CN206357314U - Automatic V cutting mills for PCB processing and formings - Google Patents

Abstract

The utility model discloses a kind of automatic V cutting mills for PCB processing and formings, including organic block, detent mechanism, clamping device, longitudinal driving mechanism, cutting head and transversal driving mechanism；Front rack and tail-bracket are provided with the support；The detent mechanism is arranged on support and positioned between front rack and tail-bracket, detent mechanism includes lower location-plate, upper location-plate and vertical drive mechanism；The clamping device longitudinally actively can be arranged on support back and forth, the cutting head can transverse reciprocating be actively arranged on support and by the rear side of detent mechanism, cutting head has upper slitter and lower knife.Each mechanism is utilized by coordinating, to carry out the processes such as Automatic-clamping, transfer, positioning and cutting to sheet material, can be in the controllable V-groove of one depth of upper and lower surface formation of sheet material, cutting accuracy is high, without hand fit, intensity of workers is effectively reduced greatly, and substantially increase production efficiency, Improving The Quality of Products, safety coefficient is high.

Description

Automatic V cutting mills for PCB processing and formings

Technical field

The utility model is related to PCB contour machining equipment arts, refer in particular to it is a kind of for PCB processing and formings from Dynamic V cutting mills.

Background technology

The V cutting plane sheet materials such as existing PCB, aluminium base, when high-speed straight-line V is cut, there is the processing of high-precision size It is required that.Processing generally to the flat sheet of this high-precision size is operated using manual V undercutting row, but this kind of mode has Have that production efficiency is high, intensity of workers big, product quality is not up to standard, the low shortcoming of safety coefficient；Therefore it is existing Flat sheet processing method can not meet the demand in market.

The content of the invention

In view of this, in view of the existing deficiencies of the prior art, its main purpose is to provide a kind of for PCB the utility model The automatic V cutting mills of processing and forming, it can carry out self-feeding and cutting, effectively reduce artificial.

To achieve the above object, the utility model is using following technical scheme：

A kind of automatic V cutting mills for PCB processing and formings, including organic block, detent mechanism, clamping device, zigzag tread patterns Mechanism, cutting head and transversal driving mechanism；

Front rack and tail-bracket are provided with the support；

The detent mechanism is arranged on support and positioned between front rack and tail-bracket, detent mechanism includes lower positioning Plate, upper location-plate and vertical drive mechanism, the lower location-plate are fixed on support, and the upper location-plate can be arranged at up and downly The surface of lower location-plate, the vertical drive mechanism is arranged on support, and vertical drive mechanism drives upper location-plate up and down And plate closing or separated with lower positioning；

The clamping device longitudinally actively can be arranged on support back and forth, and clamping device is located at the lower section of front rack, clamping Mechanism has multipair clamping jaw, and the multipair clamping jaw lateral separation is arranged and is exposed independent from the upper surface of front rack；The longitudinal driving mechanism It is arranged on support, longitudinal driving mechanism drives clamping device longitudinal direction movable back and forth；

The cutting head can transverse reciprocating be actively arranged on support and by the rear side of detent mechanism, cutting head With upper slitter and lower knife, upper slitter is located at the front side top of tail-bracket, and lower cutter spacing is below the front side of tail-bracket；The laterally driven machine Structure is arranged on support, and transversal driving mechanism drives the activity of cutting head transverse reciprocating.

It is preferred that, the vertical drive mechanism is two cylinders, and two cylinders are both secured on support, the piston rod point of two cylinders It is not fixedly connected with the two ends of upper location-plate.

It is preferred that, the top end face of the lower location-plate and the bottom face of upper location-plate are respectively and fixedly provided with multiple block rubbers, and this is more Individual block rubber is laterally arranged.

