CN202804243U - Double-blade depth locating machining numerically-controlled machine tool for blind hole - Google Patents

Abstract

The utility model discloses a double-blade depth locating machining numerically-controlled machine tool for a blind hole. The double-blade depth locating machining numerically-controlled machine tool for the blind hole comprises a lathe bed (1), a lathe bed electrical cabinet (2), a numerically-controlled control panel (3), a load and clamp table top (4), a tail seat (5) and a double-blade depth locating machining device (9). The lathe bed electrical cabinet (2) is arranged at one side of the lathe bed (1), the lathe bed electrical cabinet (2) is connected with the numerically-controlled control panel (3) through a rotating rod (36), the load and clamp table top (4) is arranged on the upper end of the lathe bed (1), and a rail table top (7) is arranged on the lathe bed (1). A rail (6) is arranged on the rail table top (7), the tail seat (5) and the double-blade depth locating machining device (9) are arranged on the rail (6), and the tail seat (5) is fixedly locked through bolts. According to the double-blade depth locating machining numerically-controlled machine tool for the blind hole, depth of the blind hole is guaranteed when a gun pipe is bent, machining precision is improved, machining and conveying difficulties are reduced, and meanwhile working efficiency is increased nearly by one time. The requirement for large consumption is met, and meanwhile the double-blade depth locating machining numerically-controlled machine tool for the blind hole has the advantages of being simple in structure and low in cost.

Description

A kind of double-pole blind hole depthkeeping degree numerical control machine for processing

Technical field

The utility model belongs to the process equipment field, relates to a kind of double-pole blind hole depthkeeping degree numerical control machine for processing.

Background technology

Because the intensification of the oil recovery degree of depth, the consumption of oil recovery perforating gun is increasing, and is more and more stricter for the wall thickness requirement of perforating gun simultaneously because the darker the pressure underground or seabed of the degree of depth is increasing, causes the depth requirements of blind hole also more and more stricter.But owing to reach more than 10 meters before the tubing processing; can not guarantee its linearity; tubing for bending can not guarantee machining accuracy fully by the working depth that digital control system limits; often can process dark at convex surface; usually working depth is not enough for concave surface; such processing can only be satisfied the larger machining accuracy of dimensional tolerance, for higher required precision, just necessarily requires the tubing linearity to reach certain standard.Difficulty when having strengthened like this processing of gun barrel tubing and transportation, however the tubing after the transportation still can't guarantee linearity fully.

Simultaneously, lower the working (machining) efficiency of cutter for general NC lathe one, be difficult to satisfy the output requirement of current needs.

The utility model content

The purpose of this utility model is to provide a kind of double-pole blind hole depthkeeping degree numerical control machine for processing, it can guarantee blind hole depth when gun barrel is crooked, improve machining accuracy, reduce processing and transport difficulty, double-pole is processed simultaneously and is improved nearly one times working (machining) efficiency simultaneously, in order to satisfy the large demand of consumption, the utlity model has simultaneously simple in structure, the characteristics that cost is low.

The technical solution of the utility model: a kind of double-pole blind hole depthkeeping degree numerical control machine for processing, comprise lathe bed, machine tool electric gas holder, numerical control control panel, the table top that is installed, tailstock and double-pole depthkeeping processing unit (plant), the machine tool electric gas holder is located at a side of lathe bed, the machine tool electric gas holder is connected by dwang with the numerical control control panel, the upper end of lathe bed is provided with the table top that is installed, lathe bed is provided with the track table top, the track table top is provided with track, tailstock and double-pole depthkeeping processing unit (plant) are located on the track, tailstock by bolt-locking on the track table top.Because the utility model is provided with double-pole depthkeeping degree processing unit (plant), so can in the situation of bending pipes, guarantee to add the degree of depth in man-hour, improve machining accuracy, reduce processing and transport difficulty, double-pole is processed the working (machining) efficiency that doubles simultaneously simultaneously, in order to satisfy the large demand of consumption; Because tailstock is located on the track, so can regulate then by bolt-locking on the track table top the tailstock position according to pipe length to be processed.

