CN203791836U - Variable-angle workbench for laser processing - Google Patents

Abstract

A variable-angle workbench for laser processing comprises a support and a workbench body. The workbench body is arranged on the support. The variable-angle workbench further comprises a base and a sliding guide rail. The base is arranged on one side of the support, one end of the sliding guide rail is fixed to the support, and the other end of the sliding guide rail is fixed to the base. One free end of the workbench body is connected with the sliding guide rail in a pivoted mode and can slide in the sliding guide rail, and the other free end of the workbench body is connected to the base in a slidable mode. According to the variable-angle workbench, the angle of the workbench can be changed easily and flexibly by changing the longitudinal position of the workbench body on the base, and thus the workbench is applicable to laser-cladding processing on a face to be machined located in the non-horizontal plane.

Description

A kind of Laser Processing variable-angle workbench

Technical field

The utility model relates to laser melting coating process equipment field, is specifically related to a kind of variable-angle workbench for laser melting and coating process.

Background technology

Laser melting and coating process is to utilize high power laser material surface to be carried out to the technology of modification, by adding cladding material at substrate surface, and utilize high-energy-density laser beam (104～106W/cm2) irradiated heat, make cladding material and substrate surface thin layer generation rapid melting, and rapid solidification, thereby form and its filling cladding layer that is metallurgical binding at substrate surface.At present, research major part for laser melting and coating technique still concentrates on horizontal plane, but, in the time that the irregular part of needs effects on surface is repaired with shaping, the laser melting and coating technique of this existing horizontal planar field has just produced limitation, for practical operation has brought difficulty, has both been unfavorable for improving working (machining) efficiency, the safety guarantee of shortcoming construction again, directly the progress of engineering and the quality of product processing are implemented in impact.

At present, for realizing the laser melting and coating process of all angles, the mode generally adopting is to clamp workbench with bench vice, by placing artificially, lathe of work level angle is changed, the part that need to carry out laser melting coating is positioned on workbench, make face to be processed on part be positioned at horizontal plane, then carry out laser melting coating.But in this method, on the one hand, workbench is clamped by bench vice, be unfavorable for scattering and disappearing of accumulation heat, may cause workbench distortion serious, thereby affect carrying out smoothly and quality and the precision of drip molding of laser melting coating; On the other hand, the angle of workbench is wayward, and complex operation.

Therefore, be necessary to provide a kind of simple in structure, reasonable in design, variable-angle workbench that implementation procedure is simple and reliable, to be applicable to be processed the laser melting coating processing situation in non-horizontal surface.

Utility model content

The problem that the utility model solves is to provide a kind of Laser Processing variable-angle workbench, to be applicable to be processed the laser melting coating processing situation in non-horizontal surface.

For addressing the above problem, the utility model has disclosed a kind of Laser Processing variable-angle workbench, comprise support, workbench body, described workbench body is arranged on described support, also comprise pedestal, rail plate, described pedestal is arranged at a side of described support, described support is fixed in one end of described rail plate, the other end of described rail plate is fixed on described pedestal, a free end pivotable of described workbench body is connected in described rail plate and can in described rail plate, slides, another free end of described workbench body is connected in described pedestal slidably.

Preferably, between described workbench body and described rail plate, be provided with the first slide block, described the first slide block is mounted slidably in described rail plate, and described workbench body is pivotally connected to described the first slide block.

Preferably, described pedestal comprises screw mandrel, the second slide block, and described screw mandrel is longitudinally arranged at described pedestal, and described the second slide block is connected with described workbench body pivotable, and described the second slide block also can vertically move along described screw mandrel through described screw mandrel.

Preferably, on described workbench body, be provided with draw-in groove.

Preferably, described pedestal also comprises motor, reduction box, and described screw mandrel is connected with described reduction box by shaft coupling, and described reduction box is connected with described motor.

Preferably, described base bottom is provided with reinforcement.

Compared with prior art, the utlity model has following advantage: the variable-angle workbench that the utility model discloses, comprise support, workbench body, described workbench body is arranged on described support, also comprise pedestal, rail plate, described pedestal is arranged at a side of described support, described support is fixed in one end of described rail plate, the other end of described rail plate is fixed on described pedestal, a free end pivotable of described workbench body is connected in described rail plate and can in described rail plate, slides, another free end of described workbench body is connected in described pedestal slidably.The variable-angle workbench that the utility model discloses, can be by changing the lengthwise position of described workbench body on described pedestal, thereby simply and flexibly lathe of work level angle is converted, so that workbench is applicable to be processed the laser melting coating processing situation in non-horizontal surface.

