CN210649487U - Detachable numerical control wire taking machine tool - Google Patents

Abstract

The utility model discloses a detachable numerical control wire taking machine tool, which comprises a tooling plate, a control cabinet and a tool chuck, wherein the tooling plate is provided with an X-axis mounting seat, a Y-axis mounting seat and a Z-axis mounting seat, the Y-axis mounting seat is fixedly arranged on the tooling plate, the Y-axis mounting seat is provided with the X-axis mounting seat, the Z-axis mounting seat is provided with a Z-axis fixed slide block capable of sliding up and down, the tool chuck is arranged below the Z-axis fixed slide block, the rear end of the tool chuck is provided with a main shaft servo mechanism for controlling the tool chuck to work, the utility model discloses a machine tool is arranged in a superposition type assembly, the machine tool is disassembled into three parts and is arranged in a box, a crane is not needed to carry and move the machine tool, the machine tool can be transported to a processing site through loading transportation, the machine tool is multipurpose, the processing efficiency is high, the precision is accurate, and the disassembly time of, the labor intensity and the production cost are reduced.

Description

Detachable numerical control wire taking machine tool

Technical Field

The utility model relates to a machining technical field, especially a silk lathe is got to detachable numerical control.

Background

At present, in the fields of nuclear power, oil refining, petrochemical industry, ports and the like, large-scale equipment and large-scale conveying pipelines in industrial fields are connected and fixed by large bolts, but the large-scale equipment and the large-scale conveying pipelines are easy to rust due to long-time work in moist and corrosive working environments, sometimes the bolts are rusted and cannot be detached, and field drilling and thread machining are needed.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to above-mentioned prior art not enough, provide a silk lathe is got to detachable numerical control.

In order to solve the technical problem, the utility model discloses the technical scheme who takes is: the utility model provides a silk lathe is got to detachable numerical control, includes frock board, switch board and cutter chuck, the installation of frock board is fixed to the processing scene, be equipped with X axle mount pad, Y axle mount pad and Z axle mount pad on the frock board, the installation of Y axle mount pad is fixed on the frock board, install X axle mount pad on the Y axle mount pad, be equipped with gliding Z axle fixed sliding block from top to bottom on the Z axle mount pad, the cutter chuck is installed in the below of Z axle fixed sliding block, the rear end of cutter chuck is equipped with the main shaft servo mechanism who is used for controlling the work of cutter chuck, all be equipped with side by side bidirectional guide on X axle mount pad, Y axle mount pad and the Z axle mount pad, the frock board sets gradually Y axle mount pad, X axle mount pad, Z axle mount pad, cutter chuck and Z axle fixed sliding block from supreme down.

Preferably, the rear end of the Y-axis mounting seat is provided with a first transmission mechanism for controlling the front and rear movement of the X-axis mounting seat, and the rear end of the Y-axis mounting seat is provided with a protective shell for protecting the first transmission mechanism.

Preferably, the X-axis mounting seat is provided with a mounting plate, and the mounting plate is provided with a second transmission mechanism for controlling the mounting plate to move left and right along the parallel bidirectional guide rails on the X-axis mounting seat.

Preferably, the Z axle mount pad is installed in the front of mounting panel, the mounting panel is connected with the Z axle mount pad vertical state, be equipped with the strengthening rib between mounting panel and the Z axle mount pad, the strengthening rib passes through the bolt and is connected the mounting panel with the Z axle mount pad fixedly.

Preferably, the top end of the back side of the Z-axis mounting seat is provided with a fixing plate extending outwards, and the top end of the back side of the Z-axis mounting seat is provided with a third transmission mechanism for controlling the Z-axis fixing slide block to move up and down.

Preferably, a shell for protecting the second transmission mechanism and the third transmission mechanism is arranged between the mounting plate and the Z-axis mounting seat.

Preferably, the X-axis mounting seat, the Y-axis mounting seat, the Z-axis mounting seat and the tool chuck are assembled in a stacked mode and can be taken to a processing site through being decomposed into a plurality of parts and boxed.

Preferably, the cutter clamped by the cutter chuck is detachably mounted, and the diameter of the cutter for hole processing is phi 10 or more.

Preferably, the control cabinet comprises a control panel and an automatic processing program, the automatic processing program is an edited program, processing can be performed only by inputting processing parameters, and the processing rotating speed is adjustable in twelve gears.

Preferably, the first transmission mechanism, the second transmission mechanism and the third transmission mechanism are all in link transmission.

