CN106736594A - Full-automatic end plate process line - Google Patents

Abstract

The invention discloses a kind of full-automatic end plate process line, full-automatic end plate process line, including lathe apparatus, two automatic stamping devices, drilling and tapping machine device and drum apparatus, lathe apparatus, automatic stamping device, automatic drilling and tapping machine device, automatic stamping device are sequentially arranged on drum apparatus, and be transported to external endplate at lathe apparatus, automatic stamping device, automatic drilling and tapping machine device, automatic stamping device successively by drum apparatus.In the present invention, due to there is provided a kind of full-automatic end plate process line, the full-automatic end plate process line set lathe apparatus, two automatic stamping devices, drilling and tapping machine device and drum apparatus, drum apparatus play a part of to transport end plate, end plate can be transported to each device, and end plate is processed, therefore, end plate can disposably be machined by the present invention, end plate need not be repeatedly carried on each processing unit (plant), manpower can be saved, and handling time can be saved, improve processing efficiency.

Description

Full-automatic end plate process line

Technical field

The present invention relates to a kind of full-automatic end plate process line.

Background technology

Cylindrical embryo material is very common in steel industry, generally requires to be added the one or both ends of cylindrical embryo material Work, for example, be processed flank, ornamental engraving or drilling etc. to material.

Typically, it is necessary to most initial circular end plate is processed, it is necessary to carry out multiple steps, for example：Need profit The devices such as lathe, punch press are used, above-mentioned is machined with multiple steps, it is then desired to manually end plate is carried on processing unit (plant) And be processed, and substantial amounts of manpower can be expended in handling process, because end plate is batch machining, handling process can also expend greatly The time of amount.

Therefore, it is necessary to provide a kind of streamline to solve above-mentioned technical problem.

The content of the invention

The invention discloses a kind of full-automatic end plate process line, to solve at least one of above-mentioned technical problem.

According to an aspect of the invention, there is provided a kind of full-automatic end plate process line, full-automatic end plate processing stream Waterline, including lathe apparatus, two automatic stamping devices, drilling and tapping machine device and drum apparatus, lathe apparatus, automatic punching die dress Put, automatic drilling and tapping machine device, automatic stamping device are sequentially arranged on drum apparatus, be transported to for external endplate successively by drum apparatus At lathe apparatus, automatic stamping device, automatic drilling and tapping machine device, automatic stamping device.

In the present invention, due to there is provided a kind of full-automatic end plate process line, the full-automatic end plate process line collection Lathe apparatus, two automatic stamping devices, drilling and tapping machine device and drum apparatus are closed, drum apparatus play the work of transport end plate With, end plate can be transported to each device, and end plate is processed, therefore, it can by the present invention by end plate once Property is machined, it is not necessary to is repeatedly carried to end plate on each processing unit (plant), can be saved manpower, and can save carrying Time, improve processing efficiency.

In some embodiments, lathe apparatus include the first screw mandrel, the second screw mandrel, chuck, the first knife rest, the second knife Frame, cutter head, lathe bed and controller, controller control the first screw mandrel and the rotation of the second screw mandrel, and the first knife rest is located on the first screw mandrel, First knife rest is located on the second screw mandrel along the first screw mandrel transverse shifting, the second knife rest, and the second knife rest is vertical along the second screw mandrel Mobile, the second knife rest is vertically flexibly connected with the first knife rest, and cutter head is located on the second knife rest, and chuck is located on lathe bed, cutter head position In the top of chuck.Thus, the material (end plate) for needing processing can be clamped with chuck, controller sets material as needed Processing dimension, then sends control signal to the first screw mandrel and the second screw mandrel, drives the rotation of the first screw mandrel, and the first screw mandrel drives the One knife rest drives the rotation of the second screw mandrel along the first screw mandrel transverse shifting, and the second screw mandrel drives the second knife rest along the second screw mandrel It is vertically movable, because the second knife rest is vertically flexibly connected with the first knife rest, it can be ensured that the cutter head on the second knife rest was both Can be with transverse shifting, it is also possible to vertically movable, it is ensured that the cutter head on the second knife rest is accurately processed to material, is subtracted The waste of few material.

