CN106079996A - A kind of automatic feeding type high precision numerical control engraving machine - Google Patents

Abstract

The invention discloses a kind of automatic feeding type high precision numerical control engraving machine, the frame that including the board for carrying carved object, is located on board, the rotating rotating disk be located on board, multiple circumference be uniformly located on rotating disk for clamping the clamp assemblies of workpiece and for the loading assemblies of auxiliary work-piece feeding, also including the X-axis walking mechanism laterally walked along frame being located in frame and be located in X-axis walking mechanism the Z axis walking mechanism of vertical walking, engraving machine main shaft is fixed in X-axis walking mechanism.Compared with prior art, the invention have the benefit that and be provided with rotating disk, the clamp assemblies being located on rotating disk and loading assemblies, it is possible to achieve multistation is carved, at a station engraving simultaneously, workman can realize loading and unloading on other station, saves man-hour, improves work efficiency.Employing fixed column type designs, and machining accuracy is high, it is not necessary to material is all lifted just can feeding, be greatly saved time and human cost, raising production efficiency.

Description

A kind of automatic feeding type high precision numerical control engraving machine

Technical field

The present invention relates to Digit Control Machine Tool process equipment field, be specifically related to a kind of automatic feeding type high precision numerical control engraving Machine.

Background technology

Engraving machine be one be widely used in carpenter's industry, advertising, technique industry, mould industry, building industry, press-packaging industry, The general machinery equipment of adnornment industry, can carve woodwork plate, density board, acrylic organic plates, PVC plate, Hibisci Mutabilis plate, double-colored plate, big The multiple unlike materials such as Gypsum Fibrosum, jade, PLASTIC LAMINATED, rubber slab, glass.

Before carving, need sheet material to be carved to be raised up on the panel of engraving machine by manpower, and By hold down gag, material is pressed on panel afterwards, then by moving freely of milling cutter, material is carved.

Elapsed time is all compared when positioning and clamping.By fixture, workpiece to be processed need to be clamped man-hour adding, existing Some fixtures every time can only one workpiece of clamping, need loading and unloading frequently and start and stop equipment after each completion of processing, both affected Working (machining) efficiency is lost time again.It is, therefore, desirable to provide a kind of carving machine with multiple working positions solves the problem that prior art exists.

Summary of the invention

The invention aims to overcome deficiency of the prior art, it is provided that a kind of consuming strength is less, clamping is stable, Improve production efficiency and the automatic feeding type high precision numerical control engraving machine of machining accuracy.

For solving above-mentioned technical problem, the technical scheme is that

A kind of automatic feeding type high precision numerical control engraving machine, including the board for carrying carved object, is located on board The clamp assemblies for clamping workpiece that frame, the rotating rotating disk be located on board, multiple circumference are uniformly located on rotating disk And the loading assemblies for auxiliary work-piece feeding, also include the X-axis walking mechanism laterally walked along frame being located in frame And it is located in X-axis walking mechanism the vertical Z axis walking mechanism walked, engraving machine main shaft is fixed in X-axis walking mechanism, described Clamp assemblies includes right slide that left slide and left slide be correspondingly arranged, card article, fixture block, described left slide and right slide top Offering chute in the same direction, described card article is slidably located in the chute of left slide and right slide top simultaneously, described fixture block The chute end being located on right slide, when described card article slide to the right slides, the front end of described card article, fixture block front end and chute Sidewall forms clamping position；

Described loading assemblies includes feeding cylinder, compact heap, brake block and stretching spring, and described brake block is located at card article top, Described stretching spring is provided with two groups, is respectively arranged on card article both sides, and described stretching spring one end and card article side connect, the other end and Right slide connects, and described compact heap is the U-shape structure part being made up of upper arm and underarm, and the tail end of described underarm is articulated with the first hinge On chain seat, described first hinge seat is located on base, and described feeding cylinder is arranged at the side of rotating disk, institute by the second hinge seat The head end stating the piston rod of feeding cylinder and described underarm connects, during the piston rod jack-up of described feeding cylinder, and the bottom of upper arm Can conflict with the top of card article, the side of upper arm can be conflicted with the side of brake block.

