CN207326201U - A kind of numerical control laser cutter of multistation rapid material-feeding - Google Patents

Abstract

The utility model provides a kind of numerical control laser cutter of multistation rapid material-feeding.The numerical control laser cutter of the multistation rapid material-feeding includes cutting mechanism, operation bench, turntable, hopper, support base, first conveyer belt, the second conveyer belt, base, position-limited rack, movable stand, cutter, dedusting mechanism, dust-collecting box, fan, magnet ring, electric pushrod and rotary electric machine.The numerical control laser cutter of multistation rapid material-feeding provided by the utility model, raw material on the hopper can be automatically sent to the cutting mechanism by the electric pushrod, realize automatic charging, and the hopper can continuous conversion station under the action of the rotary electric machine, realize that raw material feeding, blanking are carried out at the same time, effectively improve processing efficiency；The dedusting mechanism can suck the dust on raw material, cutting impurity in the dust-collecting box, and the magnet ring can adsorb iron filings, so as to ensure the cleaning of work top.

Description

A kind of numerical control laser cutter of multistation rapid material-feeding

Technical field

It the utility model is related to numerical control cutting machine technical field, more particularly to a kind of digital control laser of multistation rapid material-feeding Cutting machine.

Background technology

Numerical control laser cutter have the characteristics that to cut in cutting process it is fast it is fast, slot is small, laser cutting process at a high speed and Stablize, match the optical fiber laser of different capacity, cutting and boring high-speed ＆ precise progressive die can be carried out to various metals and material, coordinated Trailing type dynamic focus control, in cutting process, can keep cutting quality such as one all the time.

Current laser cutting machine much or uses manually-operated mode in feeding, and feeding speed is slower, feeding Shi Jingdu is inadequate, and the situation of offset occurs in raw material；Lack dedusting mechanism so that raw material surface is influenced there are dust or impurity Machining accuracy.

Asked therefore, it is necessary to which the numerical control laser cutter for providing a kind of new multistation rapid material-feeding solves above-mentioned technology Topic.

Utility model content

The main purpose of the utility model is that providing, a kind of feeding speed is fast, the multistation rapid material-feeding of high precision machining Numerical control laser cutter.

To achieve the above objectives, the technical solution adopted in the utility model is：A kind of numerical control of multistation rapid material-feeding swashs Light cutting machine, including：Cutting mechanism；Operation bench, the operation bench are electrically connected the cutting mechanism；Base, the base position In the bottom of the operation bench；Movable stand, the both sides of the movable stand and the base are slidably connected；Position-limited rack, it is described spacing Frame is symmetrically fixed on the surface of the base；It is slidably connected between the bottom surface of cutter, the cutter and the position-limited rack；Remove Dirt mechanism, the dedusting mechanism are symmetrically set in the bottom surface of the position-limited rack；Hopper, the entrance of the hopper and the cutting mechanism Place is oppositely arranged, and the hopper has four in crossing distribution；The distance between the width of the hopper and the position-limited rack It is identical；Turntable, four sides of the turntable are mounted on the hopper, and the turntable is in rectangular configuration；Electric pushrod, the electricity Dynamic push rod is installed on the inside of the turntable, and the electric pushrod is extended through in four sides of the turntable；Support base, it is described Support base is fixed on the bottom of the turntable；Rotary electric machine, institute's rotary electric machine are arranged on the inside of the support base, and the rotation It is rotatablely connected between motor and the turntable；First conveyer belt, the first conveyer belt are located at the side of the support base, and institute State hopper and the surface of the first conveyer belt is located at same level；Second conveyer belt, second conveyer belt is positioned at described The support base opposite side opposite with the first conveyer belt, and second conveyer belt and the first conveyer belt are located at a pair of Claim at line；The first conveyer belt, second conveyer belt are of same size with the hopper.

Preferably, the dedusting mechanism includes dust-collecting box, fan and magnet ring, and the top of the dust-collecting box is equipped with wind Fan；The bottom of the dust-collecting box is equipped with magnet ring.

Preferably, the magnet ring is arc-shaped, and the magnet ring is arranged with two.

Preferably, the bottom of the dust-collecting box is that the top of hatch frame and the dust-collecting box is mesh-structured.

