CN216502830U - Row-mounted electric machining tool - Google Patents

Abstract

The utility model provides a tandem mounting type electric machining tool which comprises a supporting beam, wherein a plurality of driving integrated mechanisms are mounted on the supporting beam in a tandem manner, each driving integrated mechanism comprises a mounting frame body connected with the supporting beam and a three-axis moving assembly arranged on the mounting frame body, an electric spark machine head is arranged on the three-axis moving assembly, and a workbench used for placing a workpiece is arranged below the electric spark machine head. The machine tool is compact in structure, the XYZ axis motion is centrally controlled, and the operation efficiency can be greatly improved by adopting a special mode of row arrangement.

Description

Row-mounted electric machining tool

Technical Field

The utility model mainly relates to the relevant technical field of electric machining tools, in particular to a row installation type electric machining tool.

Background

The electric machining machine tool is mainly used for machining workpieces through an electric spark machine head and is widely applied to the fields of electric spark forming, electroetching, metal powder manufacturing and the like. The existing common electric machining tool in the market generally comprises a workbench and a corresponding XYZ-axis moving assembly, and the arrangement mode of the electric machining tool mostly adopts a positive structure, namely an X-Y-axis moving structure is arranged on the workbench surface, and an electric spark machine head is connected with the Z-axis moving structure above the workbench. And clamping the workpiece on the working table surface, moving along the XY axial plane, and moving the electric spark machine head up and down for machining.

Among the above-mentioned structure, the equipment fuselage is heavy, takes up an area of more, and the cost is high, and its working plane removes and the aircraft nose removes the separate control, and inconvenient operation and energy consumption are great, are difficult for realizing the antithetical couplet row more and arrange. Therefore, there is a need for an electric machine tool with a new structure that is compact, easy to control, and easy to arrange in a row.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects of the prior art, the utility model provides a row-mounted type electric processing machine tool which is combined with the prior art and starts from practical application, the machine tool has a compact structure, the XYZ-axis motion is controlled in a centralized manner, and the operating efficiency can be greatly improved by adopting a special row-arrangement mode.

In order to achieve the purpose, the technical scheme of the utility model is as follows:

the utility model provides a gang installation formula electrical machine tool, includes a supporting beam, it installs a plurality of drive integrated mechanism to ally oneself with the row on the supporting beam, and every drive integrated mechanism is including being used for the installation framework who is connected with a supporting beam and setting up the triaxial removal subassembly in the installation framework be equipped with the electric spark aircraft nose on the triaxial removal subassembly be equipped with the workstation that is used for placing the work piece below the electric spark aircraft nose.

Further, the triaxial removes the subassembly including setting up the Y axle that the installation framework was last removes the subassembly, connect the X axle that removes on the Y axle removes the subassembly and connect the Z axle that removes on the X axle removes the subassembly and remove the subassembly, the electric spark aircraft nose is installed in Z axle and is removed the subassembly.

Furthermore, the X-axis moving assembly, the Y-axis moving assembly and the Z-axis moving assembly are all linear moving units driven by servo motors, and each servo motor is controlled by a CNC in a centralized mode.

Further, the linear moving units of the X-axis moving assembly, the Y-axis moving assembly and the Z-axis moving assembly are all realized by guide rails and sliders.

Further, the installation frame body is a rectangular frame body, the supporting beam comprises at least one cross beam, and the installation frame body is hung or lifted and installed on the cross beam.

Further, the electric spark machine head is arranged in a space formed by combining the installation frame bodies.

The utility model has the beneficial effects that:

1. the utility model has the advantages of compact structural design, small occupied space of equipment, light machine body and easy arrangement.

2. The electric processing machine tool adopts an inverted structure, integrates the motion of XYZ axes on the frame above the workbench, intensively and uniformly controls the motion of the XYZ axes, has low overall manufacturing cost, convenient operation and low energy consumption, and can work independently without interference when arranged in a row.

Drawings

FIG. 1 is a schematic diagram of the overall main view related structure of the present invention;

FIG. 2 is a schematic diagram of a general top-view related structure of the present invention;

FIG. 3 is a schematic view of a front view related structure of a driving integrated mechanism according to an embodiment of the present invention;

fig. 4 is a schematic top view of a driving integrated mechanism according to an embodiment of the present invention.

Reference numerals shown in the drawings:

1. a drive integration mechanism; 2. a support beam; 3. a work table; 4. moving the water tank; 5. a power supply cabinet; 6. a control box;

11. installing a frame body;

12. a Y-axis moving assembly; 121. a Y-axis guide rail; 122. a Y-axis slider; 123. a Y-axis mounting plate;

13. an X-axis moving assembly; 131. an X-axis guide rail; 132. an X-axis slider; 133. an X-axis mounting plate;

14. a Z-axis moving assembly; 141. a Z-axis guide rail; 142. a Z-axis slide block; 143. a Z-axis mounting plate;

15. an electric spark machine head.

Detailed Description

The utility model is further described with reference to the accompanying drawings and specific embodiments. It should be understood that these examples are for illustrative purposes only and are not intended to limit the scope of the present invention. Further, it should be understood that various changes or modifications of the present invention may be made by those skilled in the art after reading the teaching of the present invention, and these equivalents also fall within the scope of the present application.

Referring to fig. 1-4, a related structural schematic diagram of a tandem-mounted electrical machine tool provided in this embodiment is shown.

The gang mounting type electric machining tool of the embodiment mainly comprises a support beam 2, a plurality of drive integrated mechanisms 1 are mounted on the support beam 2 in a gang manner, each drive integrated mechanism 1 comprises a mounting frame body 11 connected with the support beam 2 and a three-axis moving assembly arranged on the mounting frame body 11, an electric discharge machine head 15 is arranged on the three-axis moving assembly, and a workbench 3 used for placing a workpiece is arranged below the electric discharge machine head 15.

The driving integrated mechanism 1 of a plurality of machine tools is sequentially hung or lifted on the supporting beam 2 side by side in the embodiment, so that the side by side installation of the plurality of machine tools is realized, a single machine tool can independently work, the structure is compact after the whole machine tool is arranged in a row, and the processing of a plurality of workpieces can be realized at one time. Meanwhile, the machine tool is also provided with a corresponding movable water tank 4, a power supply cabinet 5, a control box 6 and the like. The control box 6 controls the driving integrated mechanism 1 to adjust the position of the electric spark machine head 15 in the three-dimensional direction, so that the electric spark machine head can process the workpiece on the workbench 3. A plurality of working systems can be arranged in a row and controlled by one control system, and the working systems work independently and do not interfere with each other.

Preferably, the support beam 2 can use two beams, the mounting frame 11 is hung or lifted and mounted on the beams, the arrangement of the plurality of drive integrated mechanisms 1 in a row is realized, and the structure is simple and easy to maintain.

The embodiment also provides a specific structure of the driving integrated mechanism, so that the driving integrated mechanism can be conveniently hung or lifted and mounted on the supporting beam 1, and the driving integrated mechanism is simple to operate and easy to control.

In this embodiment, the driving integrated mechanism 1 mainly includes a horizontally disposed mounting frame 11, a Y-axis moving assembly 12 is disposed on the mounting frame 11, an X-axis moving assembly 13 is disposed on the Y-axis moving assembly 12, a Z-axis moving assembly 14 is disposed on the X-axis moving assembly 13, and an electric discharge machine head 15 is disposed on the Z-axis moving assembly 14.

The X-axis moving assembly 13, the Y-axis moving assembly 12, and the Z-axis moving assembly 14 are linear moving units driven by servo motors, and each servo motor is centrally controlled by a CNC to realize the movement of the electric discharge machine head 15 in XYZ axes.

Specifically, in this embodiment, the Y-axis moving assembly 12 includes a Y-axis guide rail 121 mounted on the mounting frame 11, a Y-axis slider 122 slidably engaged with the Y-axis guide rail 121, and a Y-axis mounting plate 123 mounted on the Y-axis slider 122, the X-axis moving assembly 13 is mounted on the Y-axis mounting plate 123, the X-axis moving assembly 13 includes an X-axis guide rail 131, an X-axis slider 132 slidably engaged with the X-axis guide rail 131, and an X-axis mounting plate 133 mounted on the X-axis slider 132, the Z-axis moving assembly 14 is mounted on the X-axis mounting plate 133, and a servo motor of the X-axis moving assembly 13 drives the X-axis mounting plate 133 to move linearly along the X-axis through a lead screw. The Z-axis moving assembly 14 includes a Z-axis guide rail 141, a Z-axis slider 142 slidably engaged with the Z-axis guide rail 141, and a Z-axis mounting plate 143 mounted on the Z-axis slider 142, the electric discharge machine head 15 is mounted on the Z-axis mounting plate 143, and a servo motor of the Z-axis moving assembly 14 drives the Z-axis mounting plate 143 to move linearly along the Z-axis through a lead screw.

Preferably, the mounting frame 11 has a rectangular frame structure, and the electric discharge machine head 15 is disposed in a space formed by combining the rectangular frames. While avoiding the motion of the electric discharge machine head 15 from being affected by the Y-axis moving assembly 12. The embodiment specifically sets the Y-axis moving component 12 as: one Y-axis guide rail 121 is arranged on one side of the installation frame body 11, two Y-axis guide rails are arranged on the other side of the installation frame body 11, a certain distance is reserved between the two Y-axis guide rails 121 on the other side, and a lead screw for driving the Y-axis installation plate 123 to move is arranged between the two Y-axis guide rails 121 on the other side.

The embodiment of the utility model also provides a movable workbench of the machine tool.

Specifically, the workbench 3 arranged below the electric spark connector 15 is of a movable workbench structure, can be realized by an AGV trolley, and is provided with a clamp for clamping workpieces. The intelligent movable workbench is provided with an automatic walking mechanism and a steering mechanism, and can reach a specified point according to a specified route according to a signal after the machining is finished to wait for the next procedure. The workbench can also reach the designated position according to the preset track and automatically butt and lock, and enters a work waiting state. The intelligent AGV car can bear 500kg, adopts a rechargeable power source as power, and has the positioning accuracy reaching 0.05, so that the use requirement is completely met.

Claims (6)

1. The utility model provides a gang installation formula electrical machine tool which characterized in that, includes a supporting beam, a plurality of drive integrated mechanism are installed to the gang on the supporting beam, and every drive integrated mechanism is including being used for the installation framework who is connected with a supporting beam and setting up the triaxial in the installation framework and remove the subassembly be equipped with the spark machine head on the triaxial removes the subassembly the spark machine head below is equipped with the workstation that is used for placing the work piece.

2. The gang mounted electrical machine tool of claim 1 wherein the three-axis translation assembly comprises a Y-axis translation assembly mounted to the mounting frame, an X-axis translation assembly coupled to the Y-axis translation assembly, and a Z-axis translation assembly coupled to the X-axis translation assembly, the electrical discharge machine head being mounted to the Z-axis translation assembly.

3. The gang mounted electrical machine tool of claim 2 wherein the X-axis, Y-axis and Z-axis moving assemblies are linear moving units driven by servomotors, each of which is centrally controlled by the CNC.

4. The gang mounted electrical machine tool of claim 3 wherein the linear movement units of the X-axis, Y-axis, and Z-axis movement assemblies are each implemented by rails and slides.

5. The gang mounted electrical machine tool of claim 1 wherein the mounting frame is a rectangular frame and the support beam comprises at least one cross beam to which the mounting frame is suspended or lifted.

6. The gang mount electrical machine tool of claim 5, wherein the electrical discharge machine head is disposed in a space formed by the combination of the mounting frames.

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