In some embodiments, the first screw mandrel also includes the first nut, and the first nut is located on the first knife rest, second Bar also includes the second nut, and the second nut is located on the second knife rest.Thus, when the first screw mandrel is rotated, the first nut exists In the presence of along the first screw mandrel transverse shifting, so as to drive the first knife rest along the first screw mandrel transverse shifting, by the first screw mandrel Rotary motion be converted into the horizontal linear motion of the first knife rest.When the second screw mandrel is rotated, the second nut effect Under it is vertically movable along the second screw mandrel, so as to drive the second knife rest vertically movable along the second screw mandrel, by the rotation of the second screw mandrel Motion is converted into the vertical lines motion of the second knife rest.

In some embodiments, lathe bed is provided with column, and column is provided with crossbeam, is provided with rectangle on crossbeam along its length Projection, the first knife rest side is provided with the first groove coordinated with rectangular preiection.Thus, rectangular preiection is plugged together in the first groove In, the first knife rest can be made along crossbeam transverse shifting.

In some embodiments, the first knife rest opposite side is provided with vertical dovetail tangs, the second knife rest side be provided with The dovetail groove that dovetail tangs coordinate, the second knife rest opposite side is provided with the second groove, and cutter head is located in the second groove.Thus, by swallow Tail projection is plugged together in dovetail groove, and the second knife rest can be made vertically movable along the first knife rest.Cutter head is entrenched in the second groove It is interior, when needing to carry out the processing of multi-form to material, cutter head can be changed.

In some embodiments, the first automatic stamping device include fuselage, the power set being located on fuselage, drift, Template, power set drive drift to move up and down, and template is provided with through hole, and external endplate is located in template.Thus, by power Device drives drift to move up and down, and drift can be punched out to end plate, so as to complete punch operation.

In some embodiments, the first automatic stamping device includes also including rotation dish and rotary electric machine, rotary electric machine It is connected with rotation dish by rotating shaft, rotation dish is connected with template, rotation dish is rotated by rotary electric machine band moving platen.Thus, lead to Crossing rotation dish can rotate with moving platen, and template can drive end plate to rotate during rotating, and end plate turns an angle, Can again be punched out, therefore, it can go out multiple through holes on end plate.

In some embodiments, drilling and tapping machine device includes drilling and tapping machine body, bore motor, drill bit, tapping motor, tapping-head Base plate is attacked with brill, bore motor drives drill bit to rotate, and drill bit drills to external endplate, and tapping motor drives tapping-head to turn Dynamic, tapping-head carries out tapping to the through hole of external endplate.Thus, drill bit movement is driven by bore motor, drill bit can be at end Blind hole is got out on plate, and tapping-head can get out screw thread on the through hole of end plate.

In some embodiments, also including streamline pedestal, drum apparatus are each provided on streamline pedestal, streamline base One end of seat is provided with feeding device, and the other end is provided with blanking device.Thus, can be with automatic charging by feeding device, and blanking Device can then reach the effect of automatic blanking.

In some embodiments, automatic punching die feeding cylinder is provided with the side of automatic stamping device, on automatic punching die Be pushed to external endplate at automatic stamping device by material cylinder, and lathe cylinder is provided with the side of lathe apparatus, and lathe cylinder will External endplate is pushed at lathe apparatus.

Brief description of the drawings

Fig. 1 is the structural representation of the full-automatic end plate process line of one embodiment of the present invention；

Fig. 2 is the structural representation of the lathe apparatus in full-automatic end plate process line shown in Fig. 1；

Fig. 3 is the part-structure schematic diagram in lathe apparatus shown in Fig. 2；

Fig. 4 is the part-structure schematic diagram in lathe apparatus shown in Fig. 2；

Fig. 5 is the structural representation of the automatic stamping device in full-automatic end plate process line shown in Fig. 1；

Fig. 6 is the enlarged diagram of the part-structure of automatic stamping device shown in Fig. 5；

Fig. 7 is the structural representation of the drilling and tapping machine device in full-automatic end plate process line shown in Fig. 1.

Specific embodiment

The present invention is further detailed explanation with specific embodiment below in conjunction with the accompanying drawings.

Fig. 1~Fig. 7 schematically shows the structure of the full-automatic end plate process line of one embodiment of the present invention.

