can provide certain traction and protection effects for the driving process of the workbench sliding seat 110 and the tool loading table 120, so that the running stability and accuracy of a workpiece to be processed are further ensured, and the processing quality is ensured.

Further, the 1A whole machine part 2 comprises a 1A left gear box part 21, a 1A power head part, a 1A sliding table part and a 1A cutter 22,1A sliding table part which are fixedly connected with the lathe bed 9, the 1A left gear box part 21 is arranged on the 1A sliding table part in a sliding way, one side of the 1A power head part is fixedly connected with the 1A cutter 22, the other side of the 1A power head part is fixedly arranged on the 1A left gear box part 21, the 1A cutter 22 is a combined cutter formed by stacking and combining two ox horn head turning tools, the 1A power head part comprises a 1A power head ball screw, a 1A power head bearing seat, a 1A power head motor and a 1A power head base, the 1A cutter 22,1A cutter 22 is connected to the 1A power head ball screw in a clamping way, the two ends of the 1A power head ball screw are provided with 1A power head bearing seats, the 1A power head bearing seat on one side is fixedly connected with the 1A power head motor, the 1A power head motor is in a driving way, and the driving and controlling of the 1A power head ball screw in a driving way can be realized, and the driving and the cutter in the up-down direction are further realized; the 1A left gear box component 21 comprises a 1A left gear box and a 1A left gear box motor, the 1A left gear box motor is fixedly arranged at the top of the 1A left gear box, the surface of the 1A left gear box is fixedly connected with a 1A power head base, gear speed change can be realized in the 1A left gear box, the 1A left gear box is regulated under the drive of the 1A left gear box motor, the rotation speed regulation is completed through the change conversion of gear engagement, the rotation speed regulation of the 1A power head base is further realized, the rotation speed regulation of a 1A cutter 22 is further realized, the 1A sliding table component comprises a 1A sliding table ball screw, a 1A sliding table motor, a 1A sliding table bearing seat and a 1A sliding table base, the 1A left gear box is fixedly arranged on the 1A sliding table base, the 1A sliding table base is fixedly connected with a lathe bed 9 through screws, the 1A sliding table bearing seat is fixedly arranged at the two ends of the 1A sliding table ball screw, the 1A bearing seat at one side is fixedly connected with the 1A sliding table motor, the control of the driving and the feeding of the 1A sliding table motor can be completed through controlling the 1A sliding table motor, and the driving and the feeding of the 1A sliding table ball screw is further completed, and the driving and the feeding of the cutter 22 in the Z direction can be completed;

specifically, the 1B whole machine part 3 comprises a 1B right gear box part 31, a 1B power head part, a 1B sliding table part, a 1B cutter 32,1B sliding table part and a lathe bed 9, wherein the 1B right gear box part 31 is arranged on the 1B sliding table part in a sliding way, one side of the 1B power head part is fixedly connected with a 1B cutter 32, the other side of the 1B power head part is fixedly connected with the 1B right gear box part 31, the 1B cutter 32 is a single ox horn head lathe tool, the 1B power head part comprises a 1B power head ball screw, a 1B power head bearing seat, a 1B power head motor and a 1B power head base, the 1B cutter 32 is clamped on the 1B power head base, the 1B cutter 32 is connected with the 1B power head ball screw, the 1B power head bearing seat is arranged at two ends of the 1B power head ball screw, the 1B power head bearing seat on one side is fixedly connected with the 1B power head motor, the 1B power head motor is in belt transmission connection with the 1B power head ball screw, the driving and the control of the ball screw of the 1B power head can be realized through the motor of the 1B power head, the driving and the feeding of the cutter in the up-down direction are further realized, the 1B right gear box part 31 comprises a 1B right gear box and a 1B right gear box motor, the 1B right gear box motor is fixedly arranged at the top of the 1B right gear box, the surface of the 1B right gear box is fixedly connected with the base of the 1B power head, the gear speed change can be realized in the 1B right gear box, the 1B right gear box is regulated under the driving of the 1B right gear box motor, the rotation speed regulation is completed through the change conversion of gear engagement, the rotation speed regulation of the base of the 1B power head is further realized, the rotation speed regulation of the 1B cutter 32 is further realized, the 1B gear box part comprises a 1B sliding table ball screw, a 1B sliding table motor, a 1B sliding table bearing seat and a 1B sliding table base, the 1B right gear box is fixedly arranged on the 1B sliding table base, the 1B sliding table base is fixedly connected with the lathe bed 9 through screws, the two ends of the 1B sliding table ball screw are fixedly provided with 1B sliding table bearing seats, the bottom of the 1B sliding table bearing is fixedly arranged on the 1B sliding table base, the 1B sliding table bearing seat on one side is fixedly connected with the 1B sliding table motor, the control of the driving and feeding of the 1B sliding table ball screw can be finished by controlling the 1B sliding table motor, and the driving and feeding of the 1B cutter 32 in the Z-axis direction can be further finished;

