CN202668065U - Portable numerical control three-dimensional boring-milling machine tool - Google Patents

Abstract

The utility model relates to a portable numerical control three-dimensional boring-milling machine tool and relates to the field of machine manufacturing. The portable numerical control three-dimensional boring-milling machine tool comprises a spindle motor (1), an X directional rail (2), a Y directional rail (3), a spindle (4), a host machine box (5), a Z directional rail (6), a Y directional servo motor (7), a Z directional servo motor (8), an X directional servo motor (9), an electrical equipment control cabinet (10), a connecting cable (11), a controller terminal (12) and a cutting tool (13). Compared with a fixed numerical control boring-milling machine with same processing capability, the portable numerical control three-dimensional boring-milling machine tool has the advantages of small volume, light weight, moving convenience and suitability for field operation; the machine tool can be fixed in any mode, such as horizontal, vertical and invert arrangement, according to various on-site environments; a to-be-processed part of a to-be-processed workpiece is not limited by an angle; the to-be-processed workpiece is free from detachment and movement; the workpiece need not have any motion; the field processing for large-size equipment and immoveable workpiece is convenient; and the working efficiency is increased.

Description

The three-dimensional boring-milling machine tool of a kind of portable numerical control

Technical field:

The utility model relates to a kind of Digit Control Machine Tool, is specifically related to the three-dimensional boring-milling machine tool of a kind of portable numerical control.

Background technology:

Existing numerical control boring-milling center, be fixed boring-milling center, equipment itself can not arbitrarily move, need part to be processed is fixed on the tray for work pieces of boring-milling center and just can process, this method can not solve large-scale, the local on-the-spot processing tasks of person's large equipment (does not have enough large machining center, such as: tun etc.), can not carry out the work of on-the-spot machining for the needs of building or maintenance process occurs, perhaps need will be relevant position or parts disassemble transportation and be installed on the equipment and could process, rolled up dismounting, cost and the time of installing are for some equipment or parts may not dismantled or mobile parts can't be finished processing tasks more.

The utility model content:

The purpose of this utility model provides the three-dimensional boring-milling machine tool of a kind of portable numerical control, it can change original numerical control boring and milling center need to be fixed to the mode on the workbench with workpiece (part to be processed), but utilize to be processed of workpiece to be processed to be fixed for the host machine part of existing profile with this equipment, itself does not move workpiece to be processed, and the movement locus of the numerical control control section controlled working cutter by this equipment is finished the boring-mill work task.This equipment can be with arbitrarily angled installation, and programs as required to control the movement locus of cutter, can finish bore hole, slabbing, step milling, the processing tasks such as hole inner screw thread milling.。

In order to solve the existing problem of background technology, the utility model is by the following technical solutions: it comprises spindle motor 1, directions X track 2, Y-direction track 3, main shaft 4, main frame casing 5, Z direction track 6, Y-direction servomotor 7, Z direction servomotor 8, directions X servomotor 9, electric control cabinet 10, stube cable 11, controller terminal 12, cutter 13, firm banking 14, main shaft 4 is connected by Z direction track 6 with main frame casing 5, spindle motor 1 is arranged on the upper end of main shaft 4, cutter 13 is arranged on the lower end of main shaft 4, are connected with the Y-direction track by directions X track 2 between main frame casing 5 and the firm banking 14 and are connected, directions X servomotor 9 is arranged in the groove on main frame casing 5 right sides, Y-direction servomotor 7 is arranged in the groove of main frame casing 5 rear sides, Z direction servomotor 8 is arranged in the groove of main frame casing 5 upper ends, main frame casing 5 by stube cable 11 respectively with electric control cabinet 10, controller terminal 12 connects.

The utility model spindle motor 1 drives main shaft 4 and cutter 13 can be done high speed rotary motion, and main shaft 4 passes through driven by servomotor, at Z direction track 6 Z direction motion (moving up and down), main frame casing 5 can be done with respect to the directions X of firm banking 14 or the motion of Y-direction at directions X track 2 and Z direction track 3 under driven by servomotor, directions X track 2, Y-direction track 3, Z direction track 6 is by driven by servomotor, and controlled by digital control system, can by controller terminal 12 codings, go up and various space motion paths in three directions (3D) by programme-control cutter 13.Spindle motor 1 driving cutter 13 is done High Rotation Speed and is carried out metal cutting.Cutter 13 can be selected dissimilar process tools as required, finishes all kinds of borings or Milling Process task, and task processing thread.

