CN216028828U - Automatic laser pipe cutting machine - Google Patents

Abstract

The utility model discloses an automatic laser pipe cutting machine which comprises a first rack and a second rack, wherein the first rack and the second rack are arranged from front to back; through the structure, when the automatic laser pipe cutting machine works, the feeding mechanism transfers the pipe fitting to be cut on the storage rack to the feeding groove, the pipe fitting on the feeding groove is transferred forwards under the cooperation of the feeding device, and the cutting device is matched with the positioning device to cut the pipe fitting; only need control hoist and mount machinery when this automatic pipe cutting machine of laser uses and will wait to cut the pipe fitting and stack to the storage frame, can accomplish the pipe fitting through material feeding unit and feed arrangement's cooperation and transfer, reduced the repetitive work of artifical material loading, improved material loading efficiency, through cutting device and positioner's cooperation, reduce the error in the cutting process, improved cutting quality.

Description

Automatic laser pipe cutting machine

Technical Field

The utility model relates to the technical field of laser cutting, in particular to an automatic laser pipe cutting machine.

Background

When adopting laser cutting device to cut the pipe fitting, the pipe fitting material loading needs the manual work to wait to cut the pipe fitting and transports into laser cutting device, and it is loaded down with trivial details to repeat the material loading step, consumes a large amount of manual works, and artifical material loading causes the error to follow-up cutting easily, influences the whole quality of pipe fitting cutting.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an automatic laser pipe cutting machine which can solve the problem that manual feeding steps are complicated when metal pipe fittings are cut.

The utility model provides an automatic laser pipe cutting machine which comprises a first rack and a second rack which are sequentially arranged from front to back, wherein the first rack is provided with: the feeding device comprises a storage rack, a feeding mechanism and a feeding groove, wherein the feeding groove is arranged on the first rack along the front-back direction, the longitudinal section of the feeding groove is in a V shape, the storage rack is arranged on one side of the feeding groove, and the feeding mechanism is arranged on the storage rack close to one side of the feeding groove; the second frame is sequentially provided with the following parts from front to back: the feeding device is used for transferring the pipe to be cut; the cutting device is used for cutting the pipe fitting; and the positioning device is used for limiting the cutting length of the pipe fitting.

According to the automatic laser pipe cutting machine, the storage rack comprises a first vertical rod, a second vertical rod and a transverse inclined rod, the first vertical rod is far away from the feeding groove compared with the second vertical rod, the transverse inclined rod is connected with the opposite sides of the first vertical rod and the second vertical rod, one side, close to the feeding groove, of the transverse inclined rod is lower than one side, far away from the feeding groove, of the transverse inclined rod, and a first guide inclined surface is arranged at the top of the second vertical rod.

According to the automatic laser pipe cutting machine, the feeding mechanism comprises a lifting cylinder and a lifting block, the lifting cylinder is arranged on a second vertical rod, the lifting block is connected with the movable end of the lifting cylinder, the left edge of the rear projection of the lifting block is located on the left side of the left edge of the rear projection of the second vertical rod, a second guide inclined surface is arranged at the top of the lifting block, and the second guide inclined surface is parallel to the first guide inclined surface.

According to the automatic laser pipe cutting machine, the bottom of the feeding groove is provided with the hand wheel and the adjusting assembly, the adjusting assembly comprises the driving worm wheel and the driven worm, the first frame is rotatably provided with the transmission shaft, the transmission shaft is arranged in parallel with the feeding groove, the hand wheel is in transmission connection with the driving worm wheel through the transmission shaft, the driven worm is movably arranged on the first frame and is vertically arranged, the driven worm is meshed with the driving worm wheel, and the upper end of the driven worm is rotatably connected with the bottom of the feeding groove.

According to the automatic laser pipe cutting machine, the storage frame, the feeding mechanism and the adjusting assemblies are arranged into at least two groups and are arranged along the length direction of the feeding groove, and the adjusting assemblies are in transmission connection through the transmission shafts.

According to the automatic laser pipe cutting machine, the feeding device comprises a feeding slide rail, a first slide table, a second slide table, a first driving piece, a second driving piece, a feeding wheel motor, a driving feeding wheel and a driven feeding wheel, the feeding slide rail is arranged on the second rack, the first driving piece is arranged on the second rack, the first slide table is arranged on the feeding slide rail in a sliding mode and connected with the movable end of the first driving piece, the second driving piece is arranged on the second rack, the second slide table is arranged on the feeding slide rail in a sliding mode and connected with the movable end of the second driving piece, the feeding wheel motor and the driving feeding wheel are both arranged on the first slide table, the feeding wheel motor is electrically connected with the driving feeding wheel, and the driven feeding wheel is arranged on the second slide table.

According to the automatic laser pipe cutting machine, the cutting device comprises a laser cutting machine cabinet, a laser cutting machine head and a chuck, the laser cutting machine cabinet is arranged on the second rack, the laser cutting machine head is arranged on the rear side of the laser cutting machine cