CN210023876U - Carving mills machine - Google Patents

Abstract

The utility model discloses a carving mills machine, drive arrangement include XYZ axle drive structure, and XYZ axle drive structure all includes motor seat and tail-end seat, and motor seat and tail-end seat are disconnect-type mounting means, and the installation and debugging precision of being convenient for avoids the problem of the unable assembly of machining precision that motor seat, tail-end seat integrated into one piece produced.

Description

Carving mills machine

Technical Field

The utility model relates to a machinery technical processing technical field, especially a carving mills machine.

Background

The engraving and milling machine is a numerical control machine tool, generally considered as a numerical control milling machine using a small cutter, a high-power and high-speed spindle motor, and in recent years, the engraving and milling machine has the advantages of high cost performance, high processing speed, good finish of processed products and the like, and plays an increasingly important role in the machining industry of the machine tool, thereby becoming an indispensable processing link for industrial automation.

The engraving and milling machine generally comprises a driving device, a workbench, an electric spindle and the like, wherein the driving device is used for controlling the workbench and the electric spindle to move, the driving device generally comprises a motor seat and a tail end seat, and the motor seat and the tail end seat of the driving device of the conventional engraving and milling machine are integrally formed, so that the problems that the machining precision cannot be assembled, the installation and debugging precision are inconvenient and the like are caused.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, an object of the utility model is to provide a carving mills machine, motor seat and tail-end seat adopt the disconnect-type mounting means, and the installation and debugging precision of being convenient for avoids the unable problem of assembling of machining precision that motor seat, tail-end seat integrated into one piece produced.

The utility model provides a technical scheme that its problem adopted is:

the utility model provides a carving mills machine, is used for installing the electric main shaft of cutter and is used for controlling workstation and the drive arrangement that the electric main shaft removed including the workstation that is used for placing the work piece, the drive arrangement is including the X axle drive structure that is used for controlling the workstation to remove in the X direction, the Y axle drive structure that controls the electric main shaft and move in the Y direction and the Z axle drive structure that controls the electric main shaft and move in the Z direction, X axle drive structure, Y axle drive structure, Z axle drive structure include motor cabinet and tail end seat, motor cabinet and tail end seat disconnect-type installation.

Further, X axle drive structure, Y axle drive structure, Z axle drive structure still include the lead screw, motor seat and tail end seat are connected to the lead screw. The motor seat drives the screw rod to move the workbench or the electric spindle.

Further, still include base and stand crossbeam, base and stand crossbeam integrated into one piece, workstation, X axle drive structure set up on the base, electricity main shaft, Y axle drive structure and Z axle drive structure set up on the stand crossbeam. The stand crossbeam and the base adopt integrated into one piece mode can improve the stability of lathe, guarantee the effect of lathe processing.

Further, still including being used for driving the saddle that electric spindle moved in the Y direction, the saddle sets up on the stand crossbeam, electric spindle and Z axle drive structure set up on the saddle, Y axle drive structure drives the saddle and makes electric spindle move in the Y direction. The Y-axis driving structure drives the electric main shaft to move in the Y direction by driving the sliding saddle.

Further, a sliding plate is arranged on the sliding saddle, the electric spindle is arranged on the sliding plate, and the Z-axis driving structure drives the sliding plate to enable the electric spindle to move in the Z direction. The Z-axis driving structure drives the electric spindle to move in the Z direction by driving the sliding plate.

The utility model has the advantages that: the utility model discloses a carving mill, drive arrangement include triaxial drive structure, and triaxial drive structure is motor seat, tail end seat disconnect-type mounting means, and the installation and debugging precision of being convenient for avoids the unable problem of assembling of machining precision that motor seat, tail end seat integrated into one piece produced.

Drawings

The invention is further described with reference to the following figures and examples.

Fig. 1 is a structural diagram of the engraving and milling machine of the present invention.

Detailed Description

Referring to fig. 1, the utility model discloses an engraving and milling machine, including workstation 1 that is used for placing the work piece, be used for installing the electric main shaft 2 of cutter and be used for controlling the drive arrangement that workstation 1 and electric main shaft 2 removed, drive arrangement is including X axle drive structure 31, the Y axle drive structure 32 of control electric main shaft 2 removal in the Y direction and the Z axle drive structure 33 of control electric main shaft 2 removal in the Z direction that are used for controlling workstation 1 to remove in the X direction, X axle drive structure 31, Y axle drive structure 32, Z axle drive structure 33 include motor seat 34 and tail end seat 35, motor seat 34 and tail end seat 35 disconnect-type installation.