It is preferred that, the clamping device includes longitudinally-moving seat, rotating shaft, at least multiple first cylinders, one second cylinder And foregoing multipair clamping jaw；The rotating shaft is rotatably installed on longitudinally-moving seat, and rotating shaft is extended laterally；The plurality of first cylinder Lateral separation is arranged, and multiple first cylinders are uniformly hinged with longitudinally-moving seat；Cut with scissors with longitudinally-moving seat one end of second cylinder Connect, the other end and the rotating shaft of the second cylinder are hinged, the second cylinder drives rotating shaft to carry out back rotation；Every a pair of clamping jaws include folder Pawl and lower clamping jaw, the upper gripper jaw are rotationally sheathed in rotating shaft and are hinged with the piston rod of the first corresponding cylinder, the first gas Cylinder drives upper gripper jaw to swing up and down, and the lower clamping jaw is sheathed in rotating shaft to be swung up and down with axis of rotation.

It is preferred that, every a pair of clamping jaws include a foregoing upper gripper jaw and two foregoing lower clamping jaws, twice clamping jaw difference Positioned at the both sides of upper gripper jaw.

It is preferred that, the longitudinal driving mechanism includes longitudinal screw mandrel and servomotor, and the longitudinal screw mandrel is rotationally pacified Loaded on support, longitudinal screw mandrel Longitudinal extending, and longitudinal screw mandrel is screwed together with longitudinally-moving seat, the servomotor is fixed on machine On seat, servomotor drives longitudinal screw mandrel to carry out back rotation.

It is preferred that, the cutting head includes laterally movable seat, upper sliding seat, lower sliding seat, the first servomotor, Two servomotors, the first drive mechanism and the second drive mechanism；The laterally movable seat takes the shape of the letter U, its facing forward, sliding seat on this that is open With lower sliding seat it is up and down be installed on laterally movable seat, upper sliding seat and lower sliding seat are located at the top of opening respectively And lower section, rotating spindle is provided with this in sliding seat, the front end that foregoing upper slitter is fixed on rotating spindle is led with upper rotate Axle is rotated, and lower rotating spindle is provided with the lower sliding seat, and the front end that foregoing lower knife is fixed on lower rotating spindle is led with lower rotate Axle is rotated；First servomotor and the second servomotor are individually fixed in sliding seat and lower sliding seat, the first servo electricity Machine and the second servomotor are rotated by rotating spindle on belt drive and lower rotating spindle respectively；First drive mechanism and Two drive mechanisms are respectively arranged at the top and bottom of laterally movable seat, and the first drive mechanism and the second drive mechanism drive respectively Upper sliding seat and lower sliding seat are up and down.

It is preferred that, first drive mechanism includes the first screw mandrel and the 3rd servomotor, and first screw mandrel is rotatable Ground is installed on laterally movable seat, and the first screw mandrel is vertically extending and is screwed together with upper sliding seat, and the 3rd servomotor is fixed In the top of laterally movable seat, the 3rd servomotor drives the first screw mandrel to carry out back rotation.

It is preferred that, second drive mechanism includes the second screw mandrel and the 4th servomotor, and second screw mandrel is rotatable Ground is installed on laterally movable seat, and the second screw mandrel is vertically extending and is screwed together with lower sliding seat, and the 4th servomotor is fixed In the bottom of laterally movable seat, the 4th servomotor drives the second screw mandrel to carry out back rotation.

It is preferred that, the transversal driving mechanism includes cross lead screw and servomotor, and the cross lead screw is rotationally pacified Loaded on support, cross lead screw is extended laterally, and cross lead screw is screwed together with laterally movable seat, and the servomotor is fixed on machine On seat, servomotor drives cross lead screw to carry out back rotation.

The utility model has clear advantage and beneficial effect compared with prior art, specifically, by above-mentioned technology Scheme is understood：

Each mechanism is utilized by coordinating, can be to carry out Automatic-clamping, transfer, positioning to sheet material and the process such as cut The upper and lower surface of sheet material forms the controllable V-groove of a depth, and cutting accuracy is high, without hand fit, effectively reduces work people Member's labor intensity is big, and substantially increases production efficiency, and Improving The Quality of Products, safety coefficient is high.

More clearly to illustrate architectural feature of the present utility model and effect, come below in conjunction with the accompanying drawings with specific embodiment pair The utility model is described in detail.