The utility model has the advantages that: the utility model discloses a set up the machine tool into stacked equipment, put into the case through dismantling machine tool into three part, do not need the hoist to come to carry the removal to the lathe, can transport the processing scene through the loading transportation, accomplish the equipment in the short time, it moves to the maintenance scene to equal to with the workshop, and can also deal with different processing environment, the required angle of adjustment processing, it is fixed with the lathe with the frock board, process through the switch board can, and the integration has the procedure that is used for controlling the triaxial and accomplishes circular motion in the switch board, need not to reprogram, input processing parameter can begin to process, can effectual reduction time and the cost of maintenance, can process different apertures in a flexible way through changing the cutter, accomplish drilling, reaming, get the instruction such as silk, can also do the processing of milling holes and bore hole, a tractor serves several purposes, the machining precision covers rough machining, a machine is used, Semi-finishing and finish machining, and machining efficiency is high and the precision is accurate, can save large-scale maintenance of equipment's dismantlement time, reduces intensity of labour and manufacturing cost.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic structural diagram of the processing machine tool of the present invention.

Fig. 3 is a schematic structural view of the machine tool without housing according to the present invention.

Fig. 4 is an exploded view of the processing machine tool of the present invention.

10. Assembling a plate; 20. a control cabinet; 30. a tool holder; 31. a cutter; 40. an X-axis mounting base; 50. a Y-axis mounting base; 51. a first transmission mechanism; 52. a protective housing; 60. a Z-axis mounting base; 61. A Z-axis fixed slide block; 62. a fixing plate; 63. a third transmission mechanism; 70. a spindle servo mechanism; 80. mounting a plate; 81. a second transmission mechanism; 82. a housing; 90. and (5) reinforcing ribs.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1-4, the embodiment of the present invention provides a detachable numerically controlled wire-drawing machine tool, which comprises a tooling plate 10, a control cabinet 20 and a tool chuck 30, wherein the tooling plate 10 is installed and fixed on a machining site, the tooling plate 10 is provided with an X-axis mounting seat 40, a Y-axis mounting seat 50 and a Z-axis mounting seat 60, the Y-axis mounting seat 50 is installed and fixed on the tooling plate 10, the X-axis mounting seat 40 is installed on the Y-axis mounting seat 50, the tool chuck 30 is installed below the Z-axis fixing seat 61 by providing the Z-axis fixing seat 60 with a Z-axis fixing slide block 61 capable of sliding up and down, a main shaft servo mechanism 70 for controlling the tool chuck 30 to work is provided at the rear end of the tool chuck 30, and two-way guide rails are provided on the X-axis mounting seat 40, the Y-axis mounting seat 50 and the Z-axis mounting seat 60 side by side, the tooling plate 10 is sequentially arranged from bottom to top to bottom as a Y-axis mounting, An X-axis mount 40, a Z-axis mount 60, a tool holder 30, and a Z-axis fixed slide 61.

A first transmission mechanism 51 for controlling the forward and backward movement of the X-axis mount 40 is provided at the rear end of the Y-axis mount 50, and a protective housing 52 for protecting the first transmission mechanism 51 is provided at the rear end of the Y-axis mount 50.

The X-axis mounting seat 40 is provided with a mounting plate 80, and the mounting plate 80 is provided with a second transmission mechanism 81 for controlling the mounting plate 80 to move left and right along the parallel bidirectional guide rails on the X-axis mounting seat 40.

The front of mounting panel 80 is installed Z axle mount pad 60, and mounting panel 80 is connected with Z axle mount pad 60 and is the vertical state, is equipped with strengthening rib 90 between mounting panel 80 and the Z axle mount pad 60, and strengthening rib 90 passes through the bolt with mounting panel 80 and Z axle mount pad 60 be connected fixedly.

A fixing plate 62 extending outwards is arranged at the top end of the reverse side of the Z-axis mounting seat 60, and a third transmission mechanism 63 for controlling the Z-axis fixing slide block 61 to move up and down is arranged at the top end of the reverse side of the Z-axis mounting seat 60.

A casing 82 for protecting the second transmission mechanism 81 and the third transmission mechanism 63 is provided between the mounting plate 80 and the Z-axis mount 60.

And the X-axis mounting seat 40, the Y-axis mounting seat 50, the Z-axis mounting seat 60 and the tool chuck 30 are assembled in a superposition mode, can be unpacked and brought to a processing site by being decomposed into a plurality of parts, and are good in portability without moving large-scale equipment for transportation.

The tool 31 held by the tool holder 30 is detachably attached, and the diameter of the hole of the tool 31 to be machined is set to be 10 mm or more, and the size of the tool 31 can be selected according to the dimension to be machined.