In the aforesaid this double-pole blind hole depthkeeping degree numerical control machine for processing, double-pole depthkeeping processing unit (plant) comprises processing table top, processing axle box, 2 depth localization devices, 2 process tools and 2 groups of locking pliers, locking pliers and processing axle box all are located at processing table top upper end, depth localization device and process tool are located at processing axle box front end, depth localization device and process tool below are provided with chip-removal hole, processing table top rear is provided with hydraulic jack, depth localization device and process tool be interlock under hydraulic jack, and the processing axle box is provided with the cutting fluid pipe.Owing in the depthkeeping processing unit (plant), be provided with 2 depth localization devices and 2 process tools and 2 groups of locking pliers, added the work efficiency rate so work in-process improves; Owing to below depth localization device and process tool, be provided with chip-removal hole, conveniently in process, with cutting fluid cutting iron cut discharge.

In the aforesaid this double-pole blind hole depthkeeping degree numerical control machine for processing, also be provided with emergency stop switch, start-stop button and Manual pulse generator on the processing table top, emergency stop switch, start-stop button and Manual pulse generator are located at processing table top the same side, Manual pulse generator links to each other with the processing axle box by transmission line, and processing table top opposite side lower end is provided with hydraulic jack.Owing on the processing table top, also be provided with emergency stop switch, start-stop button and Manual pulse generator, so before processing, be convenient to carry out the contraposition of first hole, when processing is observed, be convenient to simultaneously the processing start and stop are controlled.

In the aforesaid this double-pole blind hole depthkeeping degree numerical control machine for processing, be provided with the adjusting guide rail between processing axle box and the processing table top, the processing axle box is provided with adjusting knob, and the processing axle box is provided with the cutting fluid pipe.Because be provided with the adjusting guide rail between processing axle box and processing table top, the processing axle box is provided with adjusting knob, so can regulate position between two processing axle boxes, has both regulated distance between cutter, is convenient to the processing of various pitch-row gun barrels.

In the aforesaid this double-pole blind hole depthkeeping degree numerical control machine for processing, the depth localization device comprises positioner shell, probe and sensor, probe is located at the positioner enclosure, the probe rear end is provided with back-moving spring, sensor is located on the positioner shell, and sensor is by transfer of data alignment digital control system the transmission of data.Since be provided with sensor at the positioner shell, probe feeler when reaching the degree of depth, and sensor can be skipped the punching program and carry out next programmed instruction to the digital control system signal transmission, makes working depth keep certain.

In the aforesaid this double-pole blind hole depthkeeping degree numerical control machine for processing, locking pliers is provided with upper jaw, lower jaw and side support top, the side support top is located at the locking pliers middle part, upper jaw and lower jaw are located at respectively side support top above and below, distance is at 110mm～270mm between upper jaw and the lower jaw, and upper jaw, lower jaw and side support top all adopt hydraulic-driven.Since be provided with the side support top at locking pliers, relative with machine direction, so reduced the error that the workpiece cutter relieving causes in the processing, guarantee machining accuracy.

In the aforesaid this double-pole blind hole depthkeeping degree numerical control machine for processing, lathe bed is provided with return flume, is provided with automatic chip remover in the return flume, the other driving-belt that is provided with of return flume.Owing to be provided with automatic chip remover, iron filings directly can be discharged, alleviate workman's labour intensity.

In the aforesaid this double-pole blind hole depthkeeping degree numerical control machine for processing, lathe bed is provided with the cutting fluid replacement port, and double-pole depthkeeping processing unit (plant) is provided with protective cover, and protective cover is provided with observation window.Because protective cover is provided with observation window, so can so that work in-process is observed processing cutting situation, fail when preventing breaks down in time to stop tool bar section is caused damage.

In the aforesaid this double-pole blind hole depthkeeping degree numerical control machine for processing, tailstock is provided with tailstock centre and top Pneumatic extension switch, and tailstock centre is located on the tail-holder end face, and top Pneumatic extension switch is located at tailstock one side, and tailstock centre adopts pneumatic control.