Brief description of the drawings

Fig. 1 is the schematic perspective view of the preferred embodiment of the utility model；

Fig. 2 is the schematic perspective view of another angle of preferred embodiment of the utility model；

Fig. 3 is the sectional view of the preferred embodiment of the utility model；

Fig. 4 be the utility model preferred embodiment in clamping device enlarged diagram；

Fig. 5 be the utility model preferred embodiment in another angle of clamping device enlarged diagram；

Fig. 6 be the utility model preferred embodiment in cutting head enlarged diagram；

Fig. 7 be the utility model preferred embodiment in another angle of cutting head enlarged diagram.

Accompanying drawing identifier declaration：

10th, support 20, detent mechanism

21st, lower location-plate 22, upper location-plate

23rd, vertical drive mechanism 24, block rubber

30th, clamping device 31, clamping jaw

311st, upper gripper jaw 312, lower clamping jaw

32nd, longitudinally-moving seat 33, rotating shaft

34th, the first cylinder 35, the second cylinder

40th, longitudinal driving mechanism 41, longitudinal screw mandrel

42nd, servomotor 50, cutting head

51st, laterally movable seat 52, upper sliding seat

53rd, lower sliding seat 54, the first servomotor

55th, the second servomotor 56, the first drive mechanism

561st, the first screw mandrel 562, the 3rd servomotor

57th, the second drive mechanism 571, the second screw mandrel

572nd, the 4th servomotor 501, upper slitter

502nd, lower knife 503, upper rotating spindle

504th, lower rotating spindle 505, belt

60th, transversal driving mechanism 61, cross lead screw

62nd, servomotor 71, front rack

72nd, tail-bracket.

Embodiment

It refer to shown in Fig. 1 to Fig. 7, that show the concrete structure of the preferred embodiment of the utility model, include Support 10, detent mechanism 20, clamping device 30, longitudinal driving mechanism 40, cutting head 50 and transversal driving mechanism 60.

Front rack 71 and tail-bracket 72 are provided with the support 10, the front rack 71 and tail-bracket 72 are used to cutting plate Part carries out support, in the present embodiment, the support 10 generally marble material, stabilized structure.

The detent mechanism 20 is arranged on support 10 and positioned between front rack 71 and tail-bracket 72, the detent mechanism 20 is used In being clamped positioning to plate in cutting process, specifically, the detent mechanism 20 includes lower location-plate 21, upper positioning Plate 22 and vertical drive mechanism 23, the lower location-plate 21 are fixed on support 10, and the upper location-plate 22 can be set up and downly In the surface of lower location-plate 21, the vertical drive mechanism 23 is arranged on support 10, and vertical drive mechanism 23 drives and positioned Plate 22 is up and down and closes or separates with lower location-plate 21；In the present embodiment, the vertical drive mechanism 23 is two cylinders, Two cylinders are both secured on support 10, and the two ends of the piston rods of two cylinders respectively with upper location-plate 22 are fixedly connected, using cylinder So that clamping and unclamping quick and stable；Also, the top end face of the lower location-plate 21 and the bottom face of upper location-plate 22 are fixed There are multiple block rubbers 24, the plurality of block rubber 24 is laterally arranged, and the plurality of block rubber 24 is used to directly contact with plate, to avoid Plate is crushed.

The clamping device 30 longitudinally can be actively arranged on support 10 back and forth, and clamping device 30 is located under front rack 71 Side, clamping device 30 has multipair clamping jaw 31, and the multipair lateral separation of clamping jaw 31 is arranged and is exposed independent from the upper surface of front rack 71； Specifically, as shown in Figure 4 and Figure 5, the clamping device 30 includes longitudinally-moving seat 32, rotating shaft 33, multiple first cylinders 34th, at least one second cylinder 35 and foregoing multipair clamping jaw 31；The rotating shaft 33 is rotatably installed on longitudinally-moving seat 32, is turned Axle 33 is extended laterally；The plurality of lateral separation of first cylinder 34 arrangement, multiple first cylinders 34 are uniformly cut with scissors with longitudinally-moving seat 32 Connect；One end of second cylinder 35 is hinged with longitudinally-moving seat 32, and the other end and the rotating shaft 33 of the second cylinder 35 are hinged, the second gas Cylinder 35 drives rotating shaft 33 to carry out back rotation；Every a pair of clamping jaws 31 include upper gripper jaw 311 and lower clamping jaw 312, and the upper gripper jaw 311 can Rotationally it is sheathed in rotating shaft 33 and is hinged with the piston rod of the first corresponding cylinder 34, the first cylinder 34 drives upper gripper jaw 311 Swing up and down, the lower clamping jaw 312, which is sheathed on, to be rotated in rotating shaft 33 and swing up and down with rotating shaft 33, when upper gripper jaw 311 is to lower swing, It is swung up with clamping jaw 312 at present so that when upper gripper jaw 311 and lower clamping jaw 312 are closed, can be clamped to plate.Also, institute State every a pair of clamping jaws 31 and include a foregoing foregoing lower clamping jaw 312 of upper gripper jaw 311 and two, twice clamping jaws 312 are located at upper respectively The both sides of clamping jaw 311.

