CN216178293U - Numerical control double-shaft drilling and tapping equipment - Google Patents

Abstract

The utility model provides numerical control double-shaft drilling and tapping equipment which is simple in structure and convenient to operate, and comprises a waste collecting vehicle, a shell, a machine body, machine tool feet, tool magazines, main shafts, a front-back moving assembly, a left-right moving assembly and an up-down moving assembly, wherein the front-back moving assembly and the up-down moving assembly are arranged in two groups and are arranged at the upper end of the machine body side by side and are positioned on the same plane, the shell is sleeved on the machine body, the left-right moving assembly and the left-right moving assembly are arranged in one group and are arranged at the upper ends of the two groups of front-back moving assemblies and are positioned in the shell, the up-down moving assembly is arranged on the left-right moving assembly, the main shafts are sleeved in the up-down moving assembly, the tool magazines are arranged in two groups and are respectively arranged at two sides of the upper end of the machine body, the design of double main shafts and double tool magazines is adopted, the numerical control system is adopted, the equipment automatically selects and replaces tools, two different or same workpieces can be processed simultaneously, and different processing can be carried out on the same workpiece simultaneously.

Description

Numerical control double-shaft drilling and tapping equipment

Technical Field

The utility model relates to a high-speed drilling and tapping technology, in particular to numerical control double-shaft drilling and tapping equipment.

Background

With the vigorous development of the domestic industrial manufacturing industry in modern society, grinding tool processing in various industries starts to use processing equipment, and in the production of current manufacturers, a main shaft of the used tapping and drilling equipment is in a direct connection mode, a planar single-gantry mode and a single-tool magazine mode. The drilling and tapping machine is generally used for drilling and tapping, and can also be used for milling and boring, in daily use, the drilling and tapping equipment is biased to light cutting, taps small threads and has high rotating speed, but in the processing process, different processing is often required to be carried out on the same workpiece, and the loading and unloading are inconvenient and time-consuming;

meanwhile, the efficiency requirement is also met for the same workpiece, and equipment capable of simultaneously processing the same workpiece and carrying out the same processing program and different processing sequences is lacked in the existing market.

SUMMERY OF THE UTILITY MODEL

The problem that the existing drilling and tapping equipment is inconvenient to machine and consumes time is high is solved, and the drilling and tapping equipment which is convenient, efficient and accurate is provided.

The utility model provides a numerical control biax bores attacks equipment, includes numerical control system and bores and attacks equipment:

the drilling and tapping equipment comprises a waste collecting vehicle, a shell, a machine body, machine tool feet, a tool magazine, a main shaft, a front-back moving assembly, a left-right moving assembly and an up-down moving assembly;

the lower end of the lathe body is provided with two machine tool legs;

the front and rear moving assemblies are arranged in two groups and are arranged at the upper end of the lathe bed side by side and are positioned on the same plane;

the outer shell is sleeved on the bed body;

the left and right moving assemblies are a group, are arranged at the upper ends of the two groups of front and back moving assemblies and are positioned in the shell;

the two groups of up-down moving components are arranged on the left-right moving component;

the two groups of main shafts are respectively sleeved in the two groups of up-down moving assemblies;

the tool magazines are divided into two groups and are respectively arranged on two sides of the upper end of the lathe bed;

the front side of the shell is provided with four doors and windows, two doors and windows on the side edges are fixedly arranged, and two doors and windows in the middle are hinged with the doors and windows on the two sides through hinges respectively to form a double door;

the left side and the right side of the shell are both provided with door and window openings, doors and windows are arranged on the door and window openings, and the doors and the windows are hinged with the shell through hinges to form a single-door;

two waste material outlets are formed in the rear side of the shell; and a waste collecting vehicle is arranged below the waste outlet.

Further, the left-right moving assembly comprises a left-right moving slide rail, a fixed transverse frame, a supporting frame, a left-right moving slide block and a left-right moving carriage;

the fixed transverse frame is transversely arranged at the rear end positions of the left side and the right side of the shell;

the upper end of the supporting frame is connected with the fixed transverse frame, and the lower end of the supporting frame is fixedly connected with the front-back moving assembly;

a left-right moving slide rail is arranged on the fixed transverse frame;

the plankers moving left and right are divided into two groups;

the left and right moving slide blocks are respectively arranged on the two left and right moving plankers;

the left-right moving guide rail is matched and connected with the left-right moving slide block, and a linear machine stator and a rotor for controlling sliding amplitude are arranged between the left-right moving guide rail and the left-right moving slide block.