In the aforesaid this double-pole blind hole depthkeeping degree numerical control machine for processing, the table top that is installed is provided with pneumatic scroll chuck and pneumatic chuck handle, pneumatic scroll chuck is located on the table top end face that is installed, and the air spider spanner is located at table top one side that is installed, and pneumatic scroll chuck adopts pneumatic control.

Compared with prior art, the utility model since tailstock be located on the track, so can regulate then by bolt-locking on the track table top the tailstock position according to pipe length to be processed; Because protective cover is provided with observation window, so can so that work in-process is observed processing cutting situation, fail when preventing breaks down in time to stop tool bar section is caused damage; Owing to below depth localization device and process tool, be provided with chip-removal hole, conveniently in process, with cutting fluid cutting iron cut discharge; Owing on the processing table top, also be provided with emergency stop switch, start-stop button and Manual pulse generator, so before processing, be convenient to carry out the contraposition of first hole, when processing is observed, be convenient to simultaneously the processing start and stop are controlled; Because be provided with the adjusting guide rail between processing axle box and processing table top, the processing axle box is provided with adjusting knob, so can regulate position between two processing axle boxes, has both regulated distance between cutter, is convenient to the processing of various pitch-row gun barrels; Since be provided with sensor at the positioner shell, probe feeler when reaching the degree of depth, and sensor can to the digital control system signal transmission, be skipped the punching program and carry out next programmed instruction; Since be provided with the side support top at locking pliers, relative with machine direction, so reduced the error that the workpiece cutter relieving causes in the processing, guarantee machining accuracy; Owing to be provided with automatic chip remover, iron filings directly can be discharged, alleviate workman's labour intensity.

The utility model is owing to be provided with depthkeeping degree processing unit (plant), in the situation of bending pipes, digital control working depth is carried out in tool setting when utilizing tool setting in traditional digital control system zero point, and crooked position tool setting surface at zero point can produce deviation, causes digital control rear working depth to change with zero deviation; And utilize depth localization device and process tool interlock, closely with the processing investigation depth, cutter and depth localization device are in same position, can guarantee that like this working depth is constant, improve machining accuracy, avoided the linearity of excessive demand tubing, thus the difficulty when reducing processing tubing and transportation tubing.In the depthkeeping processing unit (plant), be provided with 2 depth localization devices and 2 process tools and 2 groups of locking pliers, add and carry out dual processing man-hour, and utilize the depth localization device to guarantee the constant of the homonymy process tool degree of depth, when guaranteeing machining accuracy, improved nearly one times working (machining) efficiency, producer's output value is doubled, and satisfies the output value demand that day by day increases.

Description of drawings

Fig. 1 is overall structure schematic diagram of the present utility model;

Fig. 2 is double-pole depthkeeping processing unit (plant) structural representation of the present utility model;

Fig. 3 is the partial sectional view of depth localization device;

Fig. 4 is the structural representation of locking pliers;

Fig. 5 is the top view of the utility model lathe bed;

Fig. 6 is the structural representation of the utility model tailstock;

Fig. 7 is the be installed structural representation of table top of the utility model.

Being labeled as in the accompanying drawing: 1-lathe bed, 2-machine tool electric gas holder, 3-numerical control control panel, the 4-table top that is installed, the 5-tailstock, 6-track, 7-track table top, 8-return flume, 9-double-pole depthkeeping processing unit (plant), the 10-protective cover, 11-processes table top, 12-depth localization device, 13-process tool, 14-emergency stop switch, the 15-start-stop button, 16-Manual pulse generator, 17-cutting fluid pipe, the 18-locking pliers, 19-processes axle box, 20-adjusting knob, 21-regulates guide rail, 22-positioner shell, 23-probe, the 24-sensor, 25-upper jaw, 26-lower jaw, 27-side support top, 28-automatic chip remover, 29-cutting fluid replacement port, the 30-tailstock centre, the top Pneumatic extension switch of 31-, the pneumatic scroll chuck of 32-, 33-air spider spanner, 34-hydraulic jack, 35-chip-removal hole, the 36-dwang, 37-back-moving spring, 38-observation window.