The utility model is with respect to the fixedly digital-control boring-milling machine of equal working ability scope, and this equipment volume is little, and is lightweight, and conveniently moving is fit to field operation; Can carry out metal boring-mill work operation in various places and environment; Main frame, Electric Appliance Cabinet, controller terminal split design are so that host machine part appearance and size, weight significantly descend.Can utilize on-the-spot all kinds of environment, the modes such as level, vertical, inversion are fixing arbitrarily, and workpiece to be processed position to be processed is not subjected to angle limits; Can be widely used in the field maintenance class processing in the fields such as iron and steel, thermoelectricity, nuclear power, water power, petrochemical industry, boats and ships, the processing in the rigging up and debugging process, the needed local on-the-spot processing of the transformation of main equipment etc.; Work piece need not dismounting and mobile, and workpiece itself does not need to do any motion, is convenient to main equipment, and the scene processing of irremovable workpiece is increased work efficiency.

Description of drawings:

Fig. 1 is structural representation of the present utility model.

The specific embodiment:

Referring to Fig. 1, this specific embodiment is by the following technical solutions: it comprises spindle motor 1, directions X track 2, Y-direction track 3, main shaft 4, main frame casing 5, Z direction track 6, Y-direction servomotor 7, Z direction servomotor 8, directions X servomotor 9, electric control cabinet 10, stube cable 11, controller terminal 12, cutter 13, firm banking 14, main shaft 4 is connected by Z direction track 6 with main frame casing 5, spindle motor 1 is arranged on the upper end of main shaft 4, cutter 13 is arranged on the lower end of main shaft 4, are connected with the Y-direction track by directions X track 2 between main frame casing 5 and the firm banking 14 and are connected, directions X servomotor 9 is arranged in the groove on main frame casing 5 right sides, Y-direction servomotor 7 is arranged in the groove of main frame casing 5 rear sides, Z direction servomotor 8 is arranged in the groove of main frame casing 5 upper ends, main frame casing 5 by stube cable 11 respectively with electric control cabinet 10, controller terminal 12 connects.

This specific embodiment spindle motor 1 drives main shaft 4 and cutter 13 can be done high speed rotary motion, and main shaft 4 passes through driven by servomotor, at Z direction track 6 Z direction motion (moving up and down), main frame casing 5 can be done with respect to the directions X of firm banking 14 or the motion of Y-direction at directions X track 2 and Z direction track 3 under driven by servomotor, directions X track 2, Y-direction track 3, Z direction track 6 is by driven by servomotor, and controlled by digital control system, can by controller terminal 12 codings, go up and various space motion paths in three directions (3D) by programme-control cutter 13.Spindle motor 1 driving cutter 13 is done High Rotation Speed and is carried out metal cutting.Cutter 13 can be selected dissimilar process tools as required, finishes all kinds of borings or Milling Process task, and task processing thread.

This specific embodiment is with respect to the fixedly digital-control boring-milling machine of equal working ability scope, and this equipment volume is little, and is lightweight, and conveniently moving is fit to field operation; Can carry out metal boring-mill work operation in various places and environment; Main frame, Electric Appliance Cabinet, controller terminal split design are so that host machine part appearance and size, weight significantly descend.Can utilize on-the-spot all kinds of environment, the modes such as level, vertical, inversion are fixing arbitrarily, and workpiece to be processed position to be processed is not subjected to angle limits; Can be widely used in the field maintenance class processing in the fields such as iron and steel, thermoelectricity, nuclear power, water power, petrochemical industry, boats and ships, the processing in the rigging up and debugging process, the needed local on-the-spot processing of the transformation of main equipment etc.; Work piece need not dismounting and mobile, and workpiece itself does not need to do any motion, is convenient to main equipment, and the scene processing of irremovable workpiece is increased work efficiency.

Claims (1)

1. the three-dimensional boring-milling machine tool of a portable numerical control, it is characterized in that it comprises spindle motor (1), directions X track (2), Y-direction track (3), main shaft (4), main frame casing (5), Z direction track (6), Y-direction servomotor (7), Z direction servomotor (8), directions X servomotor (9), electric control cabinet (10), stube cable (11), controller terminal (12), cutter (13), firm banking (14), main shaft (4) is connected by Z direction track (6) with main frame casing (5), spindle motor (1) is arranged on the upper end of main shaft (4), cutter (13) is arranged on the lower end of main shaft (4), be connected 3 by directions X track (2) with the Y-direction track between main frame casing (5) and the firm banking (14)) be connected, directions X servomotor (9) is arranged in the groove on main frame casing (5) right side, Y-direction servomotor (7) is arranged in the groove of main frame casing (5) rear side, Z direction servomotor (8) is arranged in the groove of main frame casing (5) upper end, main frame casing (5) by stube cable (11) respectively with electric control cabinet (10), controller terminal (12) connects.

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