CN203621504U - Automatic machining device - Google Patents

Abstract

The utility model discloses an automatic machining device which comprises a lathe body, a conveying device, a main support, an auxiliary support, an electronic control cabinet and a finished product box. The automatic machining device is characterized in that an automatic clamping chuck, a tool apron, a left pushing air cylinder and a lathe spindle are arranged on the lathe body, the lathe spindle is in linkage with the automatic clamping chuck and is connected with a piston rod of the left pushing air cylinder in a sleeved mode, a lifting air cylinder, a connecting block, a rotary air cylinder I and a storage sleeve are arranged on the main support from top to bottom in sequence, a right pushing air cylinder is arranged on the right side of the connecting block, a discharge air cylinder is arranged on the auxiliary support, a discharge jaw matched with the finished product box is arranged on a piston rod of the discharge air cylinder, the conveying device is connected with the storage sleeve, and connecting wires of all electrical devices are connected with the electronic control cabinet. Through the innovation of combining the lathe body, the conveying device and the air cylinders, the full automatic machining device is high in machining precision and high in production efficiency, and technological requirements that two ends of shaft parts are identical or different are met.

Description

A kind of automatic machining device

Technical field

The utility model relates to the technical field of machine-building, relates in particular a kind of automatic machining device for axial workpiece two turning processing.

Background technology

Axial workpiece is one of typical part often running in the accessory of mechanical five metals.The turning processing at axial workpiece two machines by lathe.And machine tooling axial workpiece, particularly nonstandard axial workpiece generally all need skilled turner to operate.Just there is the problem that automaticity is low, production efficiency is low and processing cost is high in this.Simultaneously the machining accuracy of axial workpiece is all by skilled turner control, needs repeatedly accuracy detection, and this just exists the low and low problem of machining accuracy of the uniformity of machining accuracy.And general processing unit (plant) in currently available technology does not effectively address the above problem.For example Chinese patent application publication No. CN 102728888 A, October 17 2012 day for announcing, the name of innovation and creation is called processing unit (plant) after a kind of lock core, this Patent Case discloses a kind of automatic machining device, by main body rack, walk and determine the combined innovation of materials device, material sorting device and tool rest, realized the full-automatic processing of lock core, machining accuracy is high, but this Patent Case lacks the device of workpiece rotation tune, can not realize the automation processing at axial workpiece two.And for example Chinese patent Granted publication CN 101698239 A, December 12 2012 Granted publication day, the name of innovation and creation is called automatic machining device for piston, this Patent Case discloses a kind of automatic machining device, by the combined innovation of clamping device, pay-off and lathe tool device, realized the feature that this automatic machining device has self-feeding and automatic discharging, but this Patent Case lacks the device of workpiece rotation tune, can not realize the automation processing at axial workpiece two.And for example Chinese patent Granted publication CN 102218547 B, December 26 2012 Granted publication day, the name of innovation and creation is called automatic processor for valve rod, this Patent Case discloses a kind of automatic machining device, pass through main engine bed, knife rest, transverse and longitudinal planker, main spindle box, chuck, the combined innovation of motor and boot etc., having realized this automatic machining device, to have processing cost low, crudy is consistent, the feature that working (machining) efficiency and precision are high, but the Pneumatic manipulator of this Patent Case just plays the effect of clamping in automatic charging device, lack spinfunction, can only realize one end processing of axial workpiece, the two that can not realize axial workpiece processes automatically.For another example Chinese patent Granted publication CN 203316726 U, December 04 2013 Granted publication day, the name of innovation and creation is called a kind of screw and automatically processes oil pressure lathe, this Patent Case discloses a kind of automatic machining device, by the combined innovation of board, feeding device, take out device, lathe spindle and control system, realize the full-automation of screw processing has been produced, enhance productivity, but one end automation processing that can only realize part of this Patent Case, can not realize two automation processing of part.The utility model is by the combined innovation of lathe main body, conveyer, main support, assistant support, electrical control cubicles and finished product box and syndeton thereof, a kind of automatic charging be provided, automatically clamp, automatically processing, automatic reversing processing, automatic discharging, machining accuracy is high, production efficiency is high and the automatic machining device of the full-automatic processing of axial workpiece doubleender or different technologies requirement.