The specific embodiment

Below in conjunction with drawings and Examples the utility model is further described, but not as the foundation to the utility model restriction.

Embodiment 1 of the present utility model: as shown in Figure 1, a kind of double-pole blind hole depthkeeping degree numerical control machine for processing, comprise lathe bed 1, machine tool electric gas holder 2, numerical control control panel 3, table top 4 is installed, tailstock 5 and double-pole depthkeeping processing unit (plant) 9, machine tool electric gas holder 2 is located at a side of lathe bed 1, machine tool electric gas holder 2 is connected by dwang 36 with numerical control control panel 3, the upper end of lathe bed 1 is provided with the table top 4 that is installed, lathe bed 1 is provided with track table top 7, track table top 7 is provided with track 6, tailstock 5 and double-pole depthkeeping processing unit (plant) 9 are located on the track 6, tailstock 5 is adjusted to the position of 2.3 meters of table top 4 distances of being installed, tailstock 5 by bolt-locking on track table top 7.

Lathe bed 1 is provided with cutting fluid replacement port 29, and double-pole depthkeeping processing unit (plant) 9 is provided with protective cover 10, and protective cover 10 is provided with observation window 38.

As shown in Figure 2, double-pole depthkeeping processing unit (plant) 9 comprises processing table top 11, processing axle box 19,2 depth localization devices 12,2 process tools 13 and 2 groups of locking pliers 18, locking pliers 18 and processing axle box 19 all are located at processing table top 11 upper ends, depth localization device 12 and process tool 13 are located on processing axle box 19 end faces, depth localization device 12 and process tool 13 belows are provided with chip-removal hole 35, processing table top 11 rears are provided with hydraulic jack 34, depth localization device 12 and process tool 13 interlock under hydraulic jack 34 drives.

Also be provided with emergency stop switch 14, start-stop button 15 and Manual pulse generator 16 on the processing table top 11, emergency stop switch 14, start-stop button 15 and Manual pulse generator 16 are located at processing table top 11 the same sides, Manual pulse generator 16 links to each other with processing axle box 19 by transmission line, and processing table top 11 opposite side lower ends are provided with hydraulic jack 34.

Be provided with between processing axle box 19 and the processing table top 11 and regulate guide rail 21, processing axle box 19 is provided with adjusting knob 20, and processing axle box 19 is provided with cutting fluid pipe 17.

As shown in Figure 3, depth localization device 12 comprises positioner shell 22, probe 23 and sensor 24, probe 23 is located at positioner shell 22 inside, probe 23 rear ends are provided with back-moving spring 37, sensor 24 is located on the positioner shell 22, and sensor 24 is by transfer of data alignment digital control system the transmission of data.

As shown in Figure 4, locking pliers 18 is provided with upper jaw 25, lower jaw 26 and side support top 27, side support top 27 is located at locking pliers 18 middle parts, upper jaw 25 and lower jaw 26 are located at respectively side support top 27 above and belows, distance is at 110mm between upper jaw 25 and the lower jaw 26, and upper jaw 25, lower jaw 26 and side support top 27 all adopt hydraulic-driven.

As shown in Figure 5, lathe bed 1 is provided with return flume 8, is provided with automatic chip remover 28 in the return flume 8, the return flume 8 other driving-belts 36 that are provided with.

As shown in Figure 6, tailstock 5 is provided with tailstock centre 30 and top Pneumatic extension switch 31, and tailstock centre 30 is located on tailstock 5 end faces, and top Pneumatic extension switch 31 is located at tailstock 5 one sides, and tailstock centre 30 adopts pneumatic control.

As shown in Figure 7, the table top that is installed 4 is provided with pneumatic scroll chuck 32 and pneumatic chuck handle 33, and pneumatic scroll chuck 32 is located on table top 4 end faces that are installed, and air spider spanner 33 is located at table top 4 one sides that are installed, and pneumatic scroll chuck 32 adopts pneumatic control.

