CN223684466U - Double-spindle power turret numerical control machine tool - Google Patents

Abstract

The utility model discloses a double-spindle power turret numerical control machine tool, and relates to the technical field of machine tools. The utility model comprises a base, wherein a fixed seat is arranged at the upper part of the base, a movable seat is movably matched with the fixed seat, a clamping and rotating mechanism is arranged at the upper parts of the fixed seat and the movable seat, a Z-axis adjusting mechanism is arranged at the upper part of the base, an inclined sliding table is slidably matched with the Z-axis adjusting assembly, an X-axis adjusting mechanism is arranged on the inclined sliding table, a movable table is slidably matched with the X-axis adjusting mechanism, a shell is arranged on the movable table, a Y-axis adjusting mechanism is arranged in the shell, a motor I is arranged on the Y-axis adjusting mechanism, an extension shaft is fixedly connected with an output shaft of the motor I, and a cutter tower is arranged at the end part of the extension shaft. According to the utility model, the Z-axis adjusting mechanism, the X-axis adjusting mechanism and the Y-axis adjusting mechanism are matched, so that the three-dimensional position of the turret in the processing space of the numerical control machine tool can be adjusted conveniently, the processing capacity of complex products is greatly improved, and the processing precision of a plurality of processing engineering parts is improved.

Description

Double-spindle power turret numerical control machine tool

Technical Field

The utility model belongs to the field of machine tools, and particularly relates to a numerical control machine tool with double main shafts and power tool towers.

Background

The numerical control machine tool is short for numerical control machine tool, and is an automatic machine tool with a program control system. The existing numerical control lathe suitable for batch processing has the problems that the cutter tower is fixed or arranged in a single direction moving way, the increasingly complex processing requirement is difficult to meet, and the processing effect of a final product is affected.

The present utility model has been made in view of this.

Disclosure of Invention

The utility model aims to solve the technical problems of overcoming the defects of the prior art, providing a double-spindle power turret numerical control machine tool and solving the problems in the prior art.

In order to solve the technical problems, the utility model adopts the basic conception of the technical scheme that:

A double-spindle power turret numerical control machine tool comprises a base, a fixed seat, a movable seat, a clamping and rotating mechanism, a rotary mechanism and a rotary mechanism, wherein the fixed seat is arranged at the upper part of the base;

The upper portion of the base is provided with a Z-axis adjusting mechanism, the Z-axis adjusting assembly is provided with an inclined sliding table in a sliding fit manner, the inclined sliding table is provided with an X-axis adjusting mechanism, the X-axis adjusting mechanism is provided with a mobile station in a sliding fit manner, a shell is arranged on the mobile station, a Y-axis adjusting mechanism is arranged in the shell, the Y-axis adjusting mechanism is provided with a motor I, an output shaft of the motor I is fixedly connected with an extension shaft, the end part of the extension shaft is provided with a cutter tower, and the cutter tower is positioned on the side surface of the shell.

Optionally, the first L-shaped seat is arranged on one side of the base, the first L-shaped seat is arranged between the two guide rails, the second motor is arranged on the first L-shaped seat, the first screw is fixedly connected with the second output shaft of the motor, and the lower part of the movable seat is in threaded fit on one side of the screw and is in sliding fit with the first guide rails.

Optionally, the clamping and rotating mechanism comprises two hollow oil pressure rotary cylinders respectively arranged on the outer sides of the fixed seat and the movable seat, an output shaft of each hollow oil pressure rotary cylinder is fixedly connected with a main shaft, the main shafts are in rotary fit in the corresponding fixed seat or movable seat, the end parts of the main shafts are fixedly connected with hydraulic chucks, and the hydraulic chucks are positioned between the fixed seat and the movable seat.

Optionally, the Z-axis adjusting mechanism comprises a second L-shaped seat and two second guide rails, wherein the second L-shaped seat is arranged on the upper portion of the base, the second L-shaped seat is arranged between the two second guide rails, a third motor is arranged on the second L-shaped seat, a second screw rod is fixedly connected to the third output shaft of the motor, and the lower portion of the inclined sliding table is in threaded fit on the peripheral side of the second screw rod and is in sliding fit on the second guide rails.

Optionally, the X-axis adjusting mechanism comprises a hollow frame and two guide rails III, wherein the hollow frame is arranged on the inclined sliding table, the hollow frame is arranged between the two guide rails III, a motor IV is arranged in the hollow frame, a screw rod III is fixedly connected with an output shaft of the motor IV, and the lower part of the moving table is in threaded fit with the screw rod III and in sliding fit with the two guide rails III.

