CN112975175B

CN112975175B - Novel plate laser cutting machine

Info

Publication number: CN112975175B
Application number: CN202110224901.9A
Authority: CN
Inventors: 刘运辉
Original assignee: Ganzhou Hengbang Metal Product Co ltd
Current assignee: Ganzhou Hengbang Metal Product Co ltd
Priority date: 2021-03-01
Filing date: 2021-03-01
Publication date: 2022-11-25
Anticipated expiration: 2041-03-01
Also published as: CN112975175A

Abstract

The invention relates to a cutting machine, in particular to a novel plate laser cutting machine. The technical problem to be solved by the invention is as follows: the utility model provides a novel panel laser cutting machine of panel is taken to automatic removal cutting and convenient fixing. A novel laser cutting machine for plates comprises: a frame; the feeding assembly is arranged on the rack; the cutting assembly is arranged on the feeding assembly; the pushing assembly is arranged between the feeding assembly and the cutting assembly. The material pushing assembly is arranged, so that the cut plate can be pushed out from the discharge hole, and the cut plate can be conveniently taken out by a worker; the plate cutting device is provided with the supporting assembly, so that the plate can be effectively prevented from falling off midway when being cut, and further the cutting of the plate is influenced.

Description

Novel plate laser cutting machine

Technical Field

The invention relates to a cutting machine, in particular to a novel plate laser cutting machine.

Background

The laser cutting machine is a machine which utilizes high-power-density laser beams to irradiate a cut material, so that the material is quickly heated to a vaporization temperature and evaporated to form holes, and the holes continuously form slits with narrow width along with the movement of the laser beams to the material, thereby completing the cutting of the material.

General laser cutting machine needs manual control, when needs use laser cutting machine, and the manual work is fixed with panel, controls laser cutting machine afterwards and removes to cutting panel, manual control laser cutting machine not only need consume more physical power, and shift position is not well controlled moreover, makes cutting position skew easily, and it is comparatively troublesome when accomplishing the panel of taking out to cut.

Therefore, it is necessary to develop a novel laser cutting machine for cutting a plate material, which can automatically move and conveniently fix the plate material for taking.

Disclosure of Invention

In order to overcome the defects that manual control over a laser cutting machine not only needs to consume more physical power, but also has poor control over the moving position, so that the cutting position is easy to deviate, and the plate is taken out more difficultly after cutting, the invention aims to solve the technical problems that: the novel plate laser cutting machine capable of automatically moving for cutting and conveniently and fixedly taking plates is provided.

The technical scheme of the invention is as follows: a novel laser cutting machine for plates comprises: a frame; the feeding assembly is arranged on the rack; the cutting assembly is arranged on the feeding assembly; the pushing assembly is arranged between the feeding assembly and the cutting assembly.

In one embodiment, the feeding assembly comprises: the placing frame is arranged on the rack, and a feeding hole is formed in the front side of the placing frame; the roller wheels are symmetrically and rotatably arranged on the placing frame at uniform intervals, and a discharge hole is formed in the right side of the placing frame; the placing blocks are symmetrically arranged on two sides of the placing frame.

In one embodiment, the cutting assembly comprises: the speed reducing motor is arranged on the placing frame; the L-shaped plate is arranged on the placing frame; the threaded rod is rotatably arranged on the L-shaped plate and is connected with an output shaft of the speed reducing motor; and the laser cutter is arranged on the threaded rod through threads, and is in sliding fit with the L-shaped plate.

In one embodiment, the pusher assembly comprises: the push plates are arranged on two sides of the placing frame in a sliding manner; the connecting plate is arranged between the push plates; the large rack is arranged on the placing frame in a sliding manner through an elastic piece; the large gear is rotatably arranged on the placing frame and is meshed with the large rack; a pinion gear installed on the bull gear; the guide sleeve is arranged on the L-shaped plate; the sliding rod is arranged on the guide sleeve in a sliding manner; the first spring is arranged between the sliding rod and the guide sleeve; the wedge block is arranged on the sliding rod in a sliding mode and matched with the laser cutter; the second spring is arranged between the wedge-shaped block and the sliding rod; the transverse plate is arranged on the sliding rod, and at least two sliding grooves are uniformly arranged on the transverse plate at intervals; the ratchet block is arranged on the sliding groove in a sliding way and is matched with the pinion; the third spring is arranged between the ratchet block and the sliding groove; the stop blocks are arranged on two sides of the L-shaped plate and matched with the wedge-shaped blocks.

