Summary of the invention
The purpose of this invention is to provide a kind of industrial engineering head that is used for computer cutting and proofing that can dismounting exchanges, compared this head with former head and have high, the characteristics easily of upgrading in the future of small volume structure compactness, precision.
For realizing above purpose; Technical scheme of the present invention provides a kind of industrial engineering head that is used for computer cutting and proofing; It is characterized in that; Comprise main dress plate, synchronizing wheel assembly, gripper shoe, presser foot component, back installing plate, rotary sleeve assembly, tool heads latch assembly, metal marker assembly, pinch roller assembly, vibrating blade assembly, cylinder assembly and servomotor assembly; Main installing plate is vertical on the installing plate of back through the gripper shoe of both sides, and through vertical dismountable metal marker assembly, pinch roller assembly and the vibrating blade assembly of being provided with the tool heads latch assembly of rotary sleeve assembly, metal marker assembly, pinch roller assembly and vibrating blade assembly are parallel to each other on main installing plate; Bottom at metal marker assembly, pinch roller assembly and vibrating blade assembly is respectively equipped with presser foot component; Rear side at metal marker assembly, pinch roller assembly and vibrating blade assembly is provided with cylinder assembly, and the servomotor assembly is connected with the rotary sleeve assembly of metal marker assembly, pinch roller assembly and vibrating blade assembly respectively through belt, and the rotary sleeve assembly links to each other with cylinder assembly; The top of installing plate is provided with the Z spindle motor in the back; Screw mandrel connects with the Z spindle motor mutually, on screw mandrel, is with main installing plate linear bearing, and main installing plate linear bearing is located on the main installing plate.
Further, said tool heads latch assembly comprises portable plate, is provided with the locking switch seat at the side of portable plate, and locking switch and latch are located at the both sides of locking switch seat respectively.
The present invention is through the rotation of a servomotor; Driving three tool heads latch assemblies through belt pulley rotates; Accomplish the go to action of tool heads; Thereby realize the spinning movement on metal marker assembly, pinch roller assembly and the vibrating blade assembly C direction of principal axis, the tool heads latch assembly adopts unified standard, has both realized being simple and easy to dismounting and simple and direct generous attractive in appearance.Adopt the instruments such as pen, cutter, pinch roller of unified standard, can arbitrarily be installed in any tool heads to put, make the very convenient and hommization of loaded down with trivial details at ordinary times charge and discharge operations.
Advantage of the present invention is for convenience detachly to exchange.
The specific embodiment
Below in conjunction with accompanying drawing and embodiment the present invention is described further.
Embodiment
Shown in Figure 1A and Figure 1B; Be a kind of industrial engineering head structural representation that is used for computer cutting and proofing, described a kind of industrial engineering head that is used for computer cutting and proofing comprises main installing plate 1, synchronizing wheel assembly 2, gripper shoe 3, presser foot component 4, back installing plate 5, rotary sleeve assembly 6, tool heads latch assembly 7, metal marker assembly 8, pinch roller assembly 9, vibrating blade assembly 10, cylinder assembly 11 and servomotor assembly 12.
Main installing plate 1 is vertically mounted on the installing plate 5 of back through the gripper shoe 3 of both sides; On main installing plate 1 through the dismountable metal marker assembly of rotary sleeve assembly 6 and the 7 vertical installations of tool heads latch assembly 8, pinch roller assembly 9 and vibrating blade assembly 10; Metal marker assembly 8, pinch roller assembly 9 and vibrating blade assembly 10 are parallel to each other; Lower end at metal marker assembly 8, pinch roller assembly 9 and vibrating blade assembly 10 is respectively equipped with presser foot component 4; Rear side at metal marker assembly 8, pinch roller assembly 9 and vibrating blade assembly 10 is provided with cylinder assembly 11, and servomotor assembly 12 is connected with the rotary sleeve assembly 6 of metal marker assembly 8, pinch roller assembly 9 and vibrating blade assembly 10 respectively through belt, and rotary sleeve assembly 6 links to each other with cylinder assembly 11; The top of installing plate 5 is provided with Z spindle motor 43 in the back; Screw mandrel 41 connects with Z spindle motor 43 mutually, on screw mandrel 41, is with main installing plate linear bearing 42, and main installing plate linear bearing 42 is located on the main installing plate 1.
As shown in Figure 2, be metal marker modular construction sketch map, described metal marker assembly 8 is made up of clutch shaft bearing 13, first rotating shaft 14, first clamping screw 15, metal marker cover 16 and metal marker 17.
Outside an end of first rotating shaft 14, be with clutch shaft bearing 13; In the other end of first rotating shaft 14, be provided with metal marker cover 16; The bottom of first clamping screw 15 is located at first rotating shaft, the 14 outer clutch shaft bearings 13 that also pass through and is connected with first clamping screw 15; The middle part of first clamping screw 15 and top are located in first rotating shaft 14, and the top of first clamping screw 15 and metal marker cover 16 is connected, and metal marker 17 is connected with first rotating shaft 14 through metal marker cover 16.
