CN201175940Y

CN201175940Y - Numerical control heating wire cutting machine

Info

Publication number: CN201175940Y
Application number: CNU2008200105249U
Authority: CN
Inventors: 柴华
Original assignee: Shenyang Aircraft Industry Group Co Ltd
Current assignee: Shenyang Aircraft Industry Group Co Ltd
Priority date: 2008-01-29
Filing date: 2008-01-29
Publication date: 2009-01-07
Anticipated expiration: 2018-01-29

Abstract

A numerical control heating cord cutting machine is a cutting machine of foamed polymer materials, and overcomes shortages that the manual fretsaw cutting is low in accuracy, wastes time and waters energy. The numerical control heating cord cutting machine: two ends of a heating cord is connected with an opposite mechanical structure, the mechanical structure: an optical shaft is mounted on an X shaft supporting piece, a step motor is mounted on the X shaft supporting piece, and is connected with a lead screw via a coupling, the lead screw is mounted on the X shaft supporting piece via a ball screw, a driving nut is mounted on an X shaft moving box, the X shaft moving box is mounted on the lead screw and the optical shaft, the optical shaft is mounted on the X shaft moving box and a Y shaft supporting piece, a step motor is mounted on the X shaft moving box, and is connected with a lead screw via a coupling, the lead screw is fixed on the Y shaft supporting piece via a ball screw, a driving nut is mounted on a Y shaft moving box, the Y shaft moving box is mounted on the optical shaft and the lead screw, and a quick-release stopping clamp is mounted on the Y shaft moving box. The numerical control heating cord cutting machine has the advantages that the numerical control heating cord is high in size accuracy and high in manufacturing effect, wastes time and wastes energy, and can realize to process to a three-dimensional shape.

Description

Numerical control heating wire cutting machine

Technical field:

The invention is the cutting machine that is used to cut foamed polymer material.

Background technology:

Foamed polymer material has a wide range of applications in producing, living, as application a large amount of in advertising sector, modelling, building trade, generally adopt manual scroll saw cutting, manual scroll saw cutting processing three-dimensional shape is difficulty extremely, therefore the scroll saw cutting can only be made simple figure by hand, waste time and energy during cutting, dimensional accuracy is low.

Summary of the invention:

Time saving and energy saving when the purpose of the invention provides a kind of cutting, the numerical control heating wire cutting machine that dimensional accuracy is high; The purpose of the invention is to realize by following technical scheme: the heating wire two ends connect the mechanical framework of two symmetries, each mechanical framework by two stepper motors, two shaft joints, two leading screws, four optical axises, two X-axis support members, X-axis move box, two ball bearings, the moving box of y-axis shift, Y-axis support member, quick-release stop jig, transmission nuts are formed; A stepper motor is installed on the X-axis support member, a shaft joint is connected with stepper motor, shaft joint is connected with leading screw, each end of two optical axises is installed on the X-axis support member, transmission nut is installed in X-axis to be moved on the box, X-axis is moved box-packed on a leading screw and two optical axises, transmission nut is sleeved on the leading screw, the other end of leading screw and optical axis is installed on the X-axis support member, rolling bearing is installed in termination at leading screw, and rolling bearing is installed on the X-axis support member, another stepper motor is installed in X-axis to be moved on the box, another shaft joint is connected with stepper motor, shaft joint is connected with leading screw one end, one end of other two optical axises is installed in X-axis to be moved on the box, transmission nut is installed on the moving box of y-axis shift, y-axis shift is moving box-packed on a leading screw and two optical axises, transmission nut is sleeved on the leading screw, ball bearing is installed on moving box of y-axis shift and the leading screw, ball bearing is installed on Y-axis support member and the leading screw, and optical axis one end is installed on the Y-axis support member, quick-release stop jig is installed on the moving box of y-axis shift, quick-release stop jig is connected with heating wire.