Optionally, a bearing seat is arranged on the inclined sliding table, the bearing seat is positioned below the hollow frame, and the three ends of the screw rod are in running fit on the bearing seat.

Optionally, the Y-axis adjusting mechanism comprises a movable box located in the shell, the first motor is arranged on one side of the movable box, the extension shaft transversely penetrates through the movable box, the fifth motor is arranged on the upper side of the shell, the fifth motor output shaft is fixedly connected with a fourth screw rod, the fourth screw rod is in rotary fit in the shell, and the movable box is in threaded fit on the periphery of the fourth screw rod.

Optionally, a chip blocking plate is arranged on one side of the movable box, the chip blocking plate is positioned on the peripheral side of the extension shaft, and the chip blocking plate is in sliding fit with the side surface of the shell.

After the technical scheme is adopted, compared with the prior art, the utility model has the following beneficial effects, and of course, any product for implementing the utility model does not necessarily need to achieve all the following advantages at the same time:

Through Z axle adjustment mechanism, X axle adjustment mechanism and Y axle adjustment mechanism cooperatees, be convenient for carry out three-dimensional position adjustment with the sword tower in the processing space of digit control machine tool, improve the throughput of complicated product by a wide margin, improve the machining precision of many processing engineering parts, drive extension axle and sword tower through motor work and rotate to can realize positive reverse tool changing and cutting, improve the efficiency and the speed of product processing.

The following describes the embodiments of the present utility model in further detail with reference to the accompanying drawings.

Drawings

The drawings in the following description are only examples of embodiments from which other drawings may be derived by those skilled in the art without the exercise of inventive faculty. In the drawings:

FIG. 1 is a schematic perspective view;

FIG. 2 is a schematic cross-sectional view;

fig. 3 is a schematic view of the structure of the Y-axis adjusting mechanism.

In the drawings, the list of components represented by the various numbers is as follows:

The device comprises a base 1, a fixed seat 2, a movable seat 3, an L-shaped seat 4, a screw one 401, a hollow oil pressure rotary cylinder 5, a main shaft 501, a hydraulic chuck 502, a guide rail two 6, an L-shaped seat two 7, a motor three 701, a screw two 702, an inclined sliding table 8, a hollow frame 9, a screw three 901, a guide rail three 10, a movable table 11, a shell 12, a movable box 13, a motor one 14, a cutter tower 15, a motor five 16 and a chip blocking plate 17.

It should be noted that these drawings and the written description are not intended to limit the scope of the inventive concept in any way, but to illustrate the inventive concept to those skilled in the art by referring to the specific embodiments.

Detailed Description

The utility model will now be described in further detail with reference to the accompanying drawings.

Referring to fig. 1-3, in this embodiment, a dual spindle power turret numerical control machine tool is provided, which includes a base 1, a fixed seat 2 is provided at the upper part of the base 1, a movable seat 3 is movably matched with the fixed seat 2, and a clamping and rotating mechanism is provided at the upper parts of the fixed seat 2 and the movable seat 3;

The upper portion of the base 1 is provided with a Z-axis adjusting mechanism, the Z-axis adjusting assembly is provided with an inclined sliding table 8 in a sliding fit manner, an X-axis adjusting mechanism is arranged on the inclined sliding table 8, a moving table 11 is arranged on the X-axis adjusting mechanism in a sliding fit manner, a shell 12 is arranged on the moving table 11, a Y-axis adjusting mechanism is arranged in the shell 12, a motor I14 is arranged on the Y-axis adjusting mechanism, an output shaft of the motor I14 is fixedly connected with an extension shaft, a cutter tower 15 is arranged at the end part of the extension shaft, and the cutter tower 15 is located on the side face of the shell 12.

The application of one aspect of the embodiment is that a product is placed into a numerical control machine tool, a clamping and rotating mechanism is automatically clamped, a numerical control program is input into a numerical control system according to a product drawing, a cutter required for machining is arranged on a cutter tower 15, the cutter is set, a protective door is closed, automatic machining of the machine tool is started, a Z-axis adjusting mechanism, an X-axis adjusting mechanism and a Y-axis adjusting mechanism are matched with each other to carry out space position adjustment on the position of the cutter tower 15, and a motor 14 works to drive an extension shaft to rotate the cutter tower 15 to carry out rotation adjustment. It should be noted that all the electric equipment related in the application can be powered by a storage battery or an external power supply.