Preferably, the electric pushrod is equipped with least eight, and electric pushrod described in each two is located at same one side.

Preferably, it is arranged in a mutually vertical manner between the first conveyer belt and the cutting mechanism.

Preferably, sidewall weld of the hopper with the turntable.

Preferably, the square structure of the turntable.

Preferably, the dedusting mechanism is vertical at the top of the base.

Preferably, the movable stand is bolted in the dedusting mechanism.

Compared with correlation technique, the numerical control laser cutter of multistation rapid material-feeding provided by the utility model has such as Lower beneficial effect：

The utility model provides a kind of numerical control laser cutter of multistation rapid material-feeding, and the electric pushrod can be by institute State the raw material on hopper and be automatically sent to the cutting mechanism, realize automatic charging, and the institute under the action of the rotary electric machine State hopper can continuous conversion station, realize that raw material feeding, blanking are carried out at the same time, effectively improve processing efficiency；The dust removal machine Structure can suck the dust on raw material, cutting impurity in the dust-collecting box, and the magnet ring can adsorb iron filings, so as to ensure The cleaning of work top.

Brief description of the drawings

Fig. 1 is a kind of preferred embodiment of the numerical control laser cutter of multistation rapid material-feeding provided by the utility model Structure diagram；

Fig. 2 is cutting mechanism structure diagram provided by the utility model；

Fig. 3 is dedusting mechanism structure diagram provided by the utility model；

Fig. 4 is turntable internal structure schematic diagram provided by the utility model；

Fig. 5 is support base internal structure schematic diagram provided by the utility model.

Figure label：1st, cutting mechanism, 2, operation bench, 3, turntable, 4, hopper, 5, support base, 6, first conveyer belt, 7, Two conveyer belts, 8, base, 9, position-limited rack, 10, movable stand, 11, cutter, 12, dedusting mechanism, 13, dust-collecting box, 14, fan, 15th, magnet ring, 16, electric pushrod, 17, rotary electric machine.

Embodiment

It is described below for disclosing the utility model so that those skilled in the art can realize the utility model.Retouch below Preferred embodiment in stating is only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.

Fig. 1, Fig. 2, Fig. 3, Fig. 4 and Fig. 5 are please referred to, wherein, Fig. 1 is quick for multistation provided by the utility model A kind of structure diagram of preferred embodiment of the numerical control laser cutter of feeding；Fig. 2 is cutting machine provided by the utility model Structure structure diagram；Fig. 3 is dedusting mechanism structure diagram provided by the utility model；Fig. 4 is provided by the utility model turn Platform internal structure schematic diagram；Fig. 5 is support base internal structure schematic diagram provided by the utility model.A kind of multistation rapid material-feeding Numerical control laser cutter, including：Cutting mechanism 1；Operation bench 2, the operation bench 2 are electrically connected the cutting mechanism 1；Base 8, the base 8 is located at the bottom of the operation bench 2；Movable stand 10, two Slideslips of the movable stand 10 and the base 8 connect Connect；Position-limited rack 9, the position-limited rack 9 are symmetrically fixed on the surface of the base 8；Cutter 11, the cutter 11 and the limit It is slidably connected between the bottom surface of position frame 9；Dedusting mechanism 12, the dedusting mechanism 12 are symmetrically set in the bottom surface of the position-limited rack 9；Institute State position-limited rack 9 enable to charging when it is more accurate, prevent plate from deviating, the dedusting mechanism 12 can remove the ash on plate Dirt, impurity.