As shown in Fig. 1~Fig. 7, a kind of full-automatic end plate process line, including 1, two automatic punching die dresses of lathe apparatus Put 2, drilling and tapping machine device 3 and drum apparatus 4, lathe apparatus 1, automatic stamping device 2, automatic drilling and tapping machine device 3, automatic punching die dress 2 are put to be sequentially arranged on drum apparatus 4, drum apparatus 4 successively by external endplate be transported to lathe apparatus 1, automatic stamping device 2, At automatic drilling and tapping machine device 3, automatic stamping device 2.

Fig. 2~Fig. 4 schematically shows the knot of the lathe apparatus 1 in full-automatic end plate process line in the present invention Structure.

Lathe apparatus 1, including the first screw mandrel 11, the second screw mandrel 12, chuck 13, the first knife rest 15, the second knife rest, cutter head 16th, lathe bed 17 and controller 18.

(in other embodiments, column 171 can be directly welded at lathe bed with screw to be provided with column 171 on lathe bed 17 On 17).

As shown in Figure 2 to 4, installed in column 171, (in other embodiments, crossbeam can also be straight by screw for crossbeam Connect and be welded on column 171).

As shown in Figure 2 to 4, lathe also includes the first motor, and wherein controller 18 is arranged on column 171 by screw On, the first motor is arranged on crossbeam by screw, and controller 18 is electrically connected by relay (or controllable silicon) and the first motor Connect, controller 18 sends control signal, first by relay (or controllable silicon) according to the processing dimension of material to the first motor Motor is rotated according to control signal, and the output end of the first motor is rotated by the first screw mandrel of gear set drive 11.And First screw mandrel 11 is equipped with the first nut 111, wherein the first nut 111 is fixedly mounted on the first knife rest 15 by screw, when When first screw mandrel 11 is rotated under the drive of the first motor, the first nut 111 is horizontal along the first screw mandrel 11 in the presence of To movement, so as to drive the first knife rest 15 along the transverse shifting of the first screw mandrel 11, the rotary motion of the first screw mandrel 11 is converted into The straight line transverse shifting of the first knife rest 15.

As shown in Figure 2 to 4, lathe also includes the second motor, and the second motor is arranged on crossbeam by screw, controller 18 are electrically connected by relay (or controllable silicon) and the second motor, and controller 18 passes through relay according to the processing dimension of material (or controllable silicon) sends control signal to the second motor, and the second motor is rotated according to control signal, drives the second screw mandrel 12 Rotated.Second screw mandrel 12 is equipped with the second nut 121, wherein the second nut 121 is fixedly mounted on the second knife by screw On frame, when the second screw mandrel 12 is rotated under the drive of the second motor, the second nut 121 is in the presence of along second Bar 12 is vertically movable, so as to drive the second knife rest vertically movable along the second screw mandrel 12, the rotary motion of the second screw mandrel 12 is turned The straight line for changing the second knife rest into is vertically movable.

As shown in Figure 2 to 4, the side of the first knife rest 15 forms the first groove, and is formed along its length on crossbeam With the rectangular preiection (horizontal rectangular preiection i.e. in figure) of the first groove fit, rectangular preiection is plugged together in the first groove, can Make the first knife rest 15 along crossbeam transverse shifting with according to the processing dimension of material, while between the first groove and rectangular preiection Space in insert a panel, it is possible to reduce the frictional force between the first knife rest 15 and crossbeam；The opposite side of first knife rest 15 into Type has vertical dovetail tangs, and the second knife rest side forms the dovetail groove coordinated with dovetail tangs, and dovetail tangs are plugged together On dovetail groove, the second knife rest can be made vertically to be connected and vertically movable along the first knife rest 15 with the first knife rest 15；And second Knife rest opposite side forms the second groove, and cutter head 16 is plugged together in the second groove, and cutter head 16 is fixed on into by screw On two knife rests；First knife rest 15 can drive the second knife rest and the transverse shifting of cutter head 16, and the second knife rest can be perpendicular with dynamic cutter head 16 To movement, so cutter head 16 can in the same plane realize comprehensive movement, accurately material is processed.

As shown in Figure 2 to 4, chuck 13 is arranged on lathe bed 17 and is located at the lower section of cutter head 16, chuck 13 include claw with Main shaft, wherein claw are arranged on the top of chuck 13, and main shaft is arranged on the bottom of chuck 13, when being processed to material, Material is placed on chuck 13, material is fixed with claw, facilitates installation or dismounting of the staff to material, this In embodiment, chuck 13 is scroll chuck 13, and in other embodiments, chuck 13 can be chuck 13.