Through Z axle adjustment mechanism, X axle adjustment mechanism and Y axle adjustment mechanism cooperatees, be convenient for carry out three-dimensional position adjustment with the sword tower 15 in the process space of digit control machine tool, improve the throughput of complicated product by a wide margin, improve the machining precision of many processing engineering parts, drive extension axle and sword tower 15 rotation through motor one 14 work to can realize forward and reverse tool changing and cutting, improve the efficiency and the speed of product processing.

As shown in fig. 1 and 3, a first L-shaped seat 4 is installed on one side of the base 1, two first guide rails are installed on the upper side of the base, the first L-shaped seat 4 is located between the two guide rails, a second motor is installed on the first L-shaped seat 4, a first screw 401 is fixedly connected to an output shaft of the second motor, a lower portion of the movable seat 3 is in threaded fit on the periphery of the first screw 401 and is in sliding fit on the first guide rails, the first screw 401 is driven to rotate through the second motor, the first screw 401 is driven to rotate to drive the movable seat 3 to slide along the first guide rails, and therefore the distance between the movable seat 3 and the fixed seat 2 can be adjusted according to the length of a product.

As shown in fig. 1 and 2, the clamping and rotating mechanism of the embodiment includes two hollow hydraulic rotary cylinders 5 respectively installed on opposite outer sides of a fixed seat 2 and a movable seat 3, an output shaft of each hollow hydraulic rotary cylinder 5 is fixedly connected with a main shaft 501, the main shafts 501 are rotationally matched in the corresponding fixed seat 2 or movable seat 3, the end parts of the main shafts 501 are fixedly connected with hydraulic chucks 502, the hydraulic chucks 502 are located between the fixed seat 2 and the movable seat 3, products are clamped and fixed through the hydraulic chucks 502, and the main shafts 501 and the hydraulic chucks 502 are driven to rotate through the work of the hollow hydraulic rotary cylinders 5, so that the rotation of the clamped products is controlled or the angle adjustment is performed.

As shown in fig. 1, the Z-axis adjusting mechanism of the present embodiment includes an L-shaped seat two 7 and two guide rails two 6 mounted on the upper portion of the base 1, the L-shaped seat two 7 is located between the two guide rails two 6, a motor three 701 is mounted on the L-shaped seat two 7, an output shaft of the motor three 701 is fixedly connected with a screw rod two 702, a lower portion of the inclined sliding table 8 is in threaded engagement with a peripheral side of the screw rod two 702, and is in sliding engagement with the two guide rails two 6, the screw rod two 702 is driven to rotate by the motor three 701, and the screw rod two 702 is driven to rotate so as to slide along the guide rails two 6, thereby adjusting a horizontal position of the turret 15 between the movable seat 3 and the fixed seat 2.

As shown in fig. 1 and 2, the X-axis adjusting mechanism of the present embodiment includes a hollow frame 9 and two guide rails three 10 mounted on the inclined sliding table 8, the hollow frame 9 is located between the two guide rails three 10, a motor four is mounted in the hollow frame 9, a screw three 901 is fixedly connected to the output shaft of the motor four, the lower portion of the moving table 11 is in threaded fit with the screw three 901 and is in sliding fit with the two guide rails three 10, the screw three 901 is driven to rotate by the motor four operations, the screw three 901 rotates to drive the moving table 11 to slide along the direction of the guide rails three 10, and thus the distance between the cutter tower 15 and the product is adjusted.

As shown in fig. 2, a bearing seat is installed on the inclined sliding table 8 of the embodiment, the bearing seat is located below the hollow frame 9, the end part of the screw three 901 is in running fit on the bearing seat, and the stability of the screw three 901 during rotation is improved through the bearing seat.

As shown in fig. 1-3, the Y-axis adjusting mechanism of the present embodiment includes a movable box 13 located in a housing 12, a first motor 14 is installed on one side of the movable box 13, an extension shaft transversely penetrates the movable box 13, a fifth motor 16 is installed on the upper side of the housing 12, an output shaft of the fifth motor 16 is fixedly connected with a fourth screw, the fourth screw is rotationally matched in the housing 12, the movable box 13 is in threaded engagement with the periphery of the fourth screw, the fourth screw is driven to rotate by the operation of the fifth motor 16, the fourth screw rotates to drive the movable box 13 to slide in the housing 12, and the distance between the cutter tower 15 and the inclined sliding table 8 is adjusted.

