CN205342230U - Asynchronous cutting system of coaxial double -end - Google Patents

Abstract

The utility model discloses an asynchronous cutting system of coaxial double -end, including cloth frame, dynamic sending machine and cutting mechanism, dynamic sending machine links up between cloth frame and cutting mechanism's feed inlet, and cutting mechanism's discharge gate is provided with receiving agencies, cutting mechanism includes conveyer belt and laser cutting device, and this conveyer belt sets up between feed inlet and discharge gate, with dynamic sending machine's export linking, this laser cutting device sets up in the top of conveyer belt to including a X axle subassembly, two Y axle laser cutting subassemblies and laser generator, these two Y axle laser cutting unit mounts are on this X axle subassembly, and laser generator conveys Y axle laser cutting subassembly with the laser that generates, and these two Y axle laser cutting subassemblies are driven by independent power device respectively. The utility model discloses set up two laser cutting heads and carry out independent cutting simultaneously in that same X is epaxial, saved clipping time and cost, improved cutting efficiency.

Description

A kind of coaxial asynchronous diced system of double end

Technical field

This utility model relates to cloth cutting equipment technical field, particularly a kind of coaxial asynchronous diced system of double end.

Background technology

Current nonmetallic materials cutting machine is mainly cutter cutting machine, distinguishes from control mode, is divided into numerical control cutting machine and hand-powered cutter.Numerical control cutting machine drives machine tool motion with digital process exactly, and during along with machine tool motion, object is cut by the cutting tool worn at random.The cutting machine of this electromechanical integration is just referred to as numerical control cutting machine.Traditional cutting machine cutting speed is slow, and production efficiency is low.And the energy that cut discharges when being exactly by laser beam irradiation to surface of the work is to make workpiece melt and to evaporate, to reach cutting and the purpose of engraving, there is precision height, cutting is quickly, being not limited to cutting pattern restriction, Automatic Typesetting saves material, and otch smooths, the features such as processing cost is low, will improve or be replaced in traditional metal cutting processes equipment gradually.Traditional cloth cutting equipment is all the composition structure adopting single shaft list cutting head, and function singleness is inefficient.

Utility model content

The technical problems to be solved in the utility model is for above-mentioned the deficiencies in the prior art, a kind of coaxial asynchronous diced system of double end is provided, same X-axis arranges two laser cutting heads and carries out independent cutting simultaneously, save clipping time and cost, improve cutting efficiency.

For solving above-mentioned technical problem, technical solution adopted in the utility model is: a kind of coaxial asynchronous diced system of double end, including cloth bracket, automatic feed mechanism and cutting mechanism, automatic feed mechanism is connected between described cloth bracket and the charging aperture of cutting mechanism, and the discharging opening of described cutting mechanism is provided with receiving mechanism；Described cutting mechanism includes conveyer belt and laser cutting device, and this conveyer belt is arranged between described charging aperture and discharging opening, and the outlet with described automatic feed mechanism is connected；This laser cutting device is arranged at the top of described conveyer belt, and include an X-axis assembly, two Y-axis cut assemblies and laser generator, these two Y-axis cut assemblies are installed on this X-axis assembly, the laser generated is delivered to Y-axis cut assembly by laser generator, and these two Y-axis cut assemblies are driven by independent power set respectively.

In technique scheme, described X-axis assembly includes X-axis installing rack, X-axis drive lead screw and X-axis feed screw nut, and described X-axis drive lead screw is fixed on X-axis installing rack.

In technique scheme, the upper surface at described X-axis installing rack is provided with the upper rail being positioned at the described X-axis drive lead screw left and right sides, and the side along described X-axis installing rack is provided with side guide.

In technique scheme, described Y-axis cut assembly includes X-axis driving device, Y-axis driving device, Y-axis drive lead screw, Y-axis feed screw nut, laser cutting head；Described X-axis driving device is connected with described X-axis screw nut driving by Timing Belt, synchronizing wheel, and described synchronizing wheel is fixed on described X-axis feed screw nut；Described Y-axis driving device and Y-axis drive lead screw are in transmission connection, and described laser cutting head is installed on described Y-axis feed screw nut, and described Y-axis feed screw nut is installed on described Y-axis drive lead screw.

In technique scheme, being provided with a laser conveyer, including some laser mirrors, these some laser mirrors form light path, the laser generated by laser generator delivers to Y-axis cut assembly.

In technique scheme, between described cut assembly and laser mirror, it is provided with light path protective cover.

In technique scheme, it is provided with a projector mechanism, by graphic pattern projection design on fabric surface on described conveyer belt.

In technique scheme, two described Y-axis cut assemblies are provided with the first crashproof induction apparatus that both distances are sensed, are both provided with respectively at the two ends, left and right of described X-axis assembly X-axis assembly end and the second crashproof induction apparatus of the spacing of Y-axis cut assembly, the 3rd crashproof induction apparatus.