First rotating disk realizes rotating, on the brake block on some clamp assemblies will arrive under driven by motor effect When material module position, the piston rod jack-up of feeding cylinder, upper arm is put down, the brake block of upper arm and this clamp assemblies connects Touch so that card article is away from fixture block, so that clamping position has space workpiece to put into, after workpiece is put into, described feeding gas Cylinder piston rod retraction, upper arm tilt, discord brake block contact, card article stretching spring restoring force effect under to fixture block one end Apply pressure, the workpiece on clamping position is fixed, after this clamp assemblies having clamped workpiece arrives engraving station, at this time Next clamp assemblies just arrives loading assemblies position, and workman is at last workpiece engraving simultaneously, it is achieved the blanking of next workpiece And feeding, improve working (machining) efficiency, decrease the start-stop time of equipment.

Preferably, described X-axis walking mechanism includes that the X being located on the tap of frame to screw mandrel and is located at X to screw mandrel both sides X to slide rail, also include driving X to the X of screw mandrel to drive motor, described X to screw mandrel by feed screw nut connect have planker, Described Z axis walking mechanism is fixed on described planker.

Preferably, described Z axis walking mechanism includes the Z-direction screw mandrel being located on planker and the Z-direction being located at Z-direction screw mandrel both sides is slided Rail, also includes and drives the Z-direction of Z-direction screw mandrel to drive motor, and described Z-direction screw mandrel is connected by feed screw nut wing plate.

Preferably, also including rectangle aluminium sheet, described aluminium sheet is fixed on wing plate, and described aluminium sheet is along between X-direction Every being provided with some installing holes, engraving machine main shaft is detachably secured on aluminium sheet by installing hole.

Engraving machine main shaft is detachably secured on aluminium sheet by installing hole, so can facilitate according to sheet material size and technique Require increase and decrease engraving machine main shaft, time saving and energy saving.

Preferably, described Z axis walking mechanism also includes two limiting cylinders being vertically installed on planker, described spacing The piston rod of cylinder and the fixing connection of wing plate.

So can accurately control the length feed of engraving machine main shaft, improve engraving precision.

Compared with prior art, the invention have the benefit that and be provided with rotating disk, the clamp assemblies being located on rotating disk and feeding Assembly, it is possible to achieve multistation is carved, at a station engraving simultaneously, workman can realize loading and unloading on other station, saves In man-hour, improve work efficiency.Employing fixed column type designs, and machining accuracy is high, it is not necessary to material is all lifted just can feeding, significantly save Make an appointment and human cost, improve production efficiency.

Accompanying drawing explanation

Fig. 1 is the front view of the present invention.

Fig. 2 is the top view of the present invention.

In accompanying drawing: 10, board；20, frame；30, rotating disk；40, clamp assemblies；41, left slide；42, right slide；43, card Bar；44, fixture block；45, chute；50, loading assemblies；51, feeding cylinder；52, compact heap；521, upper arm；522, underarm；53, system Motion block；54, stretching spring；55, the first hinge seat；56, the second hinge seat；60, X-axis walking mechanism；61, X is to screw mandrel；62, X to Slide rail；63, X is to driving motor；64, planker；70, Z axis walking mechanism；71, Z-direction screw mandrel；72, Z-direction slide rail；73, Z-direction drives electricity Machine；74, wing plate；75, limiting cylinder；76, aluminium sheet；80, engraving machine main shaft.