Summary of the invention

The automatic machining device that the utility model solves general type in prior art does not effectively solve the problem of the full-automatic processing of axial workpiece doubleender or different technologies requirement, a kind of automatic machining device is provided, by lathe main body, conveyer, main support, assistant support, the combined innovation of electrical control cubicles and finished product box and syndeton thereof, realize this automatic machining device and there is automatic charging, automatically clamp, automatically processing, automatic reversing processing, automatic discharging, machining accuracy is high, the feature of the full-automatic processing that the high and axial workpiece doubleender of production efficiency or different technologies require.

In order to solve above-mentioned ubiquitous technical problem, the utility model is taked following technical proposals: a kind of automatic machining device, comprise lathe main body, conveyer, main support, assistant support, electrical control cubicles and finished product box, it is characterized in that, described lathe main body is provided with Automatic-clamping chuck, tool rest, the lathe spindle of left propulsion cylinder and hollow-core construction, described lathe spindle and Automatic-clamping chuck linking, piston rod socket with left propulsion cylinder, described main support is arranged on the rear side of lathe main body, main support is provided with lift cylinder and rotary cylinder I, between lift cylinder and rotary cylinder I, be provided with contiguous block, the lower end of rotary cylinder I is provided with the storing sleeve suitable with workpiece, the right side of contiguous block is provided with the right propulsion cylinder suitable with storing sleeve, described conveyer is connected with storing sleeve, described assistant support is arranged on the front side of lathe main body, assistant support is provided with discharging cylinder, the piston rod of discharging cylinder is provided with the discharging pawl suitable with finished product box, the wiring of the power line of described lathe main body and conveyer and Automatic-clamping chuck and all cylinders is all connected with electrical control cubicles.

Lathe main body is the basis of this automatic machining device; Lathe spindle, by Motor Control, realizes work and the cut-off of lathe, drives Automatic-clamping chuck to rotate, and the hollow-core construction of lathe spindle, saves material, reduces costs; Conveyer, is sent to workpiece in storing sleeve automatically, realizes the automation material loading of work piece delivery, enhances productivity; Automatic-clamping chuck, can be air spider of the prior art or oild chuck, realizes the Automatic-clamping of workpiece in lathe main body and automatically unclamps, and combines with the cutter on tool rest, realizes the auto-feed machining to workpiece end; Left propulsion cylinder, after Automatic-clamping chuck unclamps, the piston rod of left propulsion cylinder stretches into lathe spindle, and workpiece is pushed to storing sleeve or discharging pawl, makes workpiece enter next process; Storing sleeve, for loading axial workpiece; Main support, for installing lift cylinder and rotary cylinder I; Lift cylinder, delivers to the workpiece sending by conveyer the position of Automatic-clamping chuck; Rotary cylinder, Rotate 180 degree, realizes the automatic reversing of workpiece; Contiguous block, realizes the connection of lift cylinder and rotary cylinder I, and for right propulsion cylinder is installed; Right propulsion cylinder, right propulsion cylinder work, the piston rod of right propulsion cylinder stretches into storing sleeve, and workpiece is pushed to Automatic-clamping chuck, realizes automatically clamping of workpiece; Right propulsion cylinder combines with left propulsion cylinder, after machining, guarantees the uniformity of the length of all workpiece, compared with manual operation, improves the machining accuracy of workpiece; Assistant support, for installing discharging cylinder; Discharging cylinder, discharging pawl, Automatic-clamping chuck and left propulsion cylinder combine, and realize the automatic discharging of workpiece; Finished product box, for placing the finished work-piece after machining; Electrical control cubicles, realizes the unified of all electrical equipments and controls, and improves the automaticity of this automatic machining device.This automatic machining device realized workpiece automatic charging, automatically clamp, processing, automatic reversing processing and automatic discharging automatically, realized the full-automatic processing at axial workpiece two, the machining accuracy of product is high, production efficiency is high.

As preferably, described tool rest is provided with cutter I and cutter II, and the bottom of described tool rest is provided with rotary cylinder II.Cutter I, realizes the machining of workpiece one end; Cutter II, realizes the machining of the workpiece other end; Rotary cylinder II, 90-degree rotation and reset, realize cutter I and cutter II changes automatically; The tool rest of this structure and cutter, realize the automatic cutting processing of workpiece two ends different technologies requirement, and automaticity is high.