specifically, the 2A whole machine part 4 comprises a 2A sliding table part, a 2A power box part, a 2A power head part, a 2A cutter 41,2A sliding table part and a lathe bed 9, wherein the 2A power box part is fixedly arranged at the upper part of the 2A sliding table part, the 2A power head part is rotatably arranged in the 2A power box part, the 2A cutters 41 are connected to the 2A power head part, the 2A cutters 41 are drilling and tapping integrated cutters, the number is 20, the drilling and tapping integrated cutters are uniformly distributed and fixedly arranged on the surface of the 2A power head part in an array manner, the 2A power box part comprises a 2A power box main shaft and a 2A power box main shaft motor, the 2A power box main shaft is in belt transmission connection with the 2A power box main shaft motor, the 2A cutters 41 are fixedly connected with the 2A power box main shaft, the 2A power box spindle motor is controlled to drive the 2A power box spindle and the 2A tool 41, the 2A sliding table component comprises a 2A sliding table ball screw, a 2A sliding table bearing seat, a 2A sliding table speed reducer, a 2A sliding table motor and a 2A sliding table base, the 2A sliding table base is fixedly connected with the lathe bed 9, the 2A sliding table bearing seats are arranged at two ends of the 2A sliding table ball screw, the 2A sliding table bearing seats are fixedly arranged on the 2A sliding table base, the 2A sliding table bearing seats at the outer side are fixedly arranged and connected with the 2A sliding table speed reducer and the 2A sliding table motor, and the 2A sliding table motor can drive and feed the 2A sliding table ball screw so as to drive and feed the 2A tool 41;

specifically, the 2B whole machine part 5 comprises a 2B sliding table part, a 2B power box part and a 2B cutter 51,2B sliding table part which are fixedly connected with the lathe bed 9, the 2B power box part is slidably mounted on the 2B sliding table part, the 2B power box part comprises a 2B power box main shaft and a 2B power box main shaft motor, the 2B power box main shaft is in belt transmission connection with the 2B power box main shaft motor, the 2B cutter 51 is fixedly connected with the 2B power box main shaft, the 2B cutter 51 can be driven by controlling the 2B power box main shaft motor, the 2B cutter 51 is a right drilling cutter, the number is 24, the right drilling cutter array is uniformly distributed, the 2B sliding table part comprises a 2B sliding table ball screw, a 2B sliding table bearing seat, a 2B sliding table speed reducer, a 2B sliding table motor and a 2B sliding table base, the 2B sliding table base is fixedly mounted on the 2B sliding table base, the two ends of the 2B sliding table ball screw seat is fixedly connected with the 2B sliding table speed reducer and the 2B motor, the 2B sliding table speed reducer and the 2B motor can be driven by controlling the 2B sliding table ball motor, and the 2B cutter can be driven by the 2B sliding table and the cutter array to further drive the 2B ball and the feeding cutter;