Embodiment 2 of the present utility model: as shown in Figure 1, a kind of double-pole blind hole depthkeeping degree numerical control machine for processing, comprise lathe bed 1, machine tool electric gas holder 2, numerical control control panel 3, table top 4 is installed, tailstock 5 and double-pole depthkeeping processing unit (plant) 9, machine tool electric gas holder 2 is located at a side of lathe bed 1, machine tool electric gas holder 2 is connected by dwang 36 with numerical control control panel 3, the upper end of lathe bed 1 is provided with the table top 4 that is installed, lathe bed 1 is provided with track table top 7, track table top 7 is provided with track 6, tailstock 5 and double-pole depthkeeping processing unit (plant) 9 are located on the track 6, tailstock 5 is adjusted to the position of 3.4 meters of table top 4 distances of being installed, tailstock 5 by bolt-locking on track table top 7.

Lathe bed 1 is provided with cutting fluid replacement port 29, and double-pole depthkeeping processing unit (plant) 9 is provided with protective cover 10, and protective cover 10 is provided with observation window 38.

As shown in Figure 2, double-pole depthkeeping processing unit (plant) 9 comprises processing table top 11, processing axle box 19,2 depth localization devices 12,2 process tools 13 and 2 groups of locking pliers 18, locking pliers 18 and processing axle box 19 all are located at processing table top 11 upper ends, depth localization device 12 and process tool 13 are located on processing axle box 19 end faces, depth localization device 12 and process tool 13 belows are provided with chip-removal hole 35, processing table top 11 rears are provided with hydraulic jack 34, depth localization device 12 and process tool 13 interlock under hydraulic jack 34 drives.

Also be provided with emergency stop switch 14, start-stop button 15 and Manual pulse generator 16 on the processing table top 11, emergency stop switch 14, start-stop button 15 and Manual pulse generator 16 are located at processing table top 11 the same sides, Manual pulse generator 16 links to each other with processing axle box 19 by transmission line, and processing table top 11 opposite side lower ends are provided with hydraulic jack 34.

Be provided with between processing axle box 19 and the processing table top 11 and regulate guide rail 21, processing axle box 19 is provided with adjusting knob 20, and processing axle box 19 is provided with cutting fluid pipe 17.

As shown in Figure 3, depth localization device 12 comprises positioner shell 22, probe 23 and sensor 24, probe 23 is located at positioner shell 22 inside, probe 23 rear ends are provided with back-moving spring 37, sensor 24 is located on the positioner shell 22, and sensor 24 is by transfer of data alignment digital control system the transmission of data.

As shown in Figure 4, locking pliers 18 is provided with upper jaw 25, lower jaw 26 and side support top 27, side support top 27 is located at locking pliers 18 middle parts, upper jaw 25 and lower jaw 26 are located at respectively side support top 27 above and belows, distance is at 206mm between upper jaw 25 and the lower jaw 26, and upper jaw 25, lower jaw 26 and side support top 27 all adopt hydraulic-driven.

As shown in Figure 5, lathe bed 1 is provided with return flume 8, is provided with automatic chip remover 28 in the return flume 8, the return flume 8 other driving-belts 36 that are provided with.

As shown in Figure 6, tailstock 5 is provided with tailstock centre 30 and top Pneumatic extension switch 31, and tailstock centre 30 is located on tailstock 5 end faces, and top Pneumatic extension switch 31 is located at tailstock 5 one sides, and tailstock centre 30 adopts pneumatic control.

As shown in Figure 7, the table top that is installed 4 is provided with pneumatic scroll chuck 32 and pneumatic chuck handle 33, and pneumatic scroll chuck 32 is located on table top 4 end faces that are installed, and air spider spanner 33 is located at table top 4 one sides that are installed, and pneumatic scroll chuck 32 adopts pneumatic control.