As preferably, described conveyer is made up of vibrating disk, delivery catheter, storing swash plate and feeding cylinder, the power line of described vibrating disk is connected with electrical control cubicles, the discharging opening of vibrating disk is connected with delivery catheter, the outlet of described delivery catheter is arranged on the upper end of storing swash plate, and described feeding cylinder and lathe main body fix, and are arranged on the left side of storing swash plate lower end, described storing swash plate and main support fix, and right side and the storing sleeve of storing swash plate lower end are suitable.Due to the vibration of vibrating disk, delivery catheter, compared with general transmission track, can effectively prevent that workpiece from jumping out track, improves the stability transmitting; Storing swash plate, in conjunction with feeding cylinder, sends workpiece into storing sleeve, directly docks and compares with storing sleeve with delivery catheter, reduces the vibration of workpiece, guarantees the reliable and stable of work piece delivery process.

As preferably, described automatic machining device also comprises cooling body, described cooling body is made up of water pump, water pipe and cooling fluid reserve tank, the power line of described water pump is connected with electrical control cubicles, water pump is arranged in cooling fluid reserve tank, one end of described water pipe is connected with water pump, the other end of water pipe be arranged on Automatic-clamping chuck directly over.This cooling body simple in structure, in use, prevents that cutter high temperature from scrapping, and extends the service life of cutter.

As preferably, described automatic machining device also comprises waste water tank, described waste water tank be arranged on Automatic-clamping chuck under.Waste water tank, for depositing the waste material of machining and the cooling fluid that cooling body brings, and can, by cooling fluid filtered and recycled recycling, save cooling fluid, reduces costs.

As preferably, under described discharging cylinder, be provided with discharging slide plate, the lower end of described discharging slide plate is connected with finished product box.Discharging slide plate, prevents that workpiece from dropping, and guarantees that all workpiece that machine slip into finished product box.

Owing to taking above-mentioned technical scheme, a kind of automatic machining device that the utility model provides, its beneficial effect is very obvious: simple in structure, cost is low, work piece delivery is reliable and stable, by the combined innovation of lathe main body, conveyer, main support, assistant support, electrical control cubicles and finished product box and syndeton thereof, a kind of automatic charging be provided, automatically clamp, automatically processing, automatic reversing processing, automatic discharging, machining accuracy is high, production efficiency is high and the automatic machining device of the full-automatic processing of axial workpiece doubleender or different technologies requirement.

accompanying drawing explanation:

Accompanying drawing 1 is a kind of structural representation of the present utility model;

Accompanying drawing 2 is that the B of the utility model accompanying drawing 1 is to enlarged drawing;

Accompanying drawing 3 is that the A-A of the utility model accompanying drawing 1 is to cutaway view;

Accompanying drawing 4 is that the C of the utility model accompanying drawing 3 is to enlarged drawing;

Accompanying drawing 5 is a kind of top view of the utility model accompanying drawing 1.

In figure: lathe main body, 1 main support, 2 assistant supports, 3 electrical control cubicles, 4 finished product boxes, 5 Automatic-clamping chucks, 6 tool rests, 7 left propulsion cylinders, 8 lathe spindles, 9 lift cylinders, 10 rotary cylinder I, 11 contiguous blocks, 12 workpiece, 13 storing sleeves, 14 right propulsion cylinders, 15 discharging cylinders, 16 discharging pawls, 17 cutter I, 18 cutter II, 19 rotary cylinder II, 20 vibrating disks, 21 delivery catheters, 22 storing swash plates, 23 feeding cylinders, 24 water pumps, 25 water pipes, 26 cooling fluid reserve tanks, 27 waste water tanks, 28 discharging slide plates, 29

the specific embodiment:

Consult accompanying drawing, the utility model be described in further detail:

Embodiment mono-: by reference to the accompanying drawings 1, 2, 3, 4, 5, a kind of automatic machining device, comprise lathe main body 1, conveyer, main support 2, assistant support 3, electrical control cubicles 4 and finished product box 5, lathe main body 1 is provided with Automatic-clamping chuck 6, tool rest 7, the lathe spindle 9 of left propulsion cylinder 8 and hollow-core construction, lathe spindle 9 links with Automatic-clamping chuck 6, piston rod socket with left propulsion cylinder 8, main support 2 is arranged on the rear side of lathe main body 1, main support 2 is provided with lift cylinder 10 and rotary cylinder I11, between lift cylinder 10 and rotary cylinder I11, be provided with contiguous block 12, the lower end of rotary cylinder I11 is provided with the storing sleeve 14 suitable with workpiece 13, the right side of contiguous block 12 is provided with the right propulsion cylinder 15 suitable with storing sleeve 14, conveyer is connected with storing sleeve 14, assistant support 3 is arranged on the front side of lathe main body 1, assistant support 3 is provided with discharging cylinder 16, the piston rod of discharging cylinder 16 is provided with the discharging pawl 17 suitable with finished product box 5, the wiring of the power line of lathe main body 1 and conveyer and Automatic-clamping chuck 6 and all cylinders is all connected with electrical control cubicles 4.