specifically, the 3A whole machine part 6 comprises a 3A sliding table part, a 3A power box part and 3A cutters, the 3A sliding table part is fixedly connected with the lathe bed 9, the 3A power box part is slidably arranged on a 2B sliding table part, the 3A cutters 61 are arranged on the 3A power box part, the 3A cutters 61 are left drilling cutters, the number of the left drilling cutters is 4, the 3A cutters 61 are symmetrical up and down in pairs, the extending length of the left drilling cutters at the inner side is shorter than that of the outer side, the 3A power box part comprises a 3A power box main shaft and a 3A power box main shaft motor, the 3A power box main shaft is in belt transmission connection with the 3A power box main shaft motor, the 3A cutters 61 are fixedly connected with the 3A power box main shaft, the 3A power box main shaft and the 3A cutters 61 can be driven by controlling the 3A power box main shaft motor, the 3A sliding table main shaft and the 3A cutter seat base is fixedly connected with the lathe bed 9, the 3A sliding table ball screw and the 3A motor are fixedly arranged at two ends of the 3A sliding table main shaft bearing seat, the 3A sliding table motor is fixedly connected with the 3A sliding table seat, and the 3A sliding table base is fixedly driven by the 3A motor, and the 3A sliding table is fixedly connected with the 3A sliding table seat and the 3A base is driven, and the 3A motor is driven by the sliding table is further driven, and the 3A motor is driven by the 3A motor;

specifically, the 3B whole machine part 7 comprises a 3B sliding table part, a 3B power box part and a 3B cutter 71,3B sliding table part which are fixedly connected with the lathe bed 9, the 3B power box part is slidably arranged on the 3B sliding table part, the 3B cutters 71 are right tapping cutters, the number of the 3B power box part is 8, the 3B power box part comprises a 3B power box main shaft and a 3B power box main shaft motor, the 3B power box main shaft is in belt transmission connection with the 3B power box main shaft motor, the 3B cutters 71 are fixedly connected with the 3B power box main shaft, the 3B power box main shaft motor can be controlled to drive the 3B power box main shaft and the 3B cutters 71, the 3B sliding table part comprises a 3B sliding table ball screw, a 3B sliding table bearing seat, a 3B sliding table motor and a 3B sliding table base, the 3B sliding table base is fixedly connected with the lathe bed 9, the two ends of the 3B sliding table ball screw bearing seats are fixedly arranged on the 3B sliding table base, the outer side 3B bearing seat is fixedly connected with the 3B sliding table motor, the 3B sliding table motor can drive the 3B sliding table ball screw and further drive the 3B sliding table motor and drive the 3B cutters 71;

specifically, 4A complete machine part 8 includes 4A slip table part, 4A power box part, 4A cutter 81,4A slip table part and lathe bed 9 fixed connection, 4A power box part slidable mounting is on 4A slip table part, 4A cutter 81 is left tapping sword, quantity is four, two piles up and place, two sword bilateral symmetry installations, 4A power box part includes 4A power box main shaft and 4A power box main shaft motor, 4A power box main shaft is connected with 4A power box main shaft motor belt drive, 4A cutter 81 and 4A power box main shaft fixed connection, 4A power box main shaft motor through control can realize 4A power box main shaft and 4A cutter 81's drive, 4A slip table part includes 4A slip table ball screw, 4A slip table bearing, 4A slip table motor, 4A slip table base and lathe bed 9 fixed mounting connection, 4A slip table ball screw both ends are installed 4A slip table bearing seat fixed mounting is on 4A slip table base, outside 4A slip table bearing seat fixed mounting connection 4A slip table motor, 4A slip table motor can drive 4A slip table motor and 4A ball screw and feed screw, and feed screw 81 can be realized.