Embodiment 3 of the present utility model: as shown in Figure 1, a kind of double-pole blind hole depthkeeping degree numerical control machine for processing, comprise lathe bed 1, machine tool electric gas holder 2, numerical control control panel 3, table top 4 is installed, tailstock 5 and double-pole depthkeeping processing unit (plant) 9, machine tool electric gas holder 2 is located at a side of lathe bed 1, machine tool electric gas holder 2 is connected by dwang 36 with numerical control control panel 3, the upper end of lathe bed 1 is provided with the table top 4 that is installed, lathe bed 1 is provided with track table top 7, track table top 7 is provided with track 6, tailstock 5 and double-pole depthkeeping processing unit (plant) 9 are located on the track 6, tailstock 5 is adjusted to the position of 4.6 meters of table top 4 distances of being installed, tailstock 5 by bolt-locking on track table top 7.

Lathe bed 1 is provided with cutting fluid replacement port 29, and double-pole depthkeeping processing unit (plant) 9 is provided with protective cover 10, and protective cover 10 is provided with observation window 38.

As shown in Figure 2, double-pole depthkeeping processing unit (plant) 9 comprises processing table top 11, processing axle box 19,2 depth localization devices 12,2 process tools 13 and 2 groups of locking pliers 18, locking pliers 18 and processing axle box 19 all are located at processing table top 11 upper ends, depth localization device 12 and process tool 13 are located on processing axle box 19 end faces, depth localization device 12 and process tool 13 belows are provided with chip-removal hole 35, processing table top 11 rears are provided with hydraulic jack 34, depth localization device 12 and process tool 13 interlock under hydraulic jack 34 drives.

Also be provided with emergency stop switch 14, start-stop button 15 and Manual pulse generator 16 on the processing table top 11, emergency stop switch 14, start-stop button 15 and Manual pulse generator 16 are located at processing table top 11 the same sides, Manual pulse generator 16 links to each other with processing axle box 19 by transmission line, and processing table top 11 opposite side lower ends are provided with hydraulic jack 34.

Be provided with between processing axle box 19 and the processing table top 11 and regulate guide rail 21, processing axle box 19 is provided with adjusting knob 20, and processing axle box 19 is provided with cutting fluid pipe 17.

As shown in Figure 3, depth localization device 12 comprises positioner shell 22, probe 23 and sensor 24, probe 23 is located at positioner shell 22 inside, probe 23 rear ends are provided with back-moving spring 37, sensor 24 is located on the positioner shell 22, and sensor 24 is by transfer of data alignment digital control system the transmission of data.

As shown in Figure 4, locking pliers 18 is provided with upper jaw 25, lower jaw 26 and side support top 27, side support top 27 is located at locking pliers 18 middle parts, upper jaw 25 and lower jaw 26 are located at respectively side support top 27 above and belows, distance is at 270mm between upper jaw 25 and the lower jaw 26, and upper jaw 25, lower jaw 26 and side support top 27 all adopt hydraulic-driven.

As shown in Figure 5, lathe bed 1 is provided with return flume 8, is provided with automatic chip remover 28 in the return flume 8, the return flume 8 other driving-belts 36 that are provided with.

As shown in Figure 6, tailstock 5 is provided with tailstock centre 30 and top Pneumatic extension switch 31, and tailstock centre 30 is located on tailstock 5 end faces, and top Pneumatic extension switch 31 is located at tailstock 5 one sides, and tailstock centre 30 adopts pneumatic control.

As shown in Figure 7, the table top that is installed 4 is provided with pneumatic scroll chuck 32 and pneumatic chuck handle 33, and pneumatic scroll chuck 32 is located on table top 4 end faces that are installed, and air spider spanner 33 is located at table top 4 one sides that are installed, and pneumatic scroll chuck 32 adopts pneumatic control.

Operation principle of the present utility model: according to the gun barrel diameter dimension size between the upper jaw 25 of locking pliers 18 and the lower jaw 26 is mixed up before the processing; According to barrel length size mobile tailstock 5 on track 6, adjust tailstock 5 and the distance between the table top 4 of being installed, adjust with bolt tailstock 5 is lock onto on the track table top 7 afterwards; Make it mobile at adjusting guide rail 21 according to the gun barrel hole apart from rotating adjusting knob 20, make between 2 depth localization devices 12 apart from being the integral multiple of pitch-row.