As shown in Figure 3, be the pinch roller assembly structural representation, described pinch roller assembly 9 is made up of second rotating shaft 19, second clamping screw 20, pinch roller support 21, wheel pressing shaft 22, pinch roller 23 and pinch roller support casing 24.Second rotating shaft, 19 1 ends are connected with the bottom of second clamping screw 20 through second bearing 18; The middle part of second clamping screw 20 and top are located in second rotating shaft 19; The other end of second rotating shaft 19 is connected with wheel pressing shaft 22 through pinch roller support casing 24; Wheel pressing shaft 22 is connected with pinch roller 23 through pinch roller support 21, and the top of second clamping screw 20 is connected with pinch roller support 21.
As shown in Figure 4, be vibrating blade modular construction sketch map, described vibrating blade assembly 10 is made up of eccentric shaft 25, the 3rd rotating shaft 26 and rolling spline 27.
Eccentric shaft 25 1 ends are connected with servomotor assembly 12 through adapter sleeve, and eccentric shaft 25 other ends vertically are connected with the 3rd rotating shaft 26 through bearing, and rolling spline 27 is located at outside the 3rd rotating shaft 26 through adapter sleeve.Drive eccentric shaft 25 through servomotor assembly 12, thereby it is reciprocating to drive rolling spline 27, reaches the severing purpose to material.
As shown in Figure 5, be rotary sleeve modular construction sketch map, described rotary sleeve assembly 6 is made up of rotary sleeve 28, linear bearing 29, synchronous wheel seat 30 and guide pillar 31.Outside rotary sleeve 28, be with linear bearing 29, outside linear bearing 29, be with synchronizing wheel seat 30, main installing plate 1 is located on the synchronous wheel seat 30, and guide pillar 31 is located on the synchronous wheel seat 30, and guide pillar 31 is connected with presser foot component 4.During work; Servomotor assembly 12 is done the rotation synchronously of 360 degree through belt driven rotary sleeve assembly 6; Promptly on the output shaft of servomotor assembly 12, belt pulley is installed, belt is enclosed within respectively on belt pulley and the rotary sleeve 28, and belt pulley rotates the back and drives whole rotary sleeve assembly 6 rotations.
Shown in Fig. 6 A and Fig. 6 B, be tool heads latch assembly structural representation, said tool heads latch assembly 7 comprises portable plate 33, is provided with locking switch seat 32 at the side of portable plate 33, locking switch 31 and latch 34 are located at the both sides of locking switch seat 32 respectively.
During erecting tools, push away instrument downwards, push in the rotary sleeve assembly 6; Press the locking switch seat 32 of the protruding block markers align latch assembly on the instrument; Press locking switch 31 then, continue to push away instrument downwards, make the protruding block mark be positioned at the below of locking switch 31; Unclamp locking switch 31 then, thereby instrument is lockable.In like manner, when needs take off instrument, press locking switch 31, vertically upwards draw instrument, instrument is pulled out in the rotary sleeve assembly 6, unclamp locking switch 31 then, thereby instrument is removed.
Be furnished with tool heads latch assembly 7 on the rotary sleeve assembly 6, tool heads latch assembly 7 is used for the locking tool heads, can free metal marker assembly 8, pinch roller assembly 9 and the vibrating blade assembly 10 of arbitrarily changing standard fitting.Because each rotary sleeve assembly 6 links to each other with cylinder assembly 11, therefore control the upper and lower motion of rotary sleeve assembly 6 through forward and reverse ventilation of cylinder assembly 11.
Be equipped with linear bearing 29 in the rotary sleeve assembly 6, make metal marker assembly 8, pinch roller assembly 9 and vibrating blade assembly 10 resistance force diminishes and can not rocking in moving up and down, effectively guarantee the error amount of cutting accuracy 0.01mm.
Servomotor assembly 12 per minutes can reach 12000 to be changeed; Vibrating blade assembly 10 is installed the de-noising mixer; Noise reduces greatly when making work; Be less than 50 decibels, blade of different nature can be used to cut the object of different material, generally is applicable to the cardboard, PVC plate, corrugated board of cutting 1-15mm thickness etc.Thereby pinch roller assembly 9 can be realized the extruding different objects through the pinch roller of the different number of degrees of replacing, and to reach needed pressure effect, metal marker assembly 8 can reach drafting different lines and mark through changing different pens.
The course of work of the present invention is: Z spindle motor 43 drives screw mandrel 41 knee-actions, thereby screw mandrel 41 rotates the whole knee-action that drives main installing plate 1 and make head.Each bit assembly all has the cylinder assembly 11 of oneself.When being failure to actuate at ordinary times, metal marker assembly 8, the bottom of pinch roller assembly 9 and vibrating blade assembly 10 is parallel, when selected, then selected metal marker assembly 8, pinch roller assembly 9 or vibrating blade assembly 10 are owing to cylinder 11 ventilations are depressed.The lifting of head can't make cylinder 11 actions, and cylinder 11 just moves when having only the metal marker of replacing assembly 8, pinch roller assembly 9 or vibrating blade assembly 10.Lifting all of head drives screw mandrels 41 by Z spindle motor 43 and realizes at ordinary times.Servomotor assembly 12 can be crossed 6 rotations of belt driven rotary sleeve assembly, thereby changes the metal marker assembly of installing in the rotary sleeve assembly 68, pinch roller assembly 9, the direction of vibrating blade assembly 10, the go to action of completion.