Hopper 4, the inlet of the hopper 4 and the cutting mechanism 1 are oppositely arranged, and the hopper 4 is in cross point It is furnished with four；The width of the hopper 4 is identical with the distance between the position-limited rack 9；Turntable 3, four sides of the turntable 3 are pacified Equipped with the hopper 4, and the turntable 3 is in rectangular configuration；Electric pushrod 16, the electric pushrod 16 are installed on the turntable 3 Inside, and the electric pushrod 16 is extended through in four sides of the turntable 3；Support base 5, the support base 5 are fixed on institute State the bottom of turntable 3；Rotary electric machine 17, institute's rotary electric machine 17 be arranged on the support base 5 inside, and the rotary electric machine 17 with It is rotatablely connected between the turntable 3；First conveyer belt 6, the first conveyer belt 6 are located at the side of the support base 5, and described Hopper 4 and the surface of the first conveyer belt 6 are located at same level；Second conveyer belt 7, second conveyer belt 7 are located at institute The opposite side opposite with the first conveyer belt 6 of support base 5 is stated, and second conveyer belt 7 and the first conveyer belt 6 are located at At same line of symmetry；The first conveyer belt 6, second conveyer belt 7 are of same size with the hopper 4；Conveyer belt energy Enough to send raw material to the hopper 4, the rotary electric machine 17 can drive the turntable 3 to rotate, and in the electric pushrod 16 Under the action of, realize automatic charging, blanking.

In order to realize dust, the impurity on dedusting working face, and iron filings are recycled, the dedusting mechanism 12 includes collection Dirt box 13, fan 14 and magnet ring 15, and the top of the dust-collecting box 13 is equipped with fan 14；The bottom of the dust-collecting box 13 is equipped with Magnet ring 15.So that iron filings in uphill process, are adsorbed by the magnet ring 15, the magnet ring 15 is arc-shaped, and the magnet ring 15 It is arranged with two.In order to improve dust collecting effect, the bottom of the dust-collecting box 13 is the top of hatch frame and the dust-collecting box 13 Hold to be mesh-structured.

Raw material is pushed at the hopper 4 in order to realize, the electric pushrod 16 is equipped with least eight, and described in each two Electric pushrod 16 is located at same one side.

In order to enable feeding process is more quick, it is mutually perpendicular to set between the first conveyer belt 6 and the cutting mechanism 1 Put.

In order to enable junction is more firm, sidewall weld of the hopper 4 with the turntable 3.

In order to enable rotation process is more convenient, the 3 square structure of turntable.

In order to enable dust removing effects are more preferable, the dedusting mechanism 12 is vertical at the top of the base 8.

For the ease of removing and installing, the movable stand 10 is bolted in the dedusting mechanism 12.

When the utility model is used, setting the course of work of each equipment by the operation bench 2 first, process When, raw material is individually placed to the first conveyer belt 6, on second conveyer belt 7 by worker, and conveyer belt send raw material to the material On groove 4, then, the rotary electric machine 17 drives the turntable 3 to rotate so that the hopper 4 after feeding goes to the cutting 1 inlet of mechanism, the hopper 4 of non-feeding are gone at conveyer belt, and the electric pushrod 16 pushes away the raw material on the hopper 4 Between to the position-limited rack 9, conveyer belt send raw material to the hopper 4, and subsequent 17 cycle rotation of rotary electric machine, is realized Automatic charging, the movable stand 10 can be moved along the base 8, raw material cut by the cutter 11, in work When making, the fan 14 can suck the dust on raw material, cutting impurity in the dust-collecting box 13, and the magnet ring 15 can Adsorb iron filings.

Compared with correlation technique, the numerical control laser cutter of multistation rapid material-feeding provided by the utility model has such as Lower beneficial effect：

The utility model provides a kind of numerical control laser cutter of multistation rapid material-feeding, and the electric pushrod 16 can incite somebody to action Raw material on the hopper 4 is automatically sent to the cutting mechanism, realizes automatic charging, and in the effect of the rotary electric machine 17 Under the hopper 4 can continuous conversion station, realize that raw material feeding, blanking are carried out at the same time, effectively improve processing efficiency；It is described to remove Dirt mechanism 12 can suck the dust on raw material, cutting impurity in the dust-collecting box 13, and the magnet ring 15 can adsorb iron Bits, so as to ensure the cleaning of work top.

It is obvious to a person skilled in the art that the utility model is not limited to the details of above-mentioned one exemplary embodiment, and And in the case of the spirit or essential attributes without departing substantially from the utility model, it can realize that this practicality is new in other specific forms Type.Therefore, in all respects, the present embodiments are to be considered as illustrative and not restrictive, this practicality is new The scope of type is indicated by the appended claims rather than the foregoing description, it is intended that the equivalency fallen in claim is contained All changes in justice and scope are embraced therein.Any reference numeral in claim should not be considered as limitation Involved claim.