Before the processing, carry out tool setting with the Manual pulse generator 16 on processing table top 11 sides, from surperficial zero point with processing, then write procedure according to the machine coordinates on the first hole of determining and processing surface at zero point at numerical control control panel 3 to determine first pitch-row.

Add and to hang in the lathe appropriate location with the gun barrel of frock man-hour, move air spider spanner 33,, and press top Pneumatic extension switch 31 tailstock centre 30 is leant out its chucking with pneumatic scroll chuck 32, gun barrel is stuck on the bed piece 1.The machine adopted routine techniques is connected to provide air pressure in the pneumatic control with tracheae with air pump.

Protective cover 10 is buckled on the double-pole depthkeeping processing unit (plant) 9, and the loop start button that starts on the numerical control control panel 3 begins processing.This is routine techniques, and the numerical control control panel of any system of loop start button all exists.

Spray cutting fluids with program operation cutting fluid pipe 17 to process tool 13, double-pole depthkeeping processing unit (plant) 9 runs to the blind hole Working position, hydraulic jack 34 control upper jaws 25 and lower jaw 26 tighten first, then side support top 27 leans out and props up gun barrel, add with gun barrel that to hold the cutter direction man-hour relative, add the mismachining tolerance that man-hour, cutter relieving brought with minimizing.Two process tool and the action of depth localization device 12 order, interval 2 seconds prevents that cutter from contacting simultaneously finished surface and producing resonance damage blade.The depth localization device 12 of homonymy is with process tool 13 interlocks, probe 23 when process tool 13 contact workpiece in the depth localization device 12 also contacts surface of the work, be pressed in the positioner shell 22 with process tool 13 cutting probes 23, when being pressed into certain depth, probe 23 just contacts with sensor 24, sensor 24 is to the digital control system transmission of signal, digital control system was transferred cutting process, automatically skip into the cutter program, process tool 13 withdrawing depth localization devices 12 are return safety surface in the programming with process tool 13, back-moving spring 37 resets probe 23, and opposite side moves equally.

When opposite side process tool and depth localization device were finished this action equally, hydraulic jack 34 control side support tops 27 were recalled, and upper jaw 25 and lower jaw 26 unclamp.Workpiece is with pneumatic scroll chuck 32 rotations, and double-pole depthkeeping processing unit (plant) 9 moves to next hole position simultaneously, proceeds processing.

Observe working angles by the observation window 38 on the protective cover 10 in the processing, when blade abrasion seriously causes breaks down in the processing, press the start-stop button 15 of processing table top 11 sides, controlled working cutter 13 stalls on numerical control control panel 3, process tool 13 cutters are changed, then press start-stop button 15, process tool 13 rotations continue uncompleted procedure.Described blade is the required shaping blades of processing blind hole.Until EP (end of program), double-pole depthkeeping processing unit (plant) 9 integral resets.

Unload the protective cover 10 on the double-pole depthkeeping processing unit (plant) 9, workpiece under the control row unloading.

Find that cutting fluid pipe 17 sprays cutting fluid concentrations and crosses when hanging down, add cutting fluids by cutting fluid replacement port 29 and carry out concentration adjustment.Carrying out 1 cutting fluid every year changes.

Claims (10)

1. double-pole blind hole depthkeeping degree numerical control machine for processing, it is characterized in that: comprise lathe bed (1), machine tool electric gas holder (2), numerical control control panel (3), the table top that is installed (4), tailstock (5) and double-pole depthkeeping processing unit (plant) (9), machine tool electric gas holder (2) is located at a side of lathe bed (1), machine tool electric gas holder (2) is connected by dwang (36) with numerical control control panel (3), the upper end of lathe bed (1) is provided with the table top that is installed (4), lathe bed (1) is provided with track table top (7), track table top (7) is provided with track (6), tailstock (5) and double-pole depthkeeping processing unit (plant) (9) are located on the track (6), tailstock (5) by bolt-locking on track table top (7).