Further, the spiral chip removing assembly 12 is fixedly arranged on the lathe bed 9 and at the bottom of the workbench sliding seat 110, the spiral chip removing assembly 12 is divided into two groups, the spiral chip removing assembly 12 comprises a chip guiding groove, a chip winding screw 121 and a speed reducing motor 122, the speed reducing motor 122 is fixedly arranged on one side of the outer side surface of the lathe bed 9 through screws, the output end of the speed reducing motor 122 is fixedly connected with the chip winding screw 121, the chip winding screw 121 is positioned in the chip guiding groove and extends out of the lathe bed 9, the other side of the outer side surface of the lathe bed 9 is fixedly connected with a chip guiding extension groove through screws, the part of the chip winding screw 121 extending out of the lathe bed 9 is positioned in the chip guiding extension groove, the speed reducing motor 122 is started, the chip winding screw 121 starts to rotate and enables chips which are collected in the chip guiding groove and fall off from the turntable to slowly move out of the chip guiding groove, the bottom of the lathe bed is kept clean, meanwhile, the chips generated in the processing process are processed together, and the occupation area is reduced.

Further, the two sides of the workbench sliding seat 110 are slidably provided with the foldable telescopic protection cover 11, one end part of the telescopic protection cover 11 is fixedly connected with the lathe bed 9, the other end part of the telescopic protection cover 11 is fixedly connected with the workbench sliding seat 110, the middle part is provided with the foldable or extensible protection roller linear rail 91 and the tool driving part 10, material scraps generated in the machining process are avoided from contacting, the normal service life of the machine is reduced, the lathe bed 9 is fixedly connected with a lifting ring through a screw, and the lifting ring can more conveniently assist the lathe bed 9 to move in position and is more convenient.

The working process of the specific embodiment comprises the following steps: the workpiece to be processed is clamped on the positioning block 130, the support 150 is manually disassembled and assembled and fixed on the sliding plate 140, the corner oil cylinder 160 is utilized for compressing and fixing to complete clamping of the workpiece to be processed on the tool carrier 120, the main motor 103 is controlled to complete axial movement of the workpiece to be processed, the surface of the workpiece to be processed is aligned with the center of a cutter part of a corresponding complete machine part, and the sliding table part and the power box part of the corresponding complete machine part are controlled to drive and feed cutters, so that processing of the surface of the workpiece to be processed is completed.

It is noted that the terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of example embodiments in accordance with the present application. As used herein, the singular is also intended to include the plural unless the context clearly indicates otherwise, and furthermore, it is to be understood that the terms "comprises" and/or "comprising" when used in this specification are taken to specify the presence of stated features, steps, operations, devices, components, and/or combinations thereof.

In the description of the present application, it should be understood that the azimuth or positional relationship indicated by the terms "upper", "lower", etc. are based on the azimuth or positional relationship shown in the drawings, and are merely for convenience of description of the present application and to simplify the description, and do not indicate or imply that the apparatus or element referred to must have a specific azimuth, be configured and operated in a specific azimuth, and thus should not be construed as limiting the present application.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "plurality" is at least two, such as two, three, etc., unless explicitly defined otherwise.

The specific embodiments described herein are offered by way of example only to illustrate the spirit of the present application. Those skilled in the art may make various modifications or additions to the described embodiments or substitutions in a similar manner without departing from the spirit of the utility model or exceeding the scope of the utility model as defined in the accompanying claims.

Claims (10)

1. A composite machining center, comprising: the tool comprises a tool part (1) and a complete machine part, wherein the tool part (1) and the complete machine part are fixedly arranged on a lathe bed (9), the tool part (1) comprises a tool loading table (120) and a positioning block (130), the positioning block (130) is uniformly and fixedly arranged on the surface of the tool loading table (120), a tool driving part (10) is fixedly arranged on the lathe bed (9) and the bottom of the tool loading table (120), the tool loading table (120) is slidably arranged on the tool driving part (10), the tool driving part (10) comprises a ball screw (101), the tool loading table (120) is fixedly connected with the ball screw (101), the complete machine part comprises a tool, a power box part and a sliding table part, the sliding table part is fixedly connected with the lathe bed (9), the surface of the power box part is slidably arranged on the sliding table part, the power box part comprises a sliding table ball screw, the power box part is fixedly arranged on the sliding table part, the sliding table part can realize the feeding of the tool through controlling the sliding table ball screw, and the axial movement of the tool loading table (120) can be controlled through controlling the ball screw.