The longitudinal driving mechanism 40 is arranged on support 10, and longitudinal driving mechanism 40 drives the longitudinal direction of clamping device 30 to live back and forth It is dynamic, to drive activity back and forth before and after plate；Specifically, the longitudinal driving mechanism 40 includes longitudinal screw mandrel 41 and servo electricity Machine 42, the longitudinal screw mandrel 41 is rotatably installed on support 10, the Longitudinal extending of longitudinal screw mandrel 41, and longitudinal screw mandrel 41 and longitudinal direction Sliding seat 32 is screwed together, and the servomotor 42 is fixed on support 10, and servomotor 42 drives longitudinal screw mandrel 41 to carry out back rotation.

The cutting head 50 can transverse reciprocating be actively arranged on support 10 and by the rear side of detent mechanism 20, cut Cutting mill first 50 has upper slitter 501 and lower knife 502, and upper slitter 501 is located at the front side top of tail-bracket 72, and lower knife 502 is located at tail-bracket Below 72 front side；Specifically, as shown in Figure 6 and Figure 7, the cutting head 50 includes laterally movable seat 51, upper activity Seat 52, lower sliding seat 53, the first servomotor 54, the second servomotor 55, the first drive mechanism 56 and the second drive mechanism 57； The laterally movable seat 51 takes the shape of the letter U, and it is open forward, and sliding seat 52 and lower sliding seat 53 are installed on transverse direction up and downly on this In sliding seat 51, upper sliding seat 52 and lower sliding seat 53 are located above and below opening respectively, are set on this in sliding seat 52 There is upper rotating spindle 503, the front end that foregoing upper slitter 501 is fixed on rotating spindle 503 is rotated with upper rotating spindle 503, under this Lower rotating spindle 504 is provided with sliding seat 53, the front end that foregoing lower knife 502 is fixed on lower rotating spindle 504 is led with lower rotate Axle 504 is rotated；First servomotor and the second servomotor are individually fixed in sliding seat and lower sliding seat, the first servo The servomotor 55 of motor 54 and second drives upper rotating spindle 503 and lower rotating spindle 504 to rotate by belt 505 respectively；Should First drive mechanism 56 and the second drive mechanism 57 are respectively arranged at the top and bottom of laterally movable seat 51, the first drive mechanism 56 and second drive mechanism 57 drive sliding seat 52 and lower sliding seat 53 up and down respectively.In the present embodiment, described One drive mechanism 56 includes the first screw mandrel 561 and the 3rd servomotor 562, and first screw mandrel 561 is rotatably installed on horizontal stroke To in sliding seat 51, the first screw mandrel 561 is vertically extending and is screwed together with upper sliding seat 52, and the 3rd servomotor 562 is fixed In the top of laterally movable seat 51, the 3rd servomotor 562 drives the first screw mandrel 561 to carry out back rotation；Second drive mechanism 57 include the second screw mandrel 571 and the 4th servomotor 572, and second screw mandrel 571 is rotatably installed on laterally movable seat 51 On, the second screw mandrel 571 is vertically extending and is screwed together with lower sliding seat 53, and the 4th servomotor 572 is fixed on laterally movable The bottom of seat 51, the 4th servomotor 572 drives the second screw mandrel 571 to carry out back rotation.