The advantage of the invention: owing to adopted symmetrical mechanical framework to connect the heating wire of heating, on the mechanical framework and X, y-axis stepper motor and X, Y-axis leading screw be housed, stepper motor is accepted the pulse signal that computer sends and is moved, and to heating wire energising heating can be carried out cutting processing to foamed polymer, time saving and energy saving, the accurate to dimension height, the production efficiency height.

Description of drawings:

Fig. 1 is a numerical control heating wire cutting machine structure schematic diagram.

The specific embodiment: numerical control heating wire cutting machine: heating wire 4 two ends connect the mechanical framework of two symmetries, each mechanical framework by two stepper motors 3, two shaft joints 6, two leading screws 1, four optical axises 2, two X-axis support members 11, X-axis move box 10, two ball bearings 7, the moving box 9 of y-axis shift, Y-axis support member 8, quick-release stop jig 5, transmission nuts 12 are formed; A stepper motor is installed on the X-axis support member, a shaft joint is connected with stepper motor, shaft joint is connected with leading screw, each end of two optical axises is installed on the X-axis support member, transmission nut is installed in X-axis to be moved on the box, X-axis is moved box-packed on a leading screw and two optical axises, transmission nut is sleeved on the leading screw, the other end of leading screw and optical axis is installed on the X-axis support member, rolling bearing is installed in termination at leading screw, and rolling bearing is installed on the X-axis support member, another stepper motor is installed in X-axis to be moved on the box, another shaft joint is connected with stepper motor, shaft joint is connected with leading screw one end, one end of other two optical axises is installed in X-axis to be moved on the box, transmission nut is installed on the moving box of y-axis shift, y-axis shift is moving box-packed on a leading screw and two optical axises, transmission nut is sleeved on the leading screw, ball bearing is installed on moving box of y-axis shift and the leading screw, ball bearing is installed on Y-axis support member and the leading screw, and optical axis one end is installed on the Y-axis support member, quick-release stop jig is installed on the moving box of y-axis shift, quick-release stop jig is connected with heating wire.

Stepper motor is accepted computer and is sent pulse signal and move, realization is cut foamed polymer along X, the moving heating wire that drives of y-axis shift, computer sends different pulse signals to X, Y-axis, make X, y-axis stepper motor asynchronous, can realize the three-dimensional shape cutting, quick-release stop jig is a prior art, and its contained spring can be adjusted the long and short and tightness of heating wire.This case computer select for use MACH1 that numerical control uses or MACH2 all can, stepper motor can have various models now on market and purposes is chosen.

Claims

1. numerical control heating wire cutting machine, it is characterized in that the heating wire two ends connect the mechanical framework of two symmetries, each mechanical framework by two stepper motors, two shaft joints, two leading screws, four optical axises, two X-axis support members, X-axis move box, two ball bearings, the moving box of y-axis shift, Y-axis support member, quick-release stop jig, transmission nuts are formed; A stepper motor is installed on the X-axis support member, a shaft joint is connected with stepper motor, connecting shaft is carried with leading screw and is connected, each end of two optical axises is installed on the X-axis support member, transmission nut is installed in X-axis to be moved on the box, X-axis is moved box-packed on a leading screw and two optical axises, transmission nut is sleeved on the leading screw, the other end of leading screw and optical axis is installed on the X-axis support member, rolling bearing is installed in termination at leading screw, and rolling bearing is installed on the X-axis support member, another stepper motor is installed in X-axis to be moved on the box, another shaft joint is connected with stepper motor, shaft joint is connected with leading screw one end, one end of other two optical axises is installed in X-axis to be moved on the box, transmission nut is installed on the moving box of y-axis shift, y-axis shift is moving box-packed on a leading screw and two optical axises, transmission nut is sleeved on the leading screw, ball bearing is installed on moving box of y-axis shift and the leading screw, ball bearing is installed on Y-axis support member and the leading screw, and optical axis one end is installed on the Y-axis support member, quick-release stop jig is installed on the moving box of y-axis shift, quick-release stop jig is connected with heating wire.