Adding man-hour, the first step, start electrical control cubicles, by conveyer by work piece delivery to storing sleeve; Second step, lift cylinder work, driven rotary cylinder I moves down together with storing sleeve, makes the middle extreme lower position of storing sleeve identical with the extreme lower position of Automatic-clamping chuck; The 3rd step, right propulsion cylinder work, sends into workpiece on the Automatic-clamping chuck of lathe main body, Automatic-clamping gripper chuck clamping of workpieces; The 4th step, lift cylinder resets, and tool rest feeding, completes the processing of workpiece one end; The 5th step, lathe spindle quits work, and lift cylinder is task again, storing sleeve is delivered to again to the extreme lower position of Automatic-clamping chuck; The 6th step, workpiece is pushed storing sleeve by left propulsion cylinder, rotary cylinder I Rotate 180 degree, right propulsion cylinder task again, sends into workpiece the Automatic-clamping chuck of lathe main body, Automatic-clamping chuck clamping work pieces again again; The 7th step, lift cylinder resets again, and waits for the transmission of next workpiece, and tool rest is feeding again, completes the processing of the workpiece other end; The 8th step, lathe spindle quits work, and discharging cylinder is started working, and discharging pawl is delivered to the correspondence position of Automatic-clamping chuck, and left propulsion cylinder pushes workpiece in discharging pawl, and the piston rod of discharging cylinder drives discharging pawl to retract, and workpiece is put into finished product box.

Embodiment bis-: by reference to the accompanying drawings 1, 2, 3, 4, 5, a kind of automatic machining device, comprise lathe main body 1, conveyer, main support 2, assistant support 3, electrical control cubicles 4 and finished product box 5, lathe main body 1 is provided with Automatic-clamping chuck 6, tool rest 7, the lathe spindle 9 of left propulsion cylinder 8 and hollow-core construction, lathe spindle 9 links with Automatic-clamping chuck 6, piston rod socket with left propulsion cylinder 8, tool rest 7 is provided with cutter I18 and cutter II19, the bottom of tool rest 7 is provided with rotary cylinder II20, main support 2 is arranged on the rear side of lathe main body 1, main support 2 is provided with lift cylinder 10 and rotary cylinder I11, between lift cylinder 10 and rotary cylinder I11, be provided with contiguous block 12, the lower end of rotary cylinder I11 is provided with the storing sleeve 14 suitable with workpiece 13, the right side of contiguous block 12 is provided with the right propulsion cylinder 15 suitable with storing sleeve 14, conveyer is by vibrating disk 21, delivery catheter 22, storing swash plate 23 and feeding cylinder 24 form, the power line of vibrating disk 21 is connected with electrical control cubicles 4, the discharging opening of vibrating disk 21 is connected with delivery catheter 22, the outlet of delivery catheter 22 is arranged on the upper end of storing swash plate 23, feeding cylinder 24 fixes with lathe main body 1, be arranged on the left side of storing swash plate 23 lower ends, storing swash plate 23 fixes with main support 2, right side and the storing sleeve 14 of storing swash plate 23 lower ends are suitable, assistant support 3 is arranged on the front side of lathe main body 1, assistant support 3 is provided with discharging cylinder 16, the piston rod of discharging cylinder 16 is provided with the discharging pawl 17 suitable with finished product box 5, all electrical equipments are controlled by electrical control cubicles 4.