The transversal driving mechanism 60 is arranged on support 10, and transversal driving mechanism 60 drives the transverse reciprocating of cutting head 50 to live It is dynamic.Specifically, the transversal driving mechanism 60 includes cross lead screw 61 and servomotor 62, and the cross lead screw 61 is rotatable Ground is installed on support 10, and cross lead screw 61 is extended laterally, and cross lead screw 61 is screwed together with laterally movable seat 51, the servo Motor 62 is fixed on support 10, and servomotor 62 drives cross lead screw 61 to carry out back rotation.

The course of work that the present embodiment is described in detail is as follows：

During work, plate to be cut is placed on front rack 71, first, and a lateral margin of plate is pressed from both sides by clamping device 30 Tightly, then, longitudinal driving mechanism 40 drives the longitudinally-moving of clamping device 30 so that plate moves into cutting head 50, when being moved into Behind position, the detent mechanism 20 carries out pushing positioning to plate, and then, the servomotor 55 of the first servomotor 54 and second is distinguished Upper rotating spindle 503 and lower rotating spindle 504 is driven to rotate by belt 505 so that upper slitter 501 and lower knife 502 are rotated, together When, the first drive mechanism 56 and the second drive mechanism 57 drive sliding seat 52 and lower sliding seat 53 up and down respectively so that The upper slitter 501 of rotation and lower knife 502 are contacted and cut with the upper and lower surface of plate respectively, during cutting, laterally Drive mechanism 60 drives cutting head 50 laterally movable, so that the upper and lower surface in plate is respectively formed a V-type extended laterally Groove.

Design focal point of the present utility model is：Each mechanism is utilized by coordinating, to carry out Automatic-clamping to sheet material, move The process such as send, position and cut, can be in the controllable V-groove of one depth of upper and lower surface formation of sheet material, cutting accuracy is high, without people Work coordinates, and effectively reduces intensity of workers greatly, and substantially increases production efficiency, Improving The Quality of Products, safety system Number is high.

Technical principle of the present utility model is described above in association with specific embodiment.These descriptions are intended merely to explain this reality With new principle, and the limitation to the utility model protection domain can not be construed in any way.Based on explanation herein, Those skilled in the art, which would not require any inventive effort, can associate other embodiments of the present utility model, These modes are fallen within protection domain of the present utility model.

Claims (10)

1. a kind of automatic V cutting mills for PCB processing and formings, it is characterised in that：Including organic block, detent mechanism, clamping device, Longitudinal driving mechanism, cutting head and transversal driving mechanism；

Front rack and tail-bracket are provided with the support；

The detent mechanism is arranged on support and positioned between front rack and tail-bracket, detent mechanism include lower location-plate, on Location-plate and vertical drive mechanism, the lower location-plate are fixed on support, and it is lower fixed that the upper location-plate can be arranged at up and downly The surface of position plate, the vertical drive mechanism is arranged on support, vertical drive mechanism drive upper location-plate up and down and with Lower positioning plate closing or separation；

The clamping device longitudinally actively can be arranged on support back and forth, and clamping device is located at the lower section of front rack, clamping device With multipair clamping jaw, the multipair clamping jaw lateral separation is arranged and is exposed independent from the upper surface of front rack；The longitudinal driving mechanism is set In on support, longitudinal driving mechanism drives clamping device longitudinal direction movable back and forth；

The cutting head can transverse reciprocating be actively arranged on support and by the rear side of detent mechanism, cutting head has Upper slitter and lower knife, upper slitter are located at the front side top of tail-bracket, and lower cutter spacing is below the front side of tail-bracket；The transversal driving mechanism is set It is placed on support, transversal driving mechanism drives the activity of cutting head transverse reciprocating.

2. it is used for the automatic V cutting mills of PCB processing and formings as claimed in claim 1, it is characterised in that：The vertical drive mechanism For two cylinders, two cylinders are both secured on support, and the piston rod of two cylinders is fixedly connected with the two ends of upper location-plate respectively.

3. it is used for the automatic V cutting mills of PCB processing and formings as claimed in claim 1, it is characterised in that：The top of the lower location-plate End face and the bottom face of upper location-plate are respectively and fixedly provided with multiple block rubbers, and the plurality of block rubber is laterally arranged.