Brief description of the drawings

Fig. 1 is the structural representation of variable-angle workbench in the utility model preferred embodiment;

Fig. 2 is the structure schematic diagram of the pedestal of variable-angle workbench in utility model preferred embodiment.

Detailed description of the invention

The existing workbench for laser melting and coating process, for realizing the laser melting and coating process of all angles, the mode generally adopting is to clamp workbench with bench vice, by placing artificially, lathe of work level angle is changed, the part that need to carry out laser melting coating is positioned on workbench, make face to be processed on part be positioned at horizontal plane, then carry out laser melting coating.But in this method, on the one hand, workbench is clamped by bench vice, be unfavorable for scattering and disappearing of accumulation heat, may cause workbench distortion serious, thereby affect carrying out smoothly and quality and the precision of drip molding of laser melting coating; On the other hand, the angle of workbench is wayward, and complex operation.

Therefore, be necessary to provide a kind of Laser Processing variable-angle workbench simple in structure, reasonable in design, that implementation procedure is simple and reliable, to be applicable to be processed the laser melting coating processing situation in non-horizontal surface.

In view of the above-mentioned problems in the prior art, the utility model has disclosed a kind of Laser Processing variable-angle workbench, comprise support, workbench body, described workbench body is arranged on described support, also comprise pedestal, rail plate, described pedestal is arranged at a side of described support, described support is fixed in one end of described rail plate, the other end of described rail plate is fixed on described pedestal, a free end pivotable of described workbench body is connected in described rail plate and can in described rail plate, slides, another free end of described workbench body is connected in described pedestal slidably.

Preferably, between described workbench body and described rail plate, be provided with the first slide block, described the first slide block is mounted slidably in described rail plate, and described workbench body is pivotally connected to described the first slide block.

Preferably, described pedestal comprises screw mandrel, the second slide block, and described screw mandrel is longitudinally arranged at described pedestal, and described the second slide block is connected with described workbench body pivotable, and described the second slide block also can vertically move along described screw mandrel through described screw mandrel.

Preferably, on described workbench body, be provided with draw-in groove.

Preferably, described pedestal also comprises motor, reduction box, and described screw mandrel is connected with described reduction box by shaft coupling, and described reduction box is connected with described motor.

Preferably, described base bottom is provided with reinforcement.

The Laser Processing that the utility model discloses variable-angle workbench, can be by changing the lengthwise position of described workbench body on described pedestal, thereby simply and flexibly lathe of work level angle is converted, so that workbench is applicable to be processed the laser melting coating processing situation in non-horizontal surface.

Below in conjunction with accompanying drawing, the technical scheme in the utility model embodiment is described in detail.

Incorporated by reference to Fig. 1, Fig. 2, the utility model has disclosed a kind of Laser Processing variable-angle workbench, comprise support 1, workbench body 4, workbench body 4 is arranged on support 1, also comprise pedestal 6, rail plate 8, pedestal 6 is arranged at a side of support 1, support 1 is fixed in one end of rail plate 8, the other end of rail plate 2 is fixed on pedestal 6, a free end pivotable of workbench body 4 is connected in rail plate 2 also can be in the interior slip of rail plate 2, and another free end of workbench body 4 is connected in pedestal 6 slidably.

Particularly, be provided with the first slide block 3, the first slide blocks 3 and be mounted slidably in rail plate 2 between workbench body 4 and rail plate 2, workbench body 4 is pivotally connected to the first slide block 3.So arrange, workbench body 4 can slidably reciprocate freely in rail plate 2, realizes workbench body 4 transverse shiftings.

Pedestal 6 comprises screw mandrel 5, the second slide block 7, and screw mandrel 5 is longitudinally arranged at pedestal 6, the second slide blocks 7 and is connected with workbench body 4 pivotables, and the second slide block 7 also can vertically move along screw mandrel 5 through screw mandrel 5, realizes workbench body 4 and vertically moves.

So arrange, because the length of workbench body 4 is fixed value, by adjusting the lateral attitude of workbench body 4 on support 1, and the lengthwise position of workbench body 4 on pedestal 6, can realize workbench body 4 and rotate within the scope of-90～90 degree around the first slide block 3.