In the present embodiment, chuck 13 is that the oild chuck 13 of rear pull type, i.e. chuck 13 are installed on front-end of spindle, turns round hydraulic pressure Cylinder is installed on rear-end of spindle, can improve the ability of the anti-cutting fluid of waterproof.In other embodiments, chuck 13 can be forward type Oild chuck 13, i.e., chuck 13 and rotary cylinder integration.

As shown in Figure 2 to 4, lathe also includes the 3rd motor and frequency converter, wherein the 3rd motor and frequency converter pass through Screw is arranged on lathe bed 17 (in other embodiments, the 3rd motor and frequency converter can also be directly welded on lathe bed 17), The output end of the 3rd motor is rotated by belt drive main shaft, is rotated so as to order about chuck 13；Frequency converter is according to material The processing dimension of material changes supply frequency and sends frequency variation signal to the 3rd motor, and the 3rd motor is revolved according to frequency variation signal Turn, make the rotating speed of the 3rd motor also with change, transmission efficiency, energy saving can be improved.

When being processed using lathe apparatus, according to the processing dimension of end plate, can be set on controller 18 in advance Control program, it would be desirable to which the material of processing is placed on chuck 13, material will be stepped up with claw, and the control for pressing controller 18 is opened Close, start the first motor, order about the first knife rest 15 according to the processing dimension of material along the transverse shifting of the first screw mandrel 11, start two Motor, the processing dimension for ordering about the second knife rest according to material is vertically movable along the second screw mandrel 12, it is ensured that on knife rest Cutter head 16 is accurately processed to material.

Fig. 5 and Fig. 6 schematically show the structure of automatic stamping device 2.

As shown in Figure 5 and Figure 6, automatic stamping device 2 include fuselage 21, be located on the fuselage 21 power set 22, Drift 23, template 24.As shown in Figure 5 and Figure 6, power set 22 are arranged on fuselage 21 and (do not illustrate in figure, power set 22 can To be fixed on the top half of fuselage 21), in the present embodiment, power set 22 can be that (cylinder can drive drift to cylinder 23 move up and down), by the upper end fixed installation of drift 23 (for example：The modes such as welding) on the output shaft of cylinder, such as Fig. 5 and Tu Shown in 6, by above-mentioned mounting means, start cylinder, cylinder can just drive drift 23 to move up and down.

Automatic stamping device 2 is the device that punching is processed to end plate, therefore, template 24 is located at the lower section of drift 23, in mould A through hole 241 is formed on plate 24, at the underface of drift 23, when external endplate is placed in template 24, by cylinder Drive drift 23 to move, the punching press end plate of drift 23 and pass through end plate and enter into the through hole 241 of template 24, such that it is able to opposite end Plate is punched out.

Meanwhile, in order to the punching press multiple hole on end plate, it is necessary to increase rotation dish and rotary electric machine, rotation dish and rotation Motor is installed in the lower section of template 24, and the upper end of the output shaft of rotary electric machine is fixed in rotation dish, and rotation dish and template 24 are fixedly connected, and when rotary electric machine is rotated, the output shaft of rotary electric machine drives turn disc, rotation dish 24 turns of moving platen of band Dynamic, template 24 finally drives end plate to rotate, and end plate stops operating after turning an angle, and drift 23 then continues to repeat above-mentioned punching Hole acts.

For example：When needing to rush eight through holes 241 on end plate, after completing first punching, rotary electric machine finally drives After end plate rotates 45 °, it is stopped, then, completes second puncture motion, rotary electric machine repeats above-mentioned action, drift afterwards 23 complete eight punching presses of through hole 241.

Certainly, the angle that rotation dish and end plate are rotated is driven in order to automatically control rotary electric machine, control mould can be increased Block and operation module, the angle that can set rotation by operation module (such as just stop one after 30 ° of machine shaft rotation It is secondary, so can be with 12 through holes 241 of punching press), control module is opened or closed according to the data for setting, control rotary electric machine Close.