The beneficial effects of the utility model are: overall structure is simple and compact, set the Y-axis cut assembly that can individually operate in same X-axis, greatly increase efficiency and saving time, the cost of cloth cutting.And stability is strong, and long service life, maintenance difficulty is low, and automanual cutting saves manpower and materials.

Accompanying drawing explanation

Fig. 1 is overall structure schematic diagram of the present utility model；

Fig. 2 is the overall structure schematic diagram of another angle of this utility model；

Fig. 3 is the structural representation of laser cutting device of the present utility model.

In figure, 1, cloth bracket；2, automatic feed mechanism；3, cutting mechanism；4, rewinding flat board；5, charging aperture；6, discharging opening；7, device is controlled；8, housing；9, crashproof induction apparatus；21, pressure roller；31, conveyer belt；32, laser cutting device；33, projector mechanism；321, X-axis assembly；322, Y-axis cut assembly；323, laser conveyer；324, light path protective cover；3211, X-axis installing rack；3212, X-axis drive lead screw；3213, X-axis feed screw nut；3214, upper rail；3215, side guide；3221, X-axis driving device；3222, Y-axis driving device；3223, Y-axis drive lead screw；3224, Y-axis feed screw nut；3225, laser cutting head；3226, Timing Belt；3227, synchronizing wheel；3231, laser mirror；331, portal frame；332, projector；81, door；82, form.

Detailed description of the invention

Below in conjunction with accompanying drawing, this utility model is described in further detail.

As shown in Figure 1, 2, a kind of coaxial asynchronous diced system of double end, including cloth bracket 1, automatic feed mechanism 2 and cutting mechanism 3, automatic feed mechanism 2 is connected between described cloth bracket 1 and the charging aperture 5 of cutting mechanism 3, and the discharging opening 6 of described cutting mechanism 3 is provided with receiving mechanism；Described cutting mechanism 3 includes conveyer belt 31 and laser cutting device 32, and this conveyer belt 31 is arranged between described charging aperture 5 and discharging opening 6, and the outlet with described automatic feed mechanism 2 is connected.Entire volume cloth bracket is located on cloth bracket 1, and multiple pressure rollers 21 of traverse automatic feed mechanism 2 are layed on conveyer belt 31 through charging aperture 5.The surface of the plurality of pressure roller 21 is both provided with increasing the plastic grain of frictional force.Conveyer belt 31 by the first transfer roller at charging aperture 5, the second transfer roller at discharging opening 6 and between the rwo lower section the 3rd transfer roller form, be wound around arrange this first transfer roller, the second transfer roller, the 3rd transfer roller for transmit guipure, cloth is layed in the surface of conveyer belt 31.Receiving mechanism is a rewinding flat board 4, constantly carries out in the process advanced at conveyer belt 31, and the cloth cut can arrive rewinding flat board 4, is collected cutting finished product by workman subsequently and collects cloth waste.

Wherein, this laser cutting device 32 is arranged at the top of described conveyer belt 31, and include 321, two Y-axis cut assemblies 322 of an X-axis assembly and laser generator, these two Y-axis cut assemblies 322 are installed on this X-axis assembly 321, the laser generated is delivered to Y-axis cut assembly 322 by laser generator, and these two Y-axis cut assemblies 322 are driven by independent power set respectively.

As shown in Figure 3, described X-axis assembly 321 includes X-axis installing rack 3211, X-axis drive lead screw 3212 and X-axis feed screw nut 3213, the two ends of described X-axis drive lead screw 3212 are fixed on this X-axis installing rack 3211, and X-axis feed screw nut 3213 thread bush is connected on this X-axis drive lead screw 3212.Upper surface at described X-axis installing rack 3211 is provided with the upper rail 3214 being positioned at described X-axis drive lead screw 3212 left and right sides, and being provided with of upper rail 3214 helps moving horizontally of stable Y-axis cut assembly 322；Side along described X-axis installing rack 3211 is provided with side guide 3215, and the setting of side guide 3215 can aid in the support to Y-axis cut assembly 322 and the stability moved horizontally.

Described Y-axis cut assembly 322 includes X-axis driving device 3221, Y-axis driving device 3222, Y-axis drive lead screw 3223, Y-axis feed screw nut 3224, laser cutting head 3225；Described X-axis driving device 3221 is in transmission connection with described X-axis feed screw nut 3213 by Timing Belt 3226, synchronizing wheel 3227, and described synchronizing wheel 3227 is fixed on described X-axis feed screw nut 3213；Described Y-axis driving device 3222 is in transmission connection with Y-axis drive lead screw 3223, and described laser cutting head 3225 is installed on described Y-axis feed screw nut 3224, and described Y-axis feed screw nut 3224 is installed on described Y-axis drive lead screw 3223.The bottom of Y-axis cut assembly 322 is installed on above-mentioned upper rail 3214 and side guide 3215.