In one of them embodiment, still include the supporting component, the supporting component includes: the L-shaped sliding plate is slidably arranged on the placing frame; the supporting plate is arranged on the L-shaped sliding plate; the vertical plate is arranged on the supporting plate; the dysmorphism board is installed between riser and connecting plate.

In one of them embodiment, still including connecing the material subassembly, connect the material subassembly including: the hinge is arranged on the placing frame; the blanking plate is arranged on the hinge; the straight plate is arranged on the connecting plate; and at least two push rods are arranged on the straight plate and are matched with the blanking plate.

In one embodiment, the device further comprises a compacting assembly, wherein the compacting assembly comprises: the U-shaped rods are slidably arranged on two sides of the placing frame; the fourth spring is arranged on two sides of the U-shaped rod and the placing frame; and the pressing block is arranged on the U-shaped rod.

In one embodiment, the lower side of the rack is provided with a placing frame.

The invention has the beneficial effects that: 1. the pushing assembly is arranged, so that the cut plate can be pushed out of the discharge hole, and the cut plate can be conveniently taken out by a worker.

2. The plate cutting device is provided with the supporting assembly, so that the plate can be effectively prevented from falling off midway when being cut, and further the cutting of the plate is influenced.

3. The material receiving assembly is arranged, so that the plate can be dragged by the blanking plate when pushed out, and the cut plate can be collected by a worker conveniently.

4. The invention is provided with the compaction assembly, so that the cutting effect is prevented from being influenced by automatic movement of the plate due to external force during cutting.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the feeding assembly of the present invention.

Fig. 3 is a schematic perspective view of the cutting assembly of the present invention.

Fig. 4 is a schematic perspective view of the pusher assembly of the present invention.

Fig. 5 is an enlarged schematic view of part a of the present invention.

Fig. 6 is a schematic perspective view of the support assembly of the present invention.

Fig. 7 is a schematic perspective view of the receiving assembly of the present invention.

Fig. 8 is a schematic perspective view of a compaction kit according to the present invention.

In the reference symbols: 1_ frame, 2_ feeding assembly, 21_ placing frame, 22_ feeding port, 23_ roller, 24_ discharging port, 25_ placing block, 3_ cutting assembly, 31_ speed reducing motor, 32_ l-shaped plate, 33_ threaded rod, 34_ laser cutter, 4_ pushing assembly, 41_ pushing plate, 42_ connecting plate, 43_ large rack, 44_ large gear, 45_ small gear, 46_ guide sleeve, 47_ sliding rod, 48_ first spring, 49_ wedge block, 410_ second spring, 411_ transverse plate, 412_ sliding groove, 413_ ratchet block, 414_ third spring, 415_ stop, 5_ supporting assembly, 51_ l-shaped sliding plate, 52_ supporting plate, 53_ vertical plate, 54_ plate, 6_ receiving assembly, 61_ hinge, 62_ feeding plate, 63_ straight plate, 64_ push rod, 7_ compacting assembly, 71_ u-shaped rod, 72_ fourth spring, 73_ pressing block.

Detailed Description

The invention is further described below with reference to the figures and examples.

Example 1

A novel plate laser cutting machine is shown in figures 1-5 and comprises a machine frame 1, a feeding assembly 2, a cutting assembly 3 and a pushing assembly 4, wherein the feeding assembly 2 is arranged on the machine frame 1, the cutting assembly 3 is arranged on the feeding assembly 2, and the pushing assembly 4 is arranged on the machine frame 1.

When needing to carry out laser cutting to panel, put into feeding subassembly 2 with panel, start cutting assembly 3 afterwards, cutting assembly 3 just can carry out laser cutting to panel, control cutting assembly 3 reverse function after the cutting is accomplished, and then drive and push away material subassembly 4 and operate, thereby can release the panel that the cutting was accomplished, and then make things convenient for the staff to take out the panel that the cutting was accomplished, push away material subassembly 4 after the release and can reset automatically, then repeat above-mentioned process, after the whole cutting of all panels is accomplished, it can to close cutting assembly 3.

Feeding subassembly 2 has place frame 21 including placing frame 21, gyro wheel 23 and placing piece 25, and there is frame 21 frame upside of frame 1 through bolted connection, and the front side of placing frame 21 is opened has feed inlet 22, and the equal even rotary type in interval in both sides about placing the front portion of frame 21 is connected with five gyro wheels 23, and it has discharge gate 24 to place the right side of frame 21 and open, and the equal bilateral symmetry's in both sides is equipped with of the inside front and back of placing frame 21 and places piece 25.