2. The combined machining center according to claim 1, wherein the tooling component (1) comprises a workbench sliding seat (110), a sliding plate (140), a support (150) and a corner oil cylinder (160), the tooling carrying table (120) is fixedly installed on the workbench sliding seat (110), the sliding plate (140) is fixedly installed between adjacent positioning blocks (130), the support (150) is fixedly installed on the sliding plate (140), and the corner oil cylinder (160) is fixedly installed on the support (150).

3. The combined machining center according to claim 2, wherein a roller wire rail (91) is fixedly installed on the machine body (9), a wire rail sliding block (92) is slidably arranged on the roller wire rail (91), the workbench sliding seat (110) is fixedly installed and connected with the wire rail sliding block (92), a false rail (93) is arranged at the end part of the roller wire rail (91), and the roller wire rail (91) is fixedly connected with the false rail (93).

4. A combined machining center according to claim 3, wherein the tool driving part (10) comprises a bearing seat (102) and a main motor (103), the ball screw (101) comprises a screw rod and a nut, the nut is slidingly connected on the screw rod, the workbench sliding seat (110) is fixedly connected with the nut, the bearing seat (102) is fixedly arranged at two ends of the screw rod, the main motor (103) is fixedly arranged at the bottom of the bearing seat (102) at one end, and an output shaft of the main motor (103) is connected with the screw rod through a belt transmission.

5. The combined machining center according to claim 4, wherein the tool comprises a 1A tool (22), the power box part comprises a 1A tool head part and a 1A left gear box part (21), the sliding table part comprises a 1A sliding table part, the 1A tool (22), the 1A tool head part, the 1A left gear box part (21) and the 1A sliding table part form a 1A complete machine part (2), the 1A tool head part comprises a 1A tool head ball screw, a 1A tool head bearing seat, a 1A tool head motor and a 1A tool head base, the 1A tool head base is clamped with the 1A tool (22), the 1A tool (22) is connected to the 1A tool head ball screw, the 1A tool head ball screw is provided with the 1A tool head bearing seat at two ends, the 1A tool head bearing seat is fixedly connected with the 1A tool head motor, the 1A tool head motor is in belt transmission connection with the 1A tool head ball screw, the 1A tool head motor can realize the control of the 1A tool head and the 1A tool head, the sliding table part (21) is fixedly connected with the tool head (21A) at one side of the sliding tool head, and the tool head (1A) is fixedly connected with the tool head (21A) is provided with the sliding table part (1A) at one side of the tool head, and the tool head (1A) is fixedly connected with the tool head part (1A) is provided with the tool head part (21A) at the left gear box part) and is provided with a sliding tool box part (1A 9);

the cutter includes 1B cutter (32), the headstock part includes 1B unit head part and 1B right gear box part (31), the slip table part includes 1B slip table part, 1B unit head part, 1B right gear box part (31), 1B slip table part constitution 1B complete machine part (3), 1B unit head part includes 1B unit head ball screw, 1B unit head bearing frame, 1B unit head motor, 1B unit head base, the joint has 1B cutter (32) on the 1B unit head base, 1B cutter (32) are connected on 1B unit head ball screw, 1B unit head ball screw both ends are installed 1B unit head bearing frame, one side 1B unit head bearing frame and 1B unit head motor fixed connection, 1B unit head motor and 1B unit head ball screw belt drive are connected, through 1B unit head motor can realize the drive and the control lathe tool of 1B unit ball screw (32), 1B unit head (31) and 1B unit head (31) are connected for single angle box (1B) fixed connection, 1B unit head (31) is right side fixed connection, slip table part (1B unit head part (31) is on one side.