Detailed description of the invention

By making the architectural feature to the present invention and effect of being reached have a better understanding and awareness, in order to preferably Embodiment and accompanying drawing coordinate detailed description, are described as follows:

A kind of automatic feeding type high precision numerical control engraving machine, including the board 10 for carrying carved object, is located at board 10 On frame 20, the rotating rotating disk 30 be located on board 10, multiple circumference be uniformly located on rotating disk 30 for clamping work The clamp assemblies 40 of part and the loading assemblies 50 for auxiliary work-piece feeding, also include being located in frame 20 is horizontal along frame 20 To the X-axis walking mechanism 60 walked and the Z axis walking mechanism 70 being located in X-axis walking mechanism 60 vertical walking, carve owner Axle 80 is fixed in X-axis walking mechanism 60, and described clamp assemblies 40 includes the right cunning that left slide 41 is correspondingly arranged with left slide 41 Seat 42, card article 43, fixture block 44, described left slide 41 and right slide 42 top offer chute 45 in the same direction, described card article 43 with Time be slidably located in the chute 45 at left slide 41 and right slide 42 top, described fixture block 44 is located at the chute on right slide 42 45 ends, when slide 42 slides described card article 43 to the right, the front end of described card article 43, fixture block 44 front end and chute 45 sidewall shape Become clamping position；

Described loading assemblies 50 includes feeding cylinder 51, compact heap 52, brake block 53 and stretching spring 54, and described brake block 53 sets In card article 43 top, described stretching spring 54 is provided with two groups, is respectively arranged on card article 43 both sides, described stretching spring 54 one end and card Bar 43 side connects, and the other end and right slide 42 connect, and described compact heap 52 is the U-shaped knot being made up of upper arm 521 and underarm 522 Component, the tail end of described underarm 522 is articulated with on the first hinge seat 55, and described first hinge seat 55 is located on base, described on Material cylinder 51 passes through the second hinge seat 56 and is arranged at the side of rotating disk 30, the piston rod of described feeding cylinder 51 and described underarm The head end of 522 connects, during the piston rod jack-up of described feeding cylinder 51, the bottom of upper arm 521 can and the top of card article 43 conflict, The side of upper arm 521 can be conflicted with the side of brake block 53.

First rotating disk 30 realizes rotating, when the brake block 53 on some clamp assemblies 40 will under driven by motor effect When arriving loading assemblies 50 position, the piston rod jack-up of feeding cylinder 51, upper arm 521 is put down, upper arm 521 and this clamping The brake block 53 of assembly 40 contacts so that card article 43 is away from fixture block 44, so that clamping position has space workpiece to put into, when After workpiece is put into, the piston rod retraction of described feeding cylinder 51, upper arm 521 tilts, and discord brake block 53 contacts, and card article 43 is drawing Stretch and under the restoring force effect of spring 54, apply pressure to fixture block 44 one end, the workpiece on clamping position is fixed, this clamping After the clamp assemblies 40 of workpiece arrives engraving station, at this time next clamp assemblies 40 just arrives loading assemblies 50 position, Workman is at last workpiece engraving simultaneously, it is achieved the blanking of next workpiece and feeding, improves working (machining) efficiency, decreases opening of equipment Between the stopping time.

Described X-axis walking mechanism 60 includes that the X being located on the tap of frame 20 to screw mandrel 61 and is located at X to screw mandrel 61 both sides X to slide rail 62, also include driving X to the X of screw mandrel 61 to driving motor 63, described X is to screw mandrel 61 by feed screw nut even Being connected to planker 64, described Z axis walking mechanism 70 is fixed on described planker 64.

Described Z axis walking mechanism 70 includes the Z-direction screw mandrel 71 being located on planker 64 and the Z-direction being located at Z-direction screw mandrel 71 both sides Slide rail 72, also includes and drives the Z-direction of Z-direction screw mandrel 71 to drive motor 73, and described Z-direction screw mandrel 71 is connected by feed screw nut the wing Plate 74.

Also including rectangle aluminium sheet 76, described aluminium sheet 76 is fixed on wing plate 74, and described aluminium sheet 76 is along between X-direction Every being provided with some installing holes, engraving machine main shaft 80 is detachably secured on aluminium sheet 76 by installing hole.

Described Z axis walking mechanism 70 also includes two limiting cylinders being vertically installed on planker 64 75, described spacing The piston rod of cylinder 75 and the fixing connection of wing plate 74.