Further, the back-and-forth moving component comprises a back-and-forth moving guide rail, a back-and-forth moving slide block and a back-and-forth moving carriage;

the front-back moving guide rail is provided with a plurality of tracks and is equidistantly arranged at the upper end of the machine tool, the front-back moving slide block is arranged at the lower end of the front-back moving carriage, the front-back moving guide rail is connected with the front-back moving slide block in a closing manner, and a linear machine stator and a rotor for controlling the sliding amplitude are arranged between the front-back moving guide rail and the front-back moving slide block.

The up-down moving assembly comprises a main shaft, an up-down moving carriage, an up-down moving guide rail and an up-down moving slider, the up-down moving carriage is a hollow semi-cylinder, the up-down moving guide rail is arranged on the up-down moving carriage, the up-down moving slider is arranged on the up-down moving carriage, the up-down moving guide rail and the up-down moving slider are connected in a matched manner, a linear machine stator and a rotor are arranged between the up-down moving guide rail and the up-down moving slider and used for controlling the sliding amplitude, and the main shaft is sleeved in the up-down moving carriage.

Further, the tool magazine is a half-sector servo tool magazine.

Furthermore, two groups of front-and-back moving assemblies are arranged at the upper end of the lathe bed, each group of front-and-back moving assemblies is a workbench, two coordinate systems are formed by combining two sets of main shafts, and the machine is suitable for two sets of different codes or the same set of codes.

And further, the numerical control system is connected with the drilling and tapping equipment and controls the equipment to move.

Furthermore, the waste material outlets are respectively arranged at the lower positions of the two groups of front-back moving components.

Compared with the prior art, the double-spindle double-tool magazine design is adopted, the numerical control system is adopted for control, the equipment automatically selects and replaces tools, and in the using process, the double-spindle double-tool magazine design can be used for simultaneously processing two different or same workpieces and can also be used for simultaneously carrying out different processing on the same workpiece;

the lathe bed is made of marble, so that the stability of the whole machining center in use is ensured; the marble has the characteristics of difficult deformation, no rustiness, easy maintenance, acid and alkali resistance, high hardness, wear resistance, antimagnetic performance and the like, and further ensures the processing precision of processing equipment;

the double tool magazine design is adopted, various different tools are assembled, different tools are prepared in advance according to needs under the condition of no need of stopping machine and dismounting, and tools are directly changed during processing, so that the time cost is greatly saved;

the guide rail and the linear machine stator and the rotor which are arranged in the guide rail sliding block and used for controlling the sliding amplitude are automatically used by the numerical control system in the using process, the feeding amount and the motion track of a relative workpiece are changed, efficient and accurate drilling and tapping are carried out on one workpiece, manual operation is avoided, errors occur, and the linear machine stator and the rotor are convenient to operate and high in accuracy.

Drawings

FIG. 1 is a front oblique side view of the present invention;

FIG. 2 is a diagonal two-dimensional view of the appearance of the back cotton of the present invention;

FIG. 3 is an oblique two-side view of the internal structure of the present invention;

FIG. 4 is a structural view of the forward and backward movement assembly of the present invention;

FIG. 5 is a side-to-side movement assembly configuration of the present invention;

fig. 6 is a structural view of the up-down moving assembly of the present invention.

The automatic waste collection and treatment device comprises a shell 1, a waste collection vehicle 2, a machine tool foot 3, a tool magazine 4, a front and back moving assembly 5, a left and right moving assembly 6, a vertical moving assembly 7, a waste outlet 8, a machine tool body 9, a front and back moving guide rail 501, a front and back moving slider 502, a front and back moving carriage 503, a front and back moving carriage 601, a left and right moving slide rail 602, a left and right moving slider 603, a fixed transverse frame 604, a support frame 605, a left and right moving carriage 701, a vertical moving carriage 702, a vertical moving guide rail 703, a vertical moving slider 704 and a main shaft 704.