Wherein, being provided with a laser conveyer 323, including some laser mirrors 3231, these some laser mirrors 3231 form light path, the laser generated by laser generator delivers to Y-axis cut assembly 322.Laser generator penetrates two-way laser respectively, and is sent to corresponding Y-axis cut assembly 322 through independent light path.It is provided with light path protective cover 324, it is ensured that laser exempted from interference before entering laser cutting head 3225, and improved security performance between described cut assembly and laser mirror 3231.

As shown in Figure 1, 2, it is provided with a projector mechanism 33, by graphic pattern projection design on fabric surface on described conveyer belt 31.Projector mechanism 33 includes a portal frame 331, is provided with projector 332 at the top of portal frame 331, and the angle of incidence of projector 332 opposed belt 31 is adjustable.

Wherein, two described Y-axis cut assemblies 322 are provided with the both distances are sensed first crashproof induction apparatus 9, are both provided with the second crashproof induction apparatus 9 of crashproof induction apparatus the 9, the 3rd to X-axis assembly 321 end Yu the spacing of Y-axis cut assembly 322 at the two ends, left and right of described X-axis assembly 321 respectively.

Above-mentioned cutting mechanism 3 is provided with to its housing 8 carrying out surrounding protection; the front of housing 8 is provided with one can up raise door 81; this door 81 is provided with the transparent window 82 made by acrylic material, can conveniently observe the running of cutting mechanism 3 and the cutting situation of cloth.

And the control device 7 for controlling the running of each part device it is provided with in the side of cutting mechanism 3.Can set that the pattern of cutting, speed, position etc. by controlling device 7.

Above embodiments simply indicates that rather than limits this utility model, therefore all equivalences done according to the method described in this utility model patent claim change or modify, and are all included in this utility model patent claim.

Claims (8)

1. the asynchronous diced system of coaxial double end, it is characterised in that: including cloth bracket, automatic feed mechanism and cutting mechanism, automatic feed mechanism is connected between described cloth bracket and the charging aperture of cutting mechanism, and the discharging opening of described cutting mechanism is provided with receiving mechanism；Described cutting mechanism includes conveyer belt and laser cutting device, and this conveyer belt is arranged between described charging aperture and discharging opening, and the outlet with described automatic feed mechanism is connected；This laser cutting device is arranged at the top of described conveyer belt, and include an X-axis assembly, two Y-axis cut assemblies and laser generator, these two Y-axis cut assemblies are installed on this X-axis assembly, the laser generated is delivered to Y-axis cut assembly by laser generator, and these two Y-axis cut assemblies are driven by independent power set respectively.

2. the asynchronous diced system of the coaxial double end of one according to claim 1, it is characterised in that: described X-axis assembly includes X-axis installing rack, X-axis drive lead screw and X-axis feed screw nut, and described X-axis drive lead screw is fixed on X-axis installing rack.

3. the asynchronous diced system of the coaxial double end of one according to claim 2, it is characterised in that: the upper surface at described X-axis installing rack is provided with the upper rail being positioned at the described X-axis drive lead screw left and right sides, and the side along described X-axis installing rack is provided with side guide.

4. a kind of coaxial asynchronous diced system of double end according to Claims 2 or 3, it is characterised in that: described Y-axis cut assembly includes X-axis driving device, Y-axis driving device, Y-axis drive lead screw, Y-axis feed screw nut, laser cutting head；Described X-axis driving device is connected with described X-axis screw nut driving by Timing Belt, synchronizing wheel, and described synchronizing wheel is fixed on described X-axis feed screw nut；Described Y-axis driving device and Y-axis drive lead screw are in transmission connection, and described laser cutting head is installed on described Y-axis feed screw nut, and described Y-axis feed screw nut is installed on described Y-axis drive lead screw.

5. the asynchronous diced system of the coaxial double end of one according to claim 1, it is characterized in that: be provided with a laser conveyer, including some laser mirrors, these some laser mirrors forming light path, the laser generated by laser generator delivers to Y-axis cut assembly.

6. the asynchronous diced system of the coaxial double end of one according to claim 5, it is characterised in that: between described cut assembly and laser mirror, it is provided with light path protective cover.

7. the asynchronous diced system of the coaxial double end of one according to claim 1, it is characterised in that: it is provided with a projector mechanism, by graphic pattern projection design on fabric surface on described conveyer belt.

8. the asynchronous diced system of the coaxial double end of one according to claim 1, it is characterized in that: be provided with, on two described Y-axis cut assemblies, the first crashproof induction apparatus that both distances are sensed, be both provided with respectively at the two ends, left and right of described X-axis assembly X-axis assembly end and the second crashproof induction apparatus of the spacing of Y-axis cut assembly, the 3rd crashproof induction apparatus.