Moreover, it will be appreciated that although the present specification is described in terms of embodiments, not each embodiment is only wrapped Containing an independent technical solution, this narrating mode of specification is only that those skilled in the art should for clarity Using specification as an entirety, the technical solution in the present embodiment may also be suitably combined to form those skilled in the art It is appreciated that other embodiment.

Claims (10)

1. A kind of 1. numerical control laser cutter of multistation rapid material-feeding, it is characterised in that including：

   Cutting mechanism (1)；

   Operation bench (2), the operation bench (2) are electrically connected the cutting mechanism (1)；

   Base (8), the base (8) are located at the bottom of the operation bench (2)；

   Movable stand (10), the movable stand (10) and the both sides of the base (8) are slidably connected；

   Position-limited rack (9), the position-limited rack (9) are symmetrically fixed on the surface of the base (8)；

   It is slidably connected between the bottom surface of cutter (11), the cutter (11) and the position-limited rack (9)；

   Dedusting mechanism (12), the dedusting mechanism (12) are symmetrically set in the bottom surface of the position-limited rack (9)；

   Hopper (4), the hopper (4) and the inlet of the cutting mechanism (1) are oppositely arranged, and the hopper (4) is in cross Shape is distributed with four；The width of the hopper (4) is identical with the distance between the position-limited rack (9)；

   Turntable (3), four sides of the turntable (3) are mounted on the hopper (4), and the turntable (3) is in rectangular configuration；

   Electric pushrod (16), the electric pushrod (16) are installed on the inside of the turntable (3), and the electric pushrod (16) point Not through four sides of the turntable (3)；

   Support base (5), the support base (5) are fixed on the bottom of the turntable (3)；

   Rotary electric machine (17), institute's rotary electric machine (17) are arranged on the inside of the support base (5), and the rotary electric machine (17) and institute State and be rotatablely connected between turntable (3)；

   First conveyer belt (6), the first conveyer belt (6) are located at the side of the support base (5), and the hopper (4) and institute The surface for stating first conveyer belt (6) is located at same level；

   Second conveyer belt (7), it is opposite with the first conveyer belt (6) that second conveyer belt (7) is located at the support base (5) Opposite side, and second conveyer belt (7) and the first conveyer belt (6) are located at same line of symmetry；The first conveyer belt (6), second conveyer belt (7) is of same size with the hopper (4).
2. 2. the numerical control laser cutter of multistation rapid material-feeding according to claim 1, it is characterised in that the dust removal machine Structure (12) includes dust-collecting box (13), fan (14) and magnet ring (15), and the top of the dust-collecting box (13) is equipped with fan (14)； The bottom of the dust-collecting box (13) is equipped with magnet ring (15).
3. 3. the numerical control laser cutter of multistation rapid material-feeding according to claim 2, it is characterised in that the magnet ring (15) it is arc-shaped, and the magnet ring (15) is arranged with two.
4. 4. the numerical control laser cutter of multistation rapid material-feeding according to claim 2, it is characterised in that the dust-collecting box (13) bottom is that the top of hatch frame and the dust-collecting box (13) is mesh-structured.
5. 5. the numerical control laser cutter of multistation rapid material-feeding according to claim 1, it is characterised in that described electronic to push away Bar (16) is equipped with least eight, and electric pushrod described in each two (16) is located at same one side.
6. 6. the numerical control laser cutter of multistation rapid material-feeding according to claim 1, it is characterised in that described first is defeated Send and be arranged in a mutually vertical manner between band (6) and the cutting mechanism (1).
7. 7. the numerical control laser cutter of multistation rapid material-feeding according to claim 1, it is characterised in that the hopper (4) sidewall weld with the turntable (3).
8. 8. the numerical control laser cutter of multistation rapid material-feeding according to claim 1, it is characterised in that the turntable (3) square structure.
9. 9. the numerical control laser cutter of multistation rapid material-feeding according to claim 1, it is characterised in that the dust removal machine Structure (12) is vertical at the top of the base (8).
10. 10. the numerical control laser cutter of multistation rapid material-feeding according to claim 1, it is characterised in that the dedusting The movable stand (10) is bolted in mechanism (12).