When needing to carry out laser cutting to panel, put into placing frame 21 with panel through feed inlet 22, rotate through gyro wheel 23 simultaneously, make and place panel more light, panel can be placed on placing piece 25 afterwards, then start cutting assembly 3, cutting assembly 3 just can carry out laser cutting to panel, control cutting assembly 3 reverse function after the cutting is accomplished, and then drive and push away material subassembly 4 and operate, thereby can push out the panel that the cutting was accomplished from discharge gate 24, and then make things convenient for the staff to take out the panel that the cutting was accomplished, push away material subassembly 4 after pushing out and reset automatically, then repeat the above-mentioned process, after the whole cutting of all panels is accomplished, it can to close cutting assembly 3.

The cutting assembly 3 comprises a speed reducing motor 31, an L-shaped plate 32, a threaded rod 33 and a laser cutter 34, the speed reducing motor 31 is arranged on the left side of the placing frame 21, the L-shaped plate 32 is arranged on the upper side of the placing frame 21, the threaded rod 33 is rotatably connected to the L-shaped plate 32, the threaded rod 33 is connected with an output shaft of the speed reducing motor 31, the laser cutter 34 is connected to the threaded rod 33 through threads, and the laser cutter 34 is in sliding fit with the L-shaped plate 32.

When needing to carry out laser cutting to panel, place panel on placing the piece 25 through feed inlet 22, then start gear motor 31, gear motor 31 just can drive threaded rod 33 and rotate, and then can make laser cutter 34 move to the right side, and then make laser cutter 34 carry out laser cutting to panel, control gear motor 31 reversal after the cutting is accomplished, and then can drive and push away material subassembly 4 and operate, thereby can push away the panel that the cutting was accomplished from discharge gate 24, and then make things convenient for the staff to take out the panel that the cutting was accomplished, it can reset automatically to push away material subassembly 4 after pushing away, then repeat above-mentioned process, after all cutting of panel are accomplished, it can to close gear motor 31.

The pushing assembly 4 comprises a pushing plate 41, a connecting plate 42, a big rack 43, a big gear 44, a small gear 45, a guide sleeve 46, a sliding rod 47, a first spring 48, a wedge block 49, a second spring 410, a transverse plate 411, a ratchet block 413, a third spring 414 and a stop block 415, wherein the pushing plate 41 is connected with the front and the rear sides of the right lower part of the placing frame 21 in a sliding way, the connecting plate 42 is connected between the right sides of the pushing plate 41, the big rack 43 is arranged on the rear side of the placing frame 21 in a sliding way through an elastic piece, the big gear 44 is arranged on the rear side of the placing frame 21 in a rotating way, the big gear 44 is meshed with the big rack 43, the small gear 45 is connected with the front side of the big gear 44, the guide sleeve 46 is arranged on the rear side of the L-shaped plate 32, a sliding rod 47 is connected with the guide sleeve 46 in a sliding mode, a first spring 48 is connected between the sliding rod 47 and the guide sleeve 46, a wedge block 49 is connected with the sliding rod 47 in a sliding mode, the wedge block 49 is matched with the laser cutter 34, a second spring 410 is connected between the wedge block 49 and the sliding rod 47, a transverse plate 411 is connected to the lower right side of the sliding rod 47, a plurality of sliding grooves 412 are formed in the transverse plate 411 at equal intervals, ratchet blocks 413 are connected to the sliding grooves 412 in a sliding mode, the ratchet blocks 413 are matched with the pinion 45, third springs 414 are connected between the ratchet blocks 413 and the sliding grooves 412, stop blocks 415 are arranged on the front side and the rear side of the left portion of the L-shaped plate 32, and the stop blocks 415 are matched with the wedge block 49.