The control cabinet 20 comprises a control panel and an automatic processing program, the automatic processing program is an edited program, processing can be performed only by inputting processing parameters, and the processing rotating speed is adjustable in twelve gears.

And the first transmission mechanism 51, the second transmission mechanism 81 and the third transmission mechanism 63 are all driven by connecting screw rods.

The utility model adopts the stacked assembly, the machine tool can be disassembled into three parts to be put into a box to be transported to a processing site, the whole machine is assembled in a short time, a crane is not needed to carry and move the machine tool, and different processing environments can be met and can be adjusted, the angle of processing is adjusted, the machine tool is fixed by the tool plate 10 and is controlled and processed by the control cabinet 20, the integrated program in the control cabinet 20 can control three shafts to complete circular motion without reprogramming, the three shafts can be processed only by inputting parameters, the processing precision is high, the different apertures can be met by changing the cutter 31, the instructions of drilling, reaming, wire taking and the like can be completed, the processing of milling holes and boring holes can be carried out, the machine is multipurpose, the processing precision covers rough processing, semi-finish processing and finish processing, the processing efficiency is high, the precision is accurate, and the time and the cost required by maintenance can be reduced by the mode, without wasting unnecessary waiting time.

The above embodiments are merely illustrative and not restrictive, and all equivalent changes and modifications made by the methods described in the claims are intended to be included within the scope of the present invention.

Claims (9)

1. The utility model provides a silk lathe is got to detachable numerical control, includes frock board, switch board and cutter chuck, its characterized in that: the utility model discloses a tool equipment board, including frock board, Y axle mount pad, Z axle mount pad, tool chuck, Y axle mount pad and Z axle mount pad, the installation of Y axle mount pad is fixed on the frock board, install X axle mount pad on the Y axle mount pad, be equipped with gliding Z axle fixed slider from top to bottom on the Z axle mount pad, the tool chuck is installed in the below of Z axle fixed slider, the rear end of tool chuck is equipped with the main shaft servo mechanism who is used for controlling tool chuck work, all be equipped with side by side bidirectional guide on X axle mount pad, Y axle mount pad and the Z axle mount pad, the frock board sets gradually Y axle mount pad, X axle mount pad, Z axle mount pad, tool chuck and the fixed slider of Z axle from supreme down.

2. The detachable numerical control wire taking machine tool according to claim 1, characterized in that: the rear end of the Y-axis mounting seat is provided with a first transmission mechanism for controlling the X-axis mounting seat to move back and forth, and the rear end of the Y-axis mounting seat is provided with a protective shell for protecting the first transmission mechanism.

3. The detachable numerical control wire taking machine tool according to claim 1, characterized in that: be equipped with a mounting panel on the X axle mount pad, be equipped with on the mounting panel and be used for controlling the mounting panel along the second drive mechanism that removes about the two-way guide rail side by side on the X axle mount pad, the Z axle mount pad is installed in the front of mounting panel, the mounting panel is the vertical state with the Z axle mount pad and is connected.

4. A detachable numerical control wire taking machine tool according to claim 3, characterized in that: and a reinforcing rib is arranged between the mounting plate and the Z-axis mounting seat, and the mounting plate and the Z-axis mounting seat are fixedly connected through a bolt by the reinforcing rib.

5. A detachable numerical control wire taking machine tool according to claim 3, characterized in that: the Z-axis mounting seat is characterized in that a fixing plate extending outwards is arranged at the top end of the reverse side of the Z-axis mounting seat, and a third transmission mechanism used for controlling the Z-axis fixing slide block to move up and down is arranged at the top end of the reverse side of the Z-axis mounting seat.

6. A detachable numerical control wire taking machine tool according to claim 5, characterized in that: and a shell used for protecting the second transmission mechanism and the third transmission mechanism is arranged between the mounting plate and the Z-axis mounting seat.

7. The detachable numerical control wire taking machine tool according to claim 1, characterized in that: the X-axis mounting seat, the Y-axis mounting seat, the Z-axis mounting seat and the cutter chuck are assembled in a superposition mode and can be disassembled into a plurality of parts to be boxed and carried to a machining site.

8. The detachable numerical control wire taking machine tool according to claim 1, characterized in that: the cutter clamped by the cutter chuck is detachably mounted, and the diameter of the cutter for hole processing is phi 10 or more.

9. The detachable numerical control wire taking machine tool according to claim 1, characterized in that: the control cabinet comprises a control panel and an automatic processing program, the automatic processing program is an edited program, processing can be performed only by inputting processing parameters, and the processing rotating speed is adjustable in twelve gears.

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