In order to slow down drift 23 move up and down and to the pressure in end plate punching course, can install a buffer board, Drift 23 passes through the buffer board, and the buffer board to be connected with fuselage 21 by spring, when 23 downward punching of drift, buffer board And due to being connected with spring on buffer board, thus the rigid contact of drift 23 and end plate can be buffered with end plate contact Power, can preferably be punched out.

Fig. 7 schematically shows the structure of automatic stamping device 2.

As shown in fig. 7, drilling and tapping machine device 3 includes drilling and tapping machine body 31, bore motor 32, boring cylinder, drill bit 33, tapping electricity Machine 34, tapping cylinder, tapping-head 35 and brill attack base plate 36.

Boring cylinder and tapping cylinder are each attached on drilling and tapping machine body 31, and bore motor 32 is fixed in boring cylinder, Tapping motor 34 is fixed on tapping cylinder, and boring cylinder can drive bore motor 32 to move up and down, and drill bit 33 is electric with drilling The output shaft of machine 32 is connected, and bore motor 32 can drive drill bit 33 to rotate, and similarly, tapping cylinder can drive tapping motor 34 Move up and down, tapping-head 35 is connected with the output shaft of tapping motor 34, and tapping motor 34 can drive tapping-head 35 to rotate.

Drilling and tapping machine device 3 can be bored (blind) hole to end plate and upper one is attacked to made through hole 241 Silk, it is specific as follows：

Boring cylinder drives bore motor 32 to move downward, and because drill bit 33 is fixed on bore motor 32, therefore bore First 33 also move downward, and bore motor 32 then drives drill bit 33 to rotate, and drill bit 33 runs into end plate when rotating down, it is possible to (blind) hole operation is bored to end plate；And tapping cylinder then drives tapping motor 34 to move downward, because tapping-head 35 is fixed on On tapping motor 34, therefore tapping-head 35 is also moved downward, and tapping motor 34 then drives tapping-head 35 to rotate, tapping-head 35 to During lower rotation, through hole 241 (the made through hole of automatic stamping device 2) made on end plate is run into, it is possible to which end plate is entered Row tapping (internal thread) is operated.

As needed, the position of blind hole may be located at the side of through hole 241 (tapping hole), that is to say, that the quantity of blind hole with The quantity of through hole 241 (tapping hole) can with identical,

Meanwhile, in order to bore the knot of multiple blind holes, rotation dish and rotary electric machine, rotation dish and rotary electric machine on end plate Structure can be identical with the rotation dish and rotary electric machine in above-mentioned automatic stamping device 2, is not repeating herein.

For example：When needing to bore eight blind holes and eight tapping holes on end plate, after completing first drilling and tapping hole, After rotary electric machine finally drives end plate to rotate 45 °, it is stopped, then, completes second drilling and tapping hole is made, rotates afterwards Motor repeats above-mentioned action, is finally completed eight drillings and tapping hole.

Drum apparatus 4 run through whole streamline of the invention, and drum apparatus 4 (have multiple rollers, pass through on drum apparatus 4 Motor can just drive roller to rotate, and when roller is rotated, the end plate being placed on roller can be driven to move) successively by outer end Plate is transported at lathe apparatus 1, automatic stamping device 2, automatic drilling and tapping machine device 3, automatic stamping device 2.

The automatic motion of end plate for convenience, can increase streamline pedestal, and drum apparatus 4 are arranged on streamline pedestal On, the side of streamline pedestal is feeding device, and opposite side is blanking device, and the concrete structure of feeding device can be as follows：On Material device includes lifting platform and feeding cylinder, and when end plate is placed on lifting platform, lifting platform drives end plate to move to feeding gas At the output shaft of cylinder, be pushed to end plate on drum apparatus 4 by the output shaft of feeding cylinder.

And the concrete structure of blanking device is then：Lifting platform also is provided with blanking device, lifting platform can transport end plate Get off.

Overall flow of the invention is as follows：

1st, first, end plate is placed on the lifting platform of feeding device (certainly, the mode of placement can also be as follows：End plate It is placed on roller, drives end plate to move on lifting platform by roller), then lifting platform is risen (driven by motor).

2nd, end plate drives by lifting platform, and after rising certain altitude, lifting platform drives end plate to rise at feeding cylinder, on Material cylinder is by end plate horizontal sliding to lathe apparatus 1.