When the laser cutter 34 moves to be in contact with the wedge block 49, the wedge block 49 moves upwards, the second spring 410 is compressed, when the laser cutter 34 moves to be no longer in contact with the wedge block 49, the second spring 410 rebounds to drive the wedge block 49 to move downwards and reset, after the plate is cut, the speed reduction motor 31 is controlled to rotate reversely, the laser cutter 34 moves leftwards, the laser cutter 34 is then in contact with the wedge block 49 again, the wedge block 49 and the sliding rod 47 move leftwards, the first spring 48 is compressed, the transverse plate 411, the ratchet block 413 and the third spring 414 move leftwards together, the ratchet block 413 contacts with the small gear 45, the small gear 45 rotates, the large gear 44 rotates, and the large gear 43 is driven to move rightwards, when the transverse plate 411, the ratchet block 413 and the third spring 414 move to be separated from the pinion 45, the large rack 43 moves leftwards to be reset due to the action of the elastic member, when the wedge block 49 moves to be contacted with the stop 415, the wedge block 49 moves upwards, the second spring 410 is compressed, so that the wedge block 49 is not contacted with the laser cutter 34 any more, at the same time, the first spring 48 rebounds to drive the sliding rod 47 and the wedge block 49 to move rightwards, when the wedge block 49 moves to be not contacted with the stop 415, the second spring 410 rebounds to drive the wedge block 49 to move downwards to be reset, and then the transverse plate 411, the ratchet block 413 and the third spring 414 move rightwards to be reset, and simultaneously, the ratchet block 413 moves upwards due to the action of the third spring 414, so that the cut plate is pushed out from the discharge hole 24, and the wedge block 49 does not rotate, when the temperature is higher than the set temperature.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, 6, 7 and 8, the support device further comprises a support assembly 5, wherein the support assembly 5 comprises an L-shaped sliding plate 51, a support plate 52, a vertical plate 53 and a special-shaped plate 54, the L-shaped sliding plate 51 is movably arranged on the rear side of the placement frame 21, the support plate 52 is connected to the front side of the L-shaped sliding plate 51, the vertical plate 53 is arranged on the lower side of the support plate 52, and the special-shaped plate 54 is connected between the vertical plate 53 and the connecting plate 42.

When placing panel and placing on piece 25, panel can be dragged by backup pad 52, and then drops midway when can effectively preventing to cut panel, and then influences the cutting of panel, and when connecting plate 42 moved right simultaneously, can make backup pad 52 and L shape slide 51 move to the right side through dysmorphism board 54, and then can also be difficult for dropping when pushing out panel.

Still including connecing material subassembly 6, connect material subassembly 6 including hinge 61, flitch 62, straight board 63 and push rod 64 down, the right side of placing frame 21 has hinge 61 through the bolt rigid coupling, is connected with flitch 62 down on the hinge 61, is connected with straight board 63 on the connecting plate 42, is connected with six push rods 64 on the straight board 63, push rod 64 and the cooperation of flitch 62 down.

When connecting plate 42 moved to the right, can make straight board 63 remove to the right side, and then drive push rod 64 and remove to the right side, thereby can contact with flitch 62 down, and then make flitch 62 rotate down through hinge 61, and then can be dragged by flitch 62 down when making panel release, and then make things convenient for the staff to collect the panel that the cutting was accomplished, when connecting plate 42 removed the reset left, can make straight board 63 and push rod 64 remove the reset to the left side, and then make push rod 64 no longer contact with flitch 62 down, thereby make flitch 62 carry out the reverse rotation because of gravity and reset down.

The device is characterized by further comprising a compaction assembly 7, wherein the compaction assembly 7 comprises a U-shaped rod 71, a fourth spring 72 and a pressing block 73, the U-shaped rod 71 is connected with the front side and the rear side of the left part of the placing frame 21 in a sliding mode, the fourth spring 72 is connected with the front side and the rear side of the U-shaped rod 71 and the placing frame 21, and the pressing block 73 is connected with the lower side of the right part of the U-shaped rod 71.

When pushing panel and placing in the frame 21, panel can contact with briquetting 73, and then make briquetting 73 rebound, and then make U-shaped pole 71 rebound, fourth spring 72 is compressed, and then because of the resilience force of fourth spring 72, make briquetting 73 fix panel, and then prevent when the cutting, panel influences the cutting effect because of external force automatic movement, and when panel was released the back, fourth spring 72 can kick-back and drive U-shaped pole 71 and briquetting 73 and reset.

The above description is only an example of the present invention and is not intended to limit the present invention. All equivalents which come within the spirit of the invention are therefore intended to be embraced therein. Details not described herein are well within the skill of those in the art.

Claims

1. The utility model provides a novel panel laser cutting machine which characterized in that, including:

a frame (1);

the feeding assembly (2) is arranged on the rack (1);

the cutting assembly (3) is arranged on the feeding assembly (2);

the pushing assembly (4) is arranged between the feeding assembly (2) and the cutting assembly (3);

the feeding assembly (2) comprises:

the placing frame (21) is arranged on the rack (1), and a feeding hole (22) is formed in the front side of the placing frame (21);

the roller wheels (23), at least two roller wheels (23) are symmetrically and rotatably arranged on the placing frame (21) at uniform intervals, and the right side of the placing frame (21) is provided with a discharge hole (24);

the placing blocks (25) are symmetrically arranged on two sides of the placing frame (21);

the cutting assembly (3) comprises:

a reduction motor (31) mounted on the placement frame (21);

an L-shaped plate (32) mounted on the placement frame (21);