2. a kind of double-pole blind hole depthkeeping degree numerical control machine for processing according to claim 1, it is characterized in that: double-pole depthkeeping processing unit (plant) (9) comprises processing table top (11), processing axle box (19), 2 depth localization devices (12), 2 process tools (13) and 2 groups of locking pliers (18), locking pliers (18) and processing axle box (19) all are located at processing table top (11) upper end, depth localization device (12) and process tool (13) are located on processing axle box (19) end face, depth localization device (12) and process tool (13) below are provided with chip-removal hole (35), processing table top (11) rear is provided with hydraulic jack (34), depth localization device (12) and process tool (13) interlock under hydraulic jack (34) drives.

3. a kind of double-pole blind hole depthkeeping degree numerical control machine for processing according to claim 2, it is characterized in that: also be provided with emergency stop switch (14), start-stop button (15) and Manual pulse generator (16) on the processing table top (11), emergency stop switch (14), start-stop button (15) and Manual pulse generator (16) are located at processing table top (11) the same side, Manual pulse generator (16) links to each other with processing axle box (19) by transmission line, and processing table top (11) opposite side lower end is provided with hydraulic jack (34).

4. according to claim 2 or 3 described a kind of double-pole blind hole depthkeeping degree numerical control machine for processing, it is characterized in that: be provided with between processing axle box (19) and the processing table top (11) and regulate guide rail (21), processing axle box (19) is provided with adjusting knob (20), and processing axle box (19) is provided with cutting fluid pipe (17).

5. a kind of double-pole blind hole depthkeeping degree numerical control machine for processing according to claim 4, it is characterized in that: depth localization device (12) comprises positioner shell (22), probe (23) and sensor (24), probe (23) is located at positioner shell (22) inside, probe (23) rear end is provided with back-moving spring (37), sensor (24) is located on the positioner shell (22), and sensor (24) is by transfer of data alignment digital control system the transmission of data.

6. a kind of double-pole blind hole depthkeeping degree numerical control machine for processing according to claim 3, it is characterized in that: locking pliers (18) is provided with upper jaw (25), lower jaw (26) and side support top (27), side support top (27) is located at locking pliers (18) middle part, upper jaw (25) and lower jaw (26) are located at respectively side support top (27) above and below, distance is at 110mm～270mm between upper jaw (25) and the lower jaw (26), and upper jaw (25), lower jaw (26) and side support top (27) all adopt hydraulic-driven.

7. a kind of double-pole blind hole depthkeeping degree numerical control machine for processing according to claim 1, it is characterized in that: lathe bed (1) is provided with return flume (8), is provided with automatic chip remover (28) in the return flume (8), the other driving-belt (36) that is provided with of return flume (8).

8. a kind of double-pole blind hole depthkeeping degree numerical control machine for processing according to claim 1, it is characterized in that: lathe bed (1) is provided with cutting fluid replacement port (29), double-pole depthkeeping processing unit (plant) (9) is provided with protective cover (10), and protective cover (10) is provided with observation window (38).

9. according to claim 1 or 8 described a kind of double-pole blind hole depthkeeping degree numerical control machine for processing, it is characterized in that: tailstock (5) is provided with tailstock centre (30) and top Pneumatic extension switch (31), tailstock centre (30) is located on tailstock (5) end face, top Pneumatic extension switch (31) is located at tailstock (5) one sides, and tailstock centre (30) adopts pneumatic control.

10. a kind of double-pole blind hole depthkeeping degree numerical control machine for processing according to claim 9, it is characterized in that: the table top that is installed (4) is provided with pneumatic scroll chuck (32) and pneumatic chuck handle (33), pneumatic scroll chuck (32) is located on the table top that is installed (4) end face, air spider spanner (33) is located at table top (4) one sides that are installed, and pneumatic scroll chuck (32) adopts pneumatic control.

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