Detailed Description

The utility model provides a numerical control biax bores attacks equipment, includes numerical control system and bores and attacks equipment:

the drilling and tapping equipment comprises a waste collecting vehicle, a shell, a machine body, machine tool feet, a tool magazine, a main shaft, a front-back moving assembly, a left-right moving assembly and an up-down moving assembly;

the lower end of the lathe body is provided with two machine tool legs;

the front and rear moving assemblies are arranged in two groups and are arranged at the upper end of the lathe bed side by side and are positioned on the same plane;

the outer shell is sleeved on the bed body;

the left and right moving assemblies are a group, are arranged at the upper ends of the two groups of front and back moving assemblies and are positioned in the shell;

the two groups of up-down moving components are arranged on the left-right moving component;

the two groups of main shafts are respectively sleeved in the two groups of up-down moving assemblies;

the tool magazines are divided into two groups and are respectively arranged on two sides of the upper end of the lathe bed;

the front side of the shell is provided with four doors and windows, two doors and windows on the side edges are fixedly arranged, and two doors and windows in the middle are hinged with the doors and windows on the two sides through hinges respectively to form a double door;

the left side and the right side of the shell are both provided with door and window openings, doors and windows are arranged on the door and window openings, and the doors and the windows are hinged with the shell through hinges to form a single-door;

two waste material outlets are formed in the rear side of the shell; and a waste collecting vehicle is arranged below the waste outlet.

Further, the left-right moving assembly comprises a left-right moving slide rail, a fixed transverse frame, a supporting frame, a left-right moving slide block and a left-right moving carriage;

the fixed transverse frame is transversely arranged at the rear end positions of the left side and the right side of the shell;

the upper end of the supporting frame is connected with the fixed transverse frame, and the lower end of the supporting frame is fixedly connected with the front-back moving assembly;

a left-right moving slide rail is arranged on the fixed transverse frame;

the plankers moving left and right are divided into two groups;

the left and right moving slide blocks are respectively arranged on the two left and right moving plankers;

the left-right moving guide rail is matched and connected with the left-right moving slide block, and a linear machine stator and a rotor for controlling sliding amplitude are arranged between the left-right moving guide rail and the left-right moving slide block.

Further, the back-and-forth moving component comprises a back-and-forth moving guide rail, a back-and-forth moving slide block and a back-and-forth moving carriage;

the front-back moving guide rail is provided with a plurality of tracks and is equidistantly arranged at the upper end of the machine tool, the front-back moving slide block is arranged at the lower end of the front-back moving carriage, the front-back moving guide rail is connected with the front-back moving slide block in a closing manner, and a linear machine stator and a rotor for controlling the sliding amplitude are arranged between the front-back moving guide rail and the front-back moving slide block.

The up-down moving assembly comprises a main shaft, an up-down moving carriage, an up-down moving guide rail and an up-down moving slider, the up-down moving carriage is a hollow semi-cylinder, the up-down moving guide rail is arranged on the up-down moving carriage, the up-down moving slider is arranged on the up-down moving carriage, the up-down moving guide rail and the up-down moving slider are connected in a matched manner, a linear machine stator and a rotor are arranged between the up-down moving guide rail and the up-down moving slider and used for controlling the sliding amplitude, and the main shaft is sleeved in the up-down moving carriage.

Further, the tool magazine is a half-sector servo tool magazine.

Furthermore, two groups of front-and-back moving assemblies are arranged at the upper end of the lathe bed, each group of front-and-back moving assemblies is a workbench, two coordinate systems are formed by combining two sets of main shafts, and the machine is suitable for two sets of different codes or the same set of codes.

And further, the numerical control system is connected with the drilling and tapping equipment and controls the equipment to move.

Furthermore, the waste material outlets are respectively arranged at the lower positions of the two groups of front-back moving components.

The drilling and tapping equipment is connected with the numerical control system, and an operator inputs a corresponding workpiece machining program into the numerical control system;

the numerical control system control device automatically selects and replaces a cutter, and automatically changes the feeding amount, the corresponding motion track relative to the workpiece and other work;

and (5) after the procedure is finished, taking out the workpiece to finish machining.

The above-mentioned embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereby; except where expressly specified in the detailed description, all equivalent variations in form, construction and principle of the utility model are intended to be covered by the scope of protection of this patent.