The ultimate principle of the present invention, principal character and advantages of the present invention have more than been shown and described.The technology of the industry The personnel simply present invention it should be appreciated that the present invention is not restricted to the described embodiments, described in above-described embodiment and description Principle, the present invention also has various changes and modifications without departing from the spirit and scope of the present invention, these change and Improvement both falls within the range of claimed invention.The protection domain of application claims by appending claims and Equivalent defines.

Claims (5)

1. an automatic feeding type high precision numerical control engraving machine, including the board (10) for carrying carved object, is located at machine Frame (20) on platform (10), the rotating rotating disk (30) be located on board (10), multiple circumference are uniformly located at rotating disk (30) On for clamping the clamp assemblies (40) of workpiece and for the loading assemblies (50) of auxiliary work-piece feeding, also include being located at machine The X-axis walking mechanism (60) along frame (20) laterally walking on frame (20) and be located at the upper vertical row of X-axis walking mechanism (60) The Z axis walking mechanism (70) walked, engraving machine main shaft (80) is fixed in X-axis walking mechanism (60), it is characterised in that: described clamping Assembly (40) includes right slide (42) that left slide (41) and left slide (41) be correspondingly arranged, card article (43), fixture block (44), institute Stating left slide (41) and right slide (42) top offers chute (45) in the same direction, described card article (43) is slidably located at simultaneously In the chute (45) at left slide (41) and right slide (42) top, described fixture block (44) is located at the chute (45) on right slide (42) End, when described card article (43) slide to the right (42) slides, the front end of described card article (43), fixture block (44) front end and chute (45) sidewall forms clamping position；

Described loading assemblies (50) includes feeding cylinder (51), compact heap (52), brake block (53) and stretching spring (54), described Brake block (53) is located at card article (43) top, and described stretching spring (54) is provided with two groups, is respectively arranged on card article (43) both sides, described Stretching spring (54) one end and card article (43) side connect, and the other end and right slide (42) connect, and described compact heap (52) is served as reasons The U-shape structure part that upper arm (521) and underarm (522) form, the tail end of described underarm (522) is articulated with the first hinge seat (55) On, described first hinge seat (55) is located on base, and described feeding cylinder (51) is arranged at rotating disk by the second hinge seat (56) (30) side, the piston rod of described feeding cylinder (51) and the head end of described underarm (522) connect, described feeding cylinder (51) Piston rod jack-up time, the bottom of upper arm (521) can and the top of card article (43) conflict, the side energy of upper arm (521) and braking The side of block (53) is conflicted.

Automatic feeding type high precision numerical control engraving machine the most according to claim 1, it is characterised in that: described X-axis vehicle with walking machine Structure (60) includes that the X being located on the tap of frame (20) to screw mandrel (61) and is located at the X X to screw mandrel (61) both sides to slide rail (62), also including driving X to the X of screw mandrel (61) to driving motor (63), described X is connected by feed screw nut to screw mandrel (61) Planker (64), described Z axis walking mechanism (70) is had to be fixed on described planker (64).

Automatic feeding type high precision numerical control engraving machine the most according to claim 2, it is characterised in that: described Z axis vehicle with walking machine Structure (70) includes the Z-direction screw mandrel (71) being located on planker (64) and is located at the Z-direction slide rail (72) of Z-direction screw mandrel (71) both sides, also wraps Including and drive the Z-direction of Z-direction screw mandrel (71) to drive motor (73), described Z-direction screw mandrel (71) is connected by feed screw nut wing plate (74).

Automatic feeding type high precision numerical control engraving machine the most according to claim 3, it is characterised in that: also include rectangle Aluminium sheet (76), described aluminium sheet (76) is fixed on wing plate (74), and described aluminium sheet (76) is interval with some installations along X-direction Hole, engraving machine main shaft (80) is detachably secured on aluminium sheet (76) by installing hole.

Automatic feeding type high precision numerical control engraving machine the most according to claim 4, it is characterised in that: described Z axis vehicle with walking machine Structure (70) also includes two limiting cylinders (75) being vertically installed on planker (64), the piston rod of described limiting cylinder (75) Connection fixing with wing plate (74).