Specifically, the X-axis driving structure 31, the Y-axis driving structure 32, and the Z-axis driving structure 33 further include a lead screw 36, and the lead screw 36 is connected to the motor base 34 and the tail end base 35. The motor base 34 drives the screw rod 36 to move the worktable 1 or the electric spindle 2.

Specifically, still include base 4 and stand crossbeam 5, base 4 and stand crossbeam 5 integrated into one piece, workstation 1, X axle drive structure 31 set up on base 4, electricity main shaft 2, Y axle drive structure 32 and Z axle drive structure 33 set up on stand crossbeam 5. The column beam 5 and the base 4 are integrally formed, so that the stability of the machine tool can be improved, and the machining effect of the machine tool is guaranteed.

Specifically, a saddle 6 for driving the electric spindle 2 to move in the Y direction is further included, the saddle 6 is disposed on the column cross beam 5, the electric spindle 2 and the Z-axis driving structure 33 are disposed on the saddle 6, and the Y-axis driving structure 32 drives the saddle 6 so that the electric spindle 2 moves in the Y direction. The Y-axis drive mechanism 32 drives the electric spindle 2 to move in the Y direction by driving the saddle 6.

Specifically, a sliding plate 7 is arranged on the saddle 6, the electric spindle 2 is arranged on the sliding plate 7, and the Z-axis driving structure 33 drives the sliding plate 7 to move the electric spindle 2 in the Z direction. The Z-axis driving mechanism 33 drives the electric spindle 2 to move in the Z direction by driving the sliding plate 7.

The utility model discloses a carving mills machine, motor seat 34 and the tail-end seat 35 of XYZ axle drive structure 33 use the disconnect-type mounting means, and not integrated into one piece, the installation and debugging precision of being convenient for avoids the appearance of the unable problem of assembling of machining precision that motor seat 34, tail-end seat 35 integrated into one piece produced, can guarantee the processing effect of carving mills machine.

The motor seat 34 and the tail end seat 35 are respectively positioned at two ends of the screw rod 36, the motor seat 34 drives the screw rod 36 to move while operating, the screw rod 36 converts the rotary motion of the motor seat 34 into linear motion, thereby realizing the movement of the workbench 1, the saddle 6 and the sliding plate 7,

referring to fig. 1 shown, stand crossbeam 5 is fixed planer-type structure, and base 4 and stand adopt integrated into one piece structure, can guarantee the stability of lathe, and base 4 adopts FC300 cast iron material to make simultaneously, and further the stability and the high rigidity of lathe make the utility model discloses a carving mills machine has the processing precision, steadily, nimble, high rigidity, functional characteristics such as the sculpture machining precision is high, the stock-removing is fast.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above embodiment, and the technical effects of the present invention can be achieved by the same means, which all belong to the protection scope of the present invention.

Claims (5)

1. An engraving and milling machine, comprising a worktable (1) for placing a workpiece, an electric spindle (2) for installing a cutter and a driving device for controlling the movement of the worktable (1) and the electric spindle (2), characterized in that: the driving device comprises an X-axis driving structure (31) used for controlling the workbench (1) to move in the X direction, a Y-axis driving structure (32) used for controlling the electric spindle (2) to move in the Y direction and a Z-axis driving structure (33) used for controlling the electric spindle (2) to move in the Z direction, wherein the X-axis driving structure (31), the Y-axis driving structure (32) and the Z-axis driving structure (33) comprise a motor seat (34) and a tail end seat (35), and the motor seat (34) and the tail end seat (35) are installed in a separated mode.

2. Engraving and milling machine according to claim 1, characterized in that: the X-axis driving structure (31), the Y-axis driving structure (32) and the Z-axis driving structure (33) further comprise a screw rod (36), and the screw rod (36) is connected with a motor seat (34) and a tail end seat (35).

3. Engraving and milling machine according to claim 1, characterized in that: still include base (4) and stand crossbeam (5), base (4) and stand crossbeam (5) integrated into one piece, workstation (1), X axle drive structure (31) set up on base (4), electric main shaft (2), Y axle drive structure (32) and Z axle drive structure (33) set up on stand crossbeam (5).

4. Engraving and milling machine according to claim 3, characterized in that: still including being used for driving electric main shaft (2) saddle (6) that remove on Y direction, saddle (6) set up on stand crossbeam (5), electric main shaft (2) and Z axle drive structure (33) set up on saddle (6), Y axle drive structure (32) drive saddle (6) make electric main shaft (2) remove on Y direction.

5. Engraving and milling machine according to claim 4, characterized in that: the sliding saddle (6) is provided with a sliding plate (7), the electric spindle (2) is arranged on the sliding plate (7), and the Z-axis driving structure (33) drives the sliding plate (7) to enable the electric spindle (2) to move in the Z direction.

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