Claims (8)

1. The utility model provides a numerical control biax bores equipment of attacking, includes numerical control system and bores equipment of attacking, its characterized in that:

the drilling and tapping equipment comprises a waste collecting vehicle, a shell, a machine body, machine tool feet, a tool magazine, a main shaft, a front-back moving assembly, a left-right moving assembly and an up-down moving assembly;

the lower end of the lathe body is provided with two machine tool legs;

the front and rear moving assemblies are arranged in two groups and are arranged at the upper end of the lathe bed side by side and are positioned on the same plane;

the outer shell is sleeved on the bed body;

the left and right moving assemblies are a group, are arranged at the upper ends of the two groups of front and back moving assemblies and are positioned in the shell;

the two groups of up-down moving components are arranged on the left-right moving component;

the two groups of main shafts are respectively sleeved in the two groups of up-down moving assemblies;

the tool magazines are divided into two groups and are respectively arranged on two sides of the upper end of the lathe bed;

the front side of the shell is provided with four doors and windows, two doors and windows on the side edges are fixedly arranged, and two doors and windows in the middle are hinged with the doors and windows on the two sides through hinges respectively to form a double door;

the left side and the right side of the shell are both provided with door and window openings, doors and windows are arranged on the door and window openings, and the doors and the windows are hinged with the shell through hinges to form a single-door;

two waste material outlets are formed in the rear side of the shell; and a waste collecting vehicle is arranged below the waste outlet.

2. A numerically controlled dual axis drilling and tapping apparatus according to claim 1, wherein: the left-right moving assembly comprises a left-right moving slide rail, a fixed transverse frame, a supporting frame, a left-right moving slide block and a left-right moving carriage;

the fixed transverse frame is transversely arranged at the rear end positions of the left side and the right side of the shell;

the upper end of the supporting frame is connected with the fixed transverse frame, and the lower end of the supporting frame is fixedly connected with the front-back moving assembly;

a left-right moving slide rail is arranged on the fixed transverse frame;

the plankers moving left and right are divided into two groups;

the left and right moving slide blocks are respectively arranged on the two left and right moving plankers;

the left-right moving guide rail is matched and connected with the left-right moving slide block, and a linear machine stator and a rotor for controlling sliding amplitude are arranged between the left-right moving guide rail and the left-right moving slide block.

3. A numerically controlled dual axis drilling and tapping apparatus according to claim 1, wherein: the front-back moving assembly comprises a front-back moving guide rail, a front-back moving slide block and a front-back moving carriage;

the front-back moving guide rail is provided with a plurality of tracks and is equidistantly arranged at the upper end of the machine tool, the front-back moving slide block is arranged at the lower end of the front-back moving carriage, the front-back moving guide rail is connected with the front-back moving slide block in a closing manner, and a linear machine stator and a rotor for controlling the sliding amplitude are arranged between the front-back moving guide rail and the front-back moving slide block.

4. A numerically controlled dual axis drilling and tapping apparatus according to claim 1, wherein: the up-down moving assembly comprises a main shaft, an up-down moving carriage, an up-down moving guide rail and an up-down moving slide block, the up-down moving carriage is a hollow semi-cylinder, the up-down moving guide rail is arranged on the up-down moving carriage, the up-down moving slide block is arranged on the up-down moving carriage, the up-down moving guide rail and the up-down moving slide block are connected in a matched mode, a linear machine stator and a rotor are arranged between the up-down moving guide rail and the up-down moving slide block and used for controlling sliding amplitude, and the main shaft is sleeved in the up-down moving carriage.

5. A numerically controlled dual axis drilling and tapping apparatus according to claim 1, wherein: the tool magazine is a half-sector servo tool magazine.

6. A numerically controlled dual axis drilling and tapping apparatus according to claim 1, wherein: the upper end of the lathe bed is provided with two groups of front-back moving assemblies, each group of front-back moving assemblies is a workbench, two coordinate systems are formed by combining two sets of main shafts, and the lathe bed is suitable for two sets of different codes or the same set of codes.

7. A numerically controlled dual axis drilling and tapping apparatus according to claim 1, wherein: and the numerical control system is connected with the drilling and tapping equipment and controls the equipment to move.

8. A numerically controlled dual axis drilling and tapping apparatus according to claim 1, wherein: the waste material outlets are respectively arranged at the lower positions of the two groups of corresponding front-back moving components.

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