In addition,, in order to realize the location that is positioned over the part on workbench body 4, on workbench body 4, be provided with draw-in groove 41., also can use the conventional fixed forms such as screw herein, not repeat them here.

For the ease of determining the position of workbench body 4, on pedestal 6, be provided with scale.

Further, in order to realize the automatic control of the variable-angle workbench that the utility model discloses, pedestal 6 also comprises motor 10, reduction box 8, and screw mandrel 11 is connected with reduction box 8 by shaft coupling, and reduction box 8 is connected with motor 10.In the course of work, reduction box 8 changes rotatablely moving of being exported by motor 10 into the rectilinear motion of the second slide block 7, thereby realizes the change of workbench body 4 lengthwise positions.

The Laser Processing that the utility model discloses variable-angle workbench, in the time not needing accurately to control the angle of inclination of workbench body 4, as long as the rotation of manually controlling motor 10 realizes the change of angle, from the scale of pedestal 6, probably read the move distance of the second slide block 7, thereby calculate the angle of inclination of workbench body 4; And in the time need to realizing the accurate control at angle of inclination of workbench body 4, can rotate by driven by program motor 10, the displacement that strictly limits the second slide block 7 realizes.

In the utility model preferred embodiment, in order to make workbench more firm, pedestal 6 bottoms are provided with reinforcement 9.

The Laser Processing that the utility model discloses variable-angle workbench, comprise support 1, workbench body 4, workbench body 4 is arranged on support 1, also comprise pedestal 6, rail plate 2, pedestal 6 is arranged at a side of support 1, support 1 is fixed in one end of rail plate 2, the other end of rail plate 2 is fixed on pedestal 6, a free end pivotable of workbench body 4 is connected in rail plate 2 also can be in the interior slip of rail plate 2, and another free end of workbench body 4 is connected in pedestal 6 slidably.The variable-angle workbench that the utility model discloses, can be by changing the lengthwise position of workbench body 4 on pedestal 6, thereby simply and flexibly lathe of work level angle is converted, so that workbench is applicable to be processed the laser melting coating processing situation in non-horizontal surface.The Laser Processing that the utility model discloses variable-angle workbench, its adjustable-angle scope is larger, simple in structure, compact, and implementation procedure is simple and reliable, and can effectively control the workbench body distortion causing because of accumulation of heat.

To the above-mentioned explanation of the disclosed embodiments, make professional and technical personnel in the field can realize or use the utility model.To be apparent for those skilled in the art to the multiple amendment of these embodiment, General Principle as defined herein can, in the situation that not departing from spirit or scope of the present utility model, realize in other embodiments.Therefore, the utility model will can not be restricted to these embodiment shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (6)

1. a Laser Processing variable-angle workbench, comprise support, workbench body, described workbench body is arranged on described support, it is characterized in that: also comprise pedestal, rail plate, described pedestal is arranged at a side of described support, described support is fixed in one end of described rail plate, the other end of described rail plate is fixed on described pedestal, a free end pivotable of described workbench body is connected in described rail plate and can in described rail plate, slides, and another free end of described workbench body is connected in described pedestal slidably.

2. Laser Processing according to claim 1 variable-angle workbench, it is characterized in that: between described workbench body and described rail plate, be provided with the first slide block, described the first slide block is mounted slidably in described rail plate, and described workbench body is pivotally connected to described the first slide block.

3. Laser Processing according to claim 1 variable-angle workbench, it is characterized in that: described pedestal comprises screw mandrel, the second slide block, described screw mandrel is longitudinally arranged at described pedestal, described the second slide block is connected with described workbench body pivotable, and described the second slide block also can vertically move along described screw mandrel through described screw mandrel.

4. according to the arbitrary described Laser Processing variable-angle workbench of claims 1 to 3, it is characterized in that: on described workbench body, be provided with draw-in groove.

5. Laser Processing according to claim 3 variable-angle workbench, is characterized in that: described pedestal also comprises motor, reduction box, described screw mandrel is connected with described reduction box by shaft coupling, and described reduction box is connected with described motor.

6. according to the variable-angle workbench of the Laser Processing described in claim 3 or 5, it is characterized in that: described base bottom is provided with reinforcement.