the threaded rod (33) is rotatably arranged on the L-shaped plate (32), and the threaded rod (33) is connected with an output shaft of the speed reducing motor (31);

the laser cutter (34) is arranged on the threaded rod (33) through threads, and the laser cutter (34) is in sliding fit with the L-shaped plate (32);

the pushing assembly (4) comprises:

the push plates (41) are arranged on two sides of the placing frame (21) in a sliding manner;

a connecting plate (42) mounted between the push plates (41);

a large rack (43) which is slidably mounted on the placing frame (21) through an elastic member; the large gear (44) is rotatably arranged on the placing frame (21), and the large gear (44) is meshed with the large rack (43);

a pinion gear (45) mounted on the bull gear (44);

a guide sleeve (46) mounted on the L-shaped plate (32);

a sliding rod (47) which is slidably mounted on the guide sleeve (46);

a first spring (48) installed between the slide rod (47) and the guide sleeve (46);

a wedge block (49) slidably mounted on the slide bar (47), the wedge block (49) cooperating with the laser cutter (34);

a second spring (410) installed between the wedge block (49) and the sliding rod (47);

the transverse plate (411) is arranged on the sliding rod (47), and at least two sliding grooves (412) are uniformly arranged on the transverse plate (411) at intervals;

a ratchet block (413) which is slidably mounted on the sliding groove (412), wherein the ratchet block (413) is matched with the pinion (45);

a third spring (414) installed between the ratchet block (413) and the sliding groove (412);

the stoppers (415) are arranged on two sides of the L-shaped plate (32), and the stoppers (415) are matched with the wedge-shaped block (49);

when the laser cutter (34) moves to be in contact with the wedge block (49), the wedge block (49) moves upwards, the second spring (410) is compressed, when the laser cutter (34) moves to be no longer in contact with the wedge block (49), the second spring (410) rebounds to drive the wedge block (49) to move downwards and reset, after the plate is cut, the speed reduction motor is controlled to rotate reversely, the laser cutter (34) moves leftwards, the laser cutter (34) is further in contact with the wedge block (49) again, the wedge block (49) and the sliding rod (47) move leftwards, the first spring (48) is compressed, the transverse plate (411), the ratchet block (413) and the third spring (414) move leftwards together, the ratchet block (413) is in contact with the pinion (45), the pinion (45) rotates, the large gear (44) rotates, the large rack (43) is driven to move rightwards, the connecting plate (42) and the push plate (41) move rightwards, the cut plate is further moved from the discharging port (24), the transverse plate (415) and the ratchet block (414) moves to the discharge port, and the transverse plate (414) moves away from the discharge port, when the spring (414), the wedge block (49) can move upwards, the second spring (410) is compressed, the wedge block (49) is not contacted with the laser cutter (34) any more, at the moment, the first spring (48) rebounds to drive the sliding rod (47) and the wedge block (49) to move towards the right side, when the wedge block (49) moves to be not contacted with the stop block (415), the second spring (410) rebounds to drive the wedge block (49) to move downwards for resetting, then the transverse plate (411), the ratchet block (413) and the third spring (414) move towards the right side for resetting, and meanwhile, the ratchet block (413) can move upwards under the action of the third spring (414), so that the pinion (45) is not driven to rotate.

2. A novel laser cutting machine for plates according to claim 1, characterized by further comprising a supporting component (5), wherein the supporting component (5) comprises:

an L-shaped sliding plate (51) which is slidably mounted on the placing frame (21);

a support plate (52) mounted on the L-shaped slide plate (51);

a vertical plate (53) mounted on the support plate (52);

and a special-shaped plate (54) installed between the vertical plate (53) and the connecting plate (42).

3. A novel laser cutting machine for plates as claimed in claim 2, characterized by further comprising a receiving assembly (6), wherein the receiving assembly (6) comprises:

a hinge (61) mounted on the placement frame (21);

the blanking plate (62) is arranged on the hinge (61);

a straight plate (63) mounted on the connecting plate (42);

and at least two push rods (64) are arranged on the straight plate (63), and the push rods (64) are matched with the blanking plate (62).

4. A novel laser cutting machine for slabs according to claim 3, characterized in that it further comprises a compacting assembly (7), the compacting assembly (7) comprising:

u-shaped rods (71) which are slidably mounted on both sides of the placing frame (21);

the fourth spring (72) is arranged on two sides of the U-shaped rod (71) and the placing frame (21);

and the pressing block (73) is arranged on the U-shaped rod (71).

5. A novel laser cutting machine for plates according to claim 1, characterized in that the frame (1) has a placement frame on the underside.