Adding man-hour, the first step, starts electrical control cubicles, and workpiece, by vibrating disk transmission, passes through discharging opening and the delivery catheter of vibrating disk 21 successively, slips into storing swash plate, and the piston rod of feeding cylinder stretches out, and workpiece is sent in storing sleeve; Second step, lift cylinder work, driven rotary cylinder I moves down together with storing sleeve, makes the middle extreme lower position of storing sleeve identical with the extreme lower position of Automatic-clamping chuck; The 3rd step, right propulsion cylinder work, sends into workpiece on the Automatic-clamping chuck of lathe main body, Automatic-clamping gripper chuck clamping of workpieces; The 4th step, lift cylinder resets, tool rest feeding, tool rest feeding, cutter I completes the processing of workpiece one end; The 5th step, lathe spindle quits work, and lift cylinder is task again, storing sleeve is delivered to again to the extreme lower position of Automatic-clamping chuck; The 6th step, workpiece is pushed storing sleeve by left propulsion cylinder, rotary cylinder I Rotate 180 degree, right propulsion cylinder task again, sends into workpiece the Automatic-clamping chuck of lathe main body, Automatic-clamping chuck clamping work pieces again again; The 7th step, lift cylinder resets again, and waits for the transmission of next workpiece, and tool rest is feeding again, and rotary cylinder II drives tool rest half-twist, and cutter II completes the processing of the workpiece other end; The 8th step, lathe spindle quits work, and discharging cylinder is started working, and discharging pawl is delivered to the correspondence position of Automatic-clamping chuck, and left propulsion cylinder pushes workpiece in discharging pawl, and the piston rod of discharging cylinder drives discharging pawl to retract, and workpiece is put into finished product box.

Embodiment tri-, by reference to the accompanying drawings 1, 2, 3, 4, 5, a kind of automatic machining device, comprise lathe main body 1, conveyer, main support 2, assistant support 3, electrical control cubicles 4, finished product box 5, cooling body and waste water tank 28, lathe main body 1 is provided with Automatic-clamping chuck 6, tool rest 7, the lathe spindle 9 of left propulsion cylinder 8 and hollow-core construction, lathe spindle 9 links with Automatic-clamping chuck 6, piston rod socket with left propulsion cylinder 8, tool rest 7 is provided with cutter I18 and cutter II19, the bottom of tool rest 7 is provided with rotary cylinder II20, main support 2 is arranged on the rear side of lathe main body 1, main support 2 is provided with lift cylinder 10 and rotary cylinder I11, between lift cylinder 10 and rotary cylinder I11, be provided with contiguous block 12, the lower end of rotary cylinder I11 is provided with the storing sleeve 14 suitable with workpiece 13, the right side of contiguous block 12 is provided with the right propulsion cylinder 15 suitable with storing sleeve 14, conveyer is by vibrating disk 21, delivery catheter 22, storing swash plate 23 and feeding cylinder 24 form, the power line of vibrating disk 21 is connected with electrical control cubicles 4, the discharging opening of vibrating disk 21 is connected with delivery catheter 22, the outlet of delivery catheter 22 is arranged on the upper end of storing swash plate 23, feeding cylinder 24 fixes with lathe main body 1, be arranged on the left side of storing swash plate 23 lower ends, storing swash plate 23 fixes with main support 2, right side and the storing sleeve 14 of storing swash plate 23 lower ends are suitable, assistant support 3 is arranged on the front side of lathe main body 1, assistant support 3 is provided with discharging cylinder 16, the piston rod of discharging cylinder 16 is provided with the discharging pawl 17 suitable with finished product box 5, under discharging cylinder 16, be provided with discharging slide plate 29, the lower end of discharging slide plate 29 is connected with finished product box 5, cooling body is by water pump 25, water pipe 26 and cooling fluid reserve tank 27 form, the power line of water pump 25 is connected with electrical control cubicles 4, water pump 25 is arranged in cooling fluid reserve tank 27, one end of water pipe 26 is connected with water pump 25, the other end of water pipe 26 be arranged on Automatic-clamping chuck 6 directly over, waste water tank 28 be arranged on Automatic-clamping chuck 6 under, all electrical equipments are controlled by electrical control cubicles 4.

Adding man-hour, the first step, starts electrical control cubicles, and workpiece, by vibrating disk transmission, passes through discharging opening and the delivery catheter of vibrating disk 21 successively, slips into storing swash plate, and the piston rod of feeding cylinder stretches out, and workpiece is sent in storing sleeve; Second step, lift cylinder work, driven rotary cylinder I moves down together with storing sleeve, makes the middle extreme lower position of storing sleeve identical with the extreme lower position of Automatic-clamping chuck; The 3rd step, right propulsion cylinder work, sends into workpiece on the Automatic-clamping chuck of lathe main body, Automatic-clamping gripper chuck clamping of workpieces; The 4th step, lift cylinder resets, and water pump is started working, meanwhile, and tool rest feeding, cutter I completes the processing of workpiece one end, and cutting swarf and waste water enter in waste water tank; The 5th step, lathe spindle quits work, and lift cylinder is task again, storing sleeve is delivered to again to the extreme lower position of Automatic-clamping chuck; The 6th step, workpiece is pushed storing sleeve by left propulsion cylinder, rotary cylinder I Rotate 180 degree, right propulsion cylinder task again, sends into workpiece the Automatic-clamping chuck of lathe main body, Automatic-clamping chuck clamping work pieces again again; The 7th step, lift cylinder resets again, and waits for the transmission of next workpiece, and tool rest is feeding again, and rotary cylinder II drives tool rest half-twist, and cutter II completes the processing of the workpiece other end; The 8th step, lathe spindle quits work, and discharging cylinder is started working, discharging pawl is delivered to the correspondence position of Automatic-clamping chuck, left propulsion cylinder pushes workpiece in discharging pawl, and the piston rod of discharging cylinder drives discharging pawl to retract, and workpiece enters in finished product box along discharging slide plate.