As shown in fig. 1 and 3, a chip blocking plate 17 is mounted on one side of the movable box 13 in this embodiment, the chip blocking plate 17 is located on the peripheral side of the extension shaft, the chip blocking plate 17 is slidably fitted on the side surface of the housing 12, and metal chips generated during product processing are prevented from flying into the housing 12 by the chip blocking plate 17.

The present utility model is not limited to the above embodiments, and any person who can learn the structural changes made under the teaching of the present utility model can fall within the scope of the present utility model if the present utility model has the same or similar technical solutions. The technology, shape, and construction parts of the present utility model, which are not described in detail, are known in the art.

Claims (8)

1. The double-spindle power turret numerical control machine tool is characterized by comprising a base (1), wherein a fixed seat (2) is arranged at the upper part of the base (1), a movable seat (3) is movably matched with the fixed seat (2), and a clamping and rotating mechanism is arranged at the upper parts of the fixed seat and the movable seat (3);

The upper portion of base (1) is provided with Z axle adjustment mechanism, sliding fit has slope slip table (8) on the Z axle adjustment subassembly, be provided with X axle adjustment mechanism above slope slip table (8), sliding fit has mobile station (11) on the X axle adjustment mechanism, shell (12) have been installed above mobile station (11), be provided with Y axle adjustment mechanism in shell (12), be provided with motor one (14) on the Y axle adjustment mechanism, motor one (14) output shaft fixedly connected with extension axle, extension axle head has installed sword tower (15).

2. The numerical control machine tool with the double main shafts and the power tool turret according to claim 1 is characterized in that an L-shaped seat I (4) is arranged on one side of a base (1), two guide rails I are arranged on the upper side of the base, a motor II is arranged on the L-shaped seat I (4), a screw rod I (401) is fixedly connected to an output shaft of the motor II, and the lower portion of a movable seat (3) is in threaded fit on the peripheral side of the screw rod I (401) and is in sliding fit on the two guide rails I.

3. The numerical control machine tool with the double main shafts and the power tool turret according to claim 1, wherein the clamping and rotating mechanism comprises two hollow oil pressure rotary cylinders (5) which are respectively arranged on the opposite outer sides of the fixed seat (2) and the movable seat (3), an output shaft of each hollow oil pressure rotary cylinder (5) is fixedly connected with a main shaft (501), and the end part of each main shaft (501) is fixedly connected with a hydraulic chuck (502).

4. The numerical control machine tool with the double main shafts and the power tool turret according to claim 1 is characterized in that the Z-axis adjusting mechanism comprises an L-shaped seat II (7) and two guide rails II (6) which are arranged on the upper portion of the base (1), a motor III (701) is arranged on the L-shaped seat II (7), an output shaft of the motor III (701) is fixedly connected with a screw rod II (702), and the lower portion of the inclined sliding table (8) is in threaded fit on the peripheral side of the screw rod II (702) and is in sliding fit on the two guide rails II (6).

5. The numerical control machine tool with the double main shafts and the power tool turret according to claim 1, wherein the X-axis adjusting mechanism comprises a hollow frame (9) arranged on the inclined sliding table (8) and two guide rails III (10), a motor IV is arranged in the hollow frame (9), a screw rod III (901) is fixedly connected to an output shaft of the motor IV, and the lower part of the mobile table (11) is in threaded fit with the screw rod III (901) and is in sliding fit with the two guide rails III (10).

6. The numerical control machine tool with the double-spindle power turret according to claim 5, wherein a bearing seat is arranged on the inclined sliding table (8), and the end part of the screw three (901) is in rotary fit on the bearing seat.

7. The numerical control machine tool with the double main shafts and the power tool turret according to claim 1, wherein the Y-axis adjusting mechanism comprises a movable box (13) positioned in a shell (12), a motor I (14) is arranged on one side of the movable box (13), a motor II (16) is arranged on the upper side of the shell (12), an output shaft of the motor II (16) is fixedly connected with a screw rod IV, and the movable box (13) is in threaded fit on the peripheral side of the screw rod IV.

8. The numerical control machine tool with the double main shafts and the power tool turret according to claim 7, wherein a chip blocking plate (17) is arranged on one side of the movable box (13), and the chip blocking plate (17) is in sliding fit with the side face of the shell (12).