4. it is used for the automatic V cutting mills of PCB processing and formings as claimed in claim 1, it is characterised in that：The clamping device includes There are longitudinally-moving seat, rotating shaft, at least multiple first cylinders, one second cylinder and foregoing multipair clamping jaw；The rotating shaft is rotationally It is installed on longitudinally-moving seat, rotating shaft is extended laterally；The arrangement of the plurality of first cylinder lateral separation, multiple first cylinders uniformly with Longitudinally-moving seat is hinged；One end of second cylinder is hinged with longitudinally-moving seat, and the other end and the rotating shaft of the second cylinder are hinged, the Two cylinders drive rotating shaft to carry out back rotation；Every a pair of clamping jaws include upper gripper jaw and lower clamping jaw, and the upper gripper jaw is rotationally arranged It is hinged in rotating shaft and with the piston rod of the first corresponding cylinder, the first cylinder drives upper gripper jaw to swing up and down, the lower clamping jaw set Swung up and down in rotating shaft with axis of rotation.

5. it is used for the automatic V cutting mills of PCB processing and formings as claimed in claim 4, it is characterised in that：Every a pair of clamping jaws are equal Include a foregoing upper gripper jaw and two foregoing lower clamping jaws, twice clamping jaws are located at the both sides of upper gripper jaw respectively.

6. it is used for the automatic V cutting mills of PCB processing and formings as claimed in claim 4, it is characterised in that：The longitudinal driving mechanism Include longitudinal screw mandrel and servomotor, the longitudinal screw mandrel is rotatably installed on support, longitudinal screw mandrel Longitudinal extending, and it is vertical It is screwed together to screw mandrel with longitudinally-moving seat, the servomotor is fixed on support, servomotor drives longitudinal screw mandrel to turn round It is dynamic.

7. it is used for the automatic V cutting mills of PCB processing and formings as claimed in claim 1, it is characterised in that：The cutting head includes There are laterally movable seat, upper sliding seat, lower sliding seat, the first servomotor, the second servomotor, the first drive mechanism and second to drive Motivation structure；The laterally movable seat takes the shape of the letter U, and it is open forward, and sliding seat and lower sliding seat are installed on horizontal stroke up and downly on this To in sliding seat, upper sliding seat and lower sliding seat are located above and below opening respectively, are provided with and turn in sliding seat on this Dynamic main shaft, the front end that foregoing upper slitter is fixed on rotating spindle is rotated with upper rotating spindle, is provided with down and is turned in the lower sliding seat Dynamic main shaft, the front end that foregoing lower knife is fixed on lower rotating spindle is rotated with lower rotating spindle；First servomotor and second is watched Take motor to be individually fixed in sliding seat and lower sliding seat, the first servomotor and the second servomotor pass through belt band respectively Dynamic upper rotating spindle and lower rotating spindle are rotated；First drive mechanism and the second drive mechanism are respectively arranged at laterally movable seat Top and bottom, the first drive mechanism and the second drive mechanism drive sliding seat and lower sliding seat up and down respectively.

8. it is used for the automatic V cutting mills of PCB processing and formings as claimed in claim 7, it is characterised in that：First drive mechanism Include the first screw mandrel and the 3rd servomotor, first screw mandrel is rotatably installed on laterally movable seat, the first screw mandrel is erected To extending and being screwed together with upper sliding seat, the 3rd servomotor is fixed on the top of laterally movable seat, the 3rd servomotor The first screw mandrel is driven to carry out back rotation.

9. it is used for the automatic V cutting mills of PCB processing and formings as claimed in claim 8, it is characterised in that：Second drive mechanism Include the second screw mandrel and the 4th servomotor, second screw mandrel is rotatably installed on laterally movable seat, the second screw mandrel is erected To extending and being screwed together with lower sliding seat, the 4th servomotor is fixed on the bottom of laterally movable seat, the 4th servomotor The second screw mandrel is driven to carry out back rotation.

10. it is used for the automatic V cutting mills of PCB processing and formings as claimed in claim 7, it is characterised in that：The laterally driven machine Structure includes cross lead screw and servomotor, and the cross lead screw is rotatably installed on support, and cross lead screw is extended laterally, and Cross lead screw is screwed together with laterally movable seat, and the servomotor is fixed on support, and servomotor drives cross lead screw back and forth Rotate.