3rd, due to being provided with lathe cylinder (not identified in figure) in one end of lathe apparatus 1, feeding cylinder is actually by end At plate horizontal sliding to lathe cylinder, lathe cylinder is then pushed at the chuck 13 of lathe apparatus 1 end plate.

4th, chuck 13 is blocked end plate by claw, starts the first motor and the second motor, and the first motor drives first Bar 11 is moved, and the second motor then drives the second screw mandrel 12 to move, so that the first screw mandrel 11 and the second screw mandrel 12 can together bands Dynamic cutter head 16 moves (i.e. cutter head 16 can be in three-dimensional space motion) up and down, so that cutter head 16 can process end plate, can be with It is processed end plate (for example as needed：Processing lines etc.).

5th, after lathe apparatus 1 are machined, chuck 13 unclamps end plate, and lathe cylinder releases end plate from chuck 13, And causing that chuck 13 drops on drum apparatus 4, drum apparatus 4 continue to drive end plate to travel forward.

6th, drum apparatus 4 drive end plate to move at first automatic stamping device 2, first automatic stamping device 2 Side is preferably provided with automatic punching die feeding cylinder (not identified in figure), and automatic punching die feeding cylinder rushes end plate horizontal sliding to automatic On die device 2.

7th, automatic punching die feeding cylinder (not identified in figure), can by the template 24 of end plate horizontal sliding to automatic stamping device 2 End plate is fixed in template 24 with installing location-plate and sliding block etc. in template 24.

8th, after end plate is fixed in template 24, the power set 22 of automatic stamping device 2 are started, power set 22 drive punching First 23 move downward, drift 23 move downward during slowly with end plate contact, now, drift 23 continues to move downward so that Drift 23 can punch through end plate, and after drift 23 punches through end plate, one end of drift 23 then enters into the through hole 241 of template 24 In, after completing said process, the rotation dish of automatic stamping device 2 rotates certain angle with moving platen 24 (for example to be needed at end 12 holes are rushed on plate, then the angle for rotating is 30 °) after, rotation dish stops operating, and drift 23 then repeats above-mentioned action again, And second hole is rushed, afterwards,

As procedure described above, the quantity in the hole of needs is rushed successively, is finally completed punching.

9th, after completing puncture motion, automatic punching die feeding cylinder (not identified in figure) is by end plate under horizontal sliding in template 24 Come, and end plate is pushed on drum apparatus 4, drum apparatus 4 drive end plate to move at drilling and tapping machine device 3.

10th, in the present embodiment, in order to increase operating efficiency, drilling and tapping machine device 3 can be provided with two, in order that must roll The end plate that wound packages is put on 4 can be moved on two drilling and tapping machine devices 3, and a drilling and tapping machine point can be installed on drum apparatus 4 Screening device, the brill that the end plate half on drum apparatus 4 enters directly into one of drilling and tapping machine device 3 is attacked on base plate 36, another Half is attacked on base plate 36 by drilling and tapping machine sorting unit, the brill for entering into another drilling and tapping machine device 3.

The concrete structure of drilling and tapping machine sorting unit is as follows：Drilling and tapping machine sorting unit includes sorting lifting platform and installed in sorting Sorting cylinder and sorting support on lifting platform, sorting support are installed on sorting lifting platform, first, sort support with roller position Can be automatically moved on sorting support in the half end plate on sustained height, such roller, then sort support by sorting Lifting platform rises, and sorting cylinder starts, and sorting cylinder will sort the drum apparatus 4 that the horizontal sliding of pedestal upper end plate is shunted to another On, the drum apparatus 4 of shunting drive to another drilling and tapping machine device 3 end plate.

11st, above-mentioned end plate can bore (blind) hole and tapping by drilling and tapping machine device 3, complete to bore (blind) hole and tapping action Afterwards, end plate falls on drum apparatus 4 below from drilling and tapping machine device 3, drum apparatus 4 then drive end plate to second it is automatic At die set 2, method for pushing and first.

12nd, (blind) hole that second automatic stamping device 2 will be drilled before punches through, and is in through hole 241 by blind hole punching, from And complete the process of whole streamline.

13rd, after completing whole process, end plate is re-introduced on drum apparatus 4, and drum apparatus 4 drive and completed The end plate of processing is entered on blanking device, and blanking device completes blanking action.