Above-described three specific embodiments, are described in detail the utility model.Applied specific embodiment herein principle of the present utility model and embodiment are set forth, the explanation of embodiment is just for helping to understand core concept of the present utility model.Should be understood that; for those skilled in the art; do not departing under the prerequisite of the utility model core concept; can also carry out some modifications to the utility model; concrete technical parameter, the specific structural features of cutter etc. of the such as size of storing sleeve, each cylinder are carried out some modifications or combination, within should dropping on the protection domain of the utility model claim.

Claims (6)

1. an automatic machining device, comprise lathe main body (1), conveyer, main support (2), assistant support (3), electrical control cubicles (4) and finished product box (5), it is characterized in that, described lathe main body (1) is provided with Automatic-clamping chuck (6), tool rest (7), the lathe spindle (9) of left propulsion cylinder (8) and hollow-core construction, described lathe spindle (9) and Automatic-clamping chuck (6) interlock, piston rod socket with left propulsion cylinder (8), described main support (2) is arranged on the rear side of lathe main body (1), main support (2) is provided with lift cylinder (10) and rotary cylinder I(11), lift cylinder (10) and rotary cylinder I(11) between be provided with contiguous block (12), rotary cylinder I(11) lower end be provided with the storing sleeve (14) suitable with workpiece (13), the right side of contiguous block (12) is provided with the right propulsion cylinder (15) suitable with storing sleeve (14), described conveyer is connected with storing sleeve (14), described assistant support (3) is arranged on the front side of lathe main body (1), assistant support (3) is provided with discharging cylinder (16), the piston rod of discharging cylinder (16) is provided with the discharging pawl (17) suitable with finished product box (5), the wiring of the power line of described lathe main body (1) and conveyer and Automatic-clamping chuck (6) and all cylinders is all connected with electrical control cubicles (4).

2. a kind of automatic machining device according to claim 1, is characterized in that, described tool rest (7) is provided with cutter I(18) and cutter II(19), the bottom of described tool rest (7) is provided with rotary cylinder II(20).

3. a kind of automatic machining device according to claim 1, it is characterized in that, described conveyer is by vibrating disk (21), delivery catheter (22), storing swash plate (23) and feeding cylinder (24) composition, the power line of described vibrating disk (21) is connected with electrical control cubicles (4), the discharging opening of vibrating disk (21) is connected with delivery catheter (22), the outlet of described delivery catheter (22) is arranged on the upper end of storing swash plate (23), described feeding cylinder (24) fixes with lathe main body (1), be arranged on the left side of storing swash plate (23) lower end, described storing swash plate (23) fixes with main support (2), right side and the storing sleeve (14) of storing swash plate (23) lower end are suitable.

4. a kind of automatic machining device according to claim 1, it is characterized in that, described automatic machining device also comprises cooling body, described cooling body is made up of water pump (25), water pipe (26) and cooling fluid reserve tank (27), the power line of described water pump (25) is connected with electrical control cubicles (4), water pump (25) is arranged in cooling fluid reserve tank (27), one end of described water pipe (26) is connected with water pump (25), the other end of water pipe (26) be arranged on Automatic-clamping chuck (6) directly over.

5. a kind of automatic machining device according to claim 4, is characterized in that, described automatic machining device also comprises waste water tank (28), described waste water tank (28) be arranged on Automatic-clamping chuck (6) under.

6. a kind of automatic machining device according to claim 1, is characterized in that, is provided with discharging slide plate (29) under described discharging cylinder (16), and the lower end of described discharging slide plate (29) is connected with finished product box (5).

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