6. The combined machining center according to claim 5, wherein the tool comprises a 2A tool (41), the power box part comprises a 2A power box part and a 2A power head part, the 2A tool (41), the 2A power box part and the 2A sliding table part form a 2A complete machine part (4), the 2A sliding table part is fixedly connected with the lathe bed (9), the 2A power box part is slidingly arranged at the upper part of the 2A sliding table part, the 2A power box part is rotatably arranged in the 2A power box part, the 2A power box part comprises a 2A power box spindle and a 2A power box spindle motor, the 2A power box spindle is in belt transmission connection with the 2A power box spindle motor, the 2A tool (41) is fixedly connected with the 2A power box spindle, the 2A power box spindle and the 2A tool (41) can be driven by controlling the 2A power box spindle motor, and the 2A tool (41) is an integral drill tool;

the cutter includes 2B cutter (51), the headstock part includes 2B headstock part, the slip table part includes 2B slip table part, 2B cutter (51), 2B headstock part, 2B slip table part constitution 2B complete machine part (5), 2B slip table part and lathe bed (9) fixed connection, 2B headstock part slidable mounting is on 2B slip table part, 2B headstock part includes 2B headstock main shaft and 2B headstock main shaft motor, 2B headstock main shaft is connected with 2B headstock main shaft motor belt drive, 2B cutter (51) and 2B headstock main shaft fixed connection, 2B cutter (51) are right drilling sword.

7. The combined machining center according to claim 6, wherein the tools comprise 3A tools (61), the power box parts comprise 3A power box parts, the slipway parts comprise 3A slipway parts, the 3A tools (61), the 3A power box parts and the 3A slipway parts form a 3A complete machine part (6), the 3A slipway parts are fixedly connected with the lathe bed (9), the 3A power box parts are slidably mounted on the 3A slipway parts, the 3A power box parts comprise a 3A power box spindle and a 3A power box spindle motor, the 3A power box spindle is in belt transmission connection with the 3A power box spindle motor, the 3A tools (61) are fixedly connected with the 3A power box spindle, and the 3A tools (61) are left drilling tools;

the cutter includes 3B cutter (71), the headstock part includes 3B headstock part, the slip table part includes 3B slip table part, 3B cutter (71), 3B headstock part, 3B slip table part constitution 3B complete machine part (7), 3B slip table part and lathe bed (9) fixed connection, 3B headstock part slidable mounting is on 3B slip table part, 3B headstock part includes 3B headstock main shaft and 3B headstock main shaft motor, 3B headstock main shaft is connected with 3B headstock main shaft motor belt drive, 3B cutter (71) and 3B headstock main shaft fixed connection, 3B cutter (71) fixed mounting is on 3B headstock part, 3B cutter (71) are right tapping sword.

8. The composite machining center according to claim 7, wherein the tools comprise 4A tools (81), the power box parts comprise 4A power box parts, the slipway parts comprise 4A slipway parts, the 4A tools (81), the 4A power box parts and the 4A slipway parts form a 4A complete machine part (8), the 4A slipway parts are fixedly connected with the machine body (9), the 4A power box parts are slidably mounted on the 4A slipway parts, the 4A power box parts comprise 4A power box main shaft and a 4A power box main shaft motor, the 4A power box main shaft is in belt transmission connection with the 4A power box main shaft motor, the 4A tools (81) are fixedly connected with the 4A power box main shaft, the 4A tools (81) are fixedly mounted on the 4A power box parts, and the 4A tools (81) are left tapping tools.

9. The combined type machining center according to claim 8, wherein a spiral chip removal assembly (12) is fixedly installed on the lathe bed (9), the spiral chip removal assembly (12) comprises a chip guide groove, a chip winding screw (121) and a speed reducing motor (122), the chip guide groove is formed in the lathe bed (9), the speed reducing motor (122) is fixedly installed on the lathe bed (9), and the chip winding screw (121) is fixedly connected with the output end of the speed reducing motor (122).

10. A complex machining center as claimed in claim 9, characterized in that the two sides of the table slide (110) are slidably provided with foldable telescopic protection covers (11).

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