Above-described is only some embodiments of the present invention.For the person of ordinary skill of the art, not On the premise of departing from the invention design, various modifications and improvements can be made, these belong to protection model of the invention Enclose.

Claims (10)

1. full-automatic end plate process line, it is characterised in that including lathe apparatus (1), two automatic stamping devices (2), bore Machine device (3) and drum apparatus (4) are attacked,

The lathe apparatus (1), automatic stamping device (2), automatic drilling and tapping machine device (3), automatic stamping device (2) are sequentially arranged at On the drum apparatus (4), external endplate is transported to lathe apparatus (1), automatic stamping device by the drum apparatus (4) successively (2), automatic drilling and tapping machine device (3), automatic stamping device (2) place.

2. full-automatic end plate process line according to claim 1, it is characterised in that the lathe apparatus (1) include First screw mandrel (11), the second screw mandrel (12), chuck (13), the first knife rest (14), the second knife rest (15), cutter head (16), lathe bed (17) and controller (18),

The controller (18) controls the first screw mandrel (11) and the second screw mandrel (12) rotation,

First knife rest (14) is located on the first screw mandrel (11), and first knife rest (14) is laterally moved along the first screw mandrel (11) It is dynamic,

Second knife rest (15) is located on the second screw mandrel (12), and second knife rest (15) is vertically moved along the second screw mandrel (12) Dynamic, second knife rest (15) is vertically flexibly connected with the first knife rest (14),

The cutter head (16) is located on the second knife rest (15),

The chuck (13) is located on lathe bed (17), top of the cutter head (16) positioned at chuck (13).

3. full-automatic end plate process line according to claim 2, it is characterised in that first screw mandrel (11) is also wrapped The first nut (111) is included, first nut (111) is located on the first knife rest (14), second screw mandrel (12) also includes the Two nuts (121), second nut (121) is located on the second knife rest (15).

4. full-automatic end plate process line according to claim 3, it is characterised in that the lathe bed (17) is provided with column (171), the column (171) is provided with crossbeam, is provided with rectangular preiection, first knife rest on the crossbeam along its length (14) side is provided with the first groove coordinated with rectangular preiection.

5. full-automatic end plate process line according to claim 4, it is characterised in that first knife rest (14) is another Side is provided with vertical dovetail tangs, and the second knife rest (15) side is provided with the dovetail groove coordinated with dovetail tangs, described second Knife rest (15) opposite side is provided with the second groove, and the cutter head (16) is located in the second groove.

6. full-automatic end plate process line according to claim 5, it is characterised in that the first automatic stamping device (2) Including fuselage (21), the power set (22) being located on the fuselage (21), drift (23), template (24), the power set The drift is driven to move up and down, the template (24) is provided with through hole (241), and external endplate is located in the template (24).

7. full-automatic end plate process line according to claim 6, it is characterised in that first automatic stamping device (2) including also including rotation dish and rotary electric machine, the rotary electric machine is connected by rotating shaft with the rotation dish, the rotation dish It is connected with the template, the rotation dish is rotated by rotary electric machine band moving platen.

8. full-automatic end plate process line according to claim 7, it is characterised in that drilling and tapping machine device (3) bag Include drilling and tapping machine body (31), bore motor (32), drill bit (33), tapping motor (34), tapping-head (35) and brill and attack base plate (36), institute Stating bore motor (32) drives the drill bit (33) to rotate, and the drill bit (33) drills to external endplate, the tapping electricity Machine (34) drives the tapping-head (35) to rotate, and the tapping-head (35) carries out tapping to the through hole of external endplate.

9. full-automatic end plate process line according to claim 8, it is characterised in that also including streamline pedestal, rolling Wound packages is put (4) and is each provided on the streamline pedestal, and one end of the streamline pedestal is provided with feeding device, and the other end is provided with down Material device.

10. the full-automatic end plate process line according to any one of claim 1~9, it is characterised in that it is described from The side of dynamic die set (2) is provided with automatic punching die feeding cylinder, and be pushed to for external endplate by the automatic punching die feeding cylinder Automatic stamping device (2) place, lathe cylinder is provided with the side of the lathe apparatus (1), and the lathe cylinder is by external endplate It is pushed to lathe apparatus (1) place.