CN203062042U

CN203062042U - Numerical-controlled beveling machine

Info

Publication number: CN203062042U
Application number: CN 201320031271
Authority: CN
Inventors: 蔡佳明
Original assignee: Jiaozuo Daming Science And Technology Development Co Ltd
Current assignee: Jiaozuo Daming Science And Technology Development Co Ltd
Priority date: 2013-01-22
Filing date: 2013-01-22
Publication date: 2013-07-17
Anticipated expiration: 2023-01-22

Abstract

A numerical-controlled beveling machine comprises a base, a cross bean, a main support post and a vice support post, wherein the two ends of the cross beam are connected to the base through the main support post and the vice support post; an operational panel is positioned on the main support post; a movable cross beam is arranged on the cross beam; an X-axial drive mechanism is arranged in the cross beam to drive the movable cross beam to move; a Y-axial drive mechanism is arranged in the movable cross beam to drive a Z-axial drive mechanism below the movable cross beam to move; a rotating mechanism is arranged at the lower end of the Z-axial drive mechanism; and a cutting torch is arranged at the lower end of the rotating mechanism. The numerical-controlled beveling machine provided by the utility model mainly adopts fuel gas and oxygen; as a flame cutting nozzle is relatively longer in service life, a common cutting nozzle is lower in price, a numerical-controlled cutter is less in power consumption, and the costs of the flame cutting nozzle and the cutter can be ignored; the numerical-controlled beveling machine is convenient for material obtaining, cheap in consumable material price, lower in maintenance cost, simple and convenient in repair, and smaller in equipment input and low in cost by compared with plasma equipment.

Description

The numerical control beveling machine

Technical field

The utility model relates to the technical field of beveling machine, particularly relates to a kind of numerical control beveling machine.

Background technology

Along with popularizing of numerical control cutting machine, make the Numerical control cutting of steel become more and more convenient and swift, efficient cutting efficiency, cut quality and the steel utilization ratio of numerical control cutting machine effectively improve.But along with the needs of the industry technology upgrade of Chinese manufacturing, come on the schedule of referred each device fabrication processing welding enterprise of groove cutting.In the past, enterprise is when carrying out the part welding, bevel for welding if desired, then general use is cut manually or is polished and forms, even use electronic plane, the also unavoidable state repeatedly processed of occurring, processing and the production of the serious subsequent handling that hinders, we are called it the processing of traditional form traditionally.Particularly enterprise is a large amount of begin to popularize efficient installation for welding equipment such as welding automatically after, it is more and more outstanding that this contradiction also becomes.The processing of traditional form: carry out the part by numerical control perpendicular cuts earlier, transferring on the manually-operated platform then, the operator calculates the angular deflection amount of cutting according to the groove type of indicating on the drawing and goniometer, use semi auto cutting machine or electronic plane etc. to process, but when meet part be shaped as arc or circular arc the time, just need adjust the state (attitude) of process equipment etc. again, the groove processing that integral body is finished a part may be several times even tens times the time that numerical control cutting machine cuts this part.Simultaneously, in this processing, the factor of the automatic mass change of welding of influence such as variation disunity of bevel angle often occurs, cause the problem that occurs in the various ways welding.

The utility model content

The purpose of this utility model is in order to address the above problem, a kind of numerical control beveling machine to be provided.

The technical solution of the utility model is: a kind of numerical control beveling machine, comprise base, crossbeam, control panel, main support column, secondary support column, the two ends of described crossbeam are by main support column, secondary support column is connected on the base, described control panel is positioned on the main support column, described crossbeam is provided with moved cross beam, be provided with the X axis driving mechanism in the described crossbeam, the motion of drive moved cross beam, be provided with the Y-axis driving mechanism in the moved cross beam, Z axial actuating mechanism motion below the drive moved cross beam, the lower end of Z axial actuating mechanism is provided with rotating mechanism, and the rotating mechanism lower end is equipped with cutting torch.

Be provided with the taper support platform in the described base, this support platform is supported by several tapers of arranging in length and breadth to be formed.

This numerical control beveling machine also includes the waste residue gathering-device that is connected the base sidepiece.

This numerical control beveling machine also includes source of the gas, and source of the gas is connected with cutting torch with pipeline in the moved cross beam by being arranged on crossbeam.

The beneficial effects of the utility model

Numerical control beveling machine of the present utility model, main with combustion gas and oxygen, because flame cutting nozzle is longer relatively service life, common price is also lower, the power consumption of numerical control cutting machine own is less, makes cost so wouldn't count, and the convenience of drawing materials, consumptive material low price, maintenance cost are lower, it is easy to repair, the equipment of comparing with plasma drops into less, and cost is low.

Description of drawings

Fig. 1 is the main TV structure schematic diagram of numerical control beveling machine;

Fig. 2 is the plan structure schematic diagram of numerical control beveling machine;

1. bases among the figure, 2. support platform, 3. main support column, 4. control panel, 5. crossbeam, 6, moved cross beam, 7. Z axial actuating mechanism, 8. rotating mechanism, 9. secondary support column, 10. cutting torch, 11. waste residue gathering-devices.

The specific embodiment

Embodiment: referring to Fig. 1-Fig. 2, a kind of numerical control beveling machine among the figure, comprise base, crossbeam, control panel, main support column, secondary support column, the two ends of described crossbeam are by main support column, secondary support column is connected on the base, described control panel is positioned on the main support column, described crossbeam is provided with moved cross beam, be provided with the X axis driving mechanism in the described crossbeam, the motion of drive moved cross beam, be provided with the Y-axis driving mechanism in the moved cross beam, Z axial actuating mechanism motion below the drive moved cross beam, the lower end of Z axial actuating mechanism is provided with rotating mechanism, and the rotating mechanism lower end is equipped with cutting torch.Be provided with the taper support platform in the described base, this support platform is supported by several tapers of arranging in length and breadth to be formed.This numerical control beveling machine also includes the waste residue gathering-device that is connected the base sidepiece.This numerical control beveling machine also includes source of the gas, and source of the gas is connected with cutting torch with pipeline in the moved cross beam by being arranged on crossbeam.

Claims

1. numerical control beveling machine, comprise base, crossbeam, control panel, main support column, secondary support column, the two ends of described crossbeam are by main support column, secondary support column is connected on the base, described control panel is positioned on the main support column, it is characterized in that: described crossbeam is provided with moved cross beam, be provided with the X axis driving mechanism in the described crossbeam, the motion of drive moved cross beam, be provided with the Y-axis driving mechanism in the moved cross beam, Z axial actuating mechanism motion below the drive moved cross beam, the lower end of Z axial actuating mechanism is provided with rotating mechanism, and the rotating mechanism lower end is equipped with cutting torch.

2. numerical control beveling machine according to claim 1 is characterized in that: be provided with the taper support platform in the described base, this support platform is supported by several tapers of arranging in length and breadth to be formed.

3. numerical control beveling machine according to claim 1, it is characterized in that: this numerical control beveling machine also includes the waste residue gathering-device that is connected the base sidepiece.

4. numerical control beveling machine according to claim 1, it is characterized in that: this numerical control beveling machine also includes source of the gas, and source of the gas is connected with cutting torch with pipeline in the moved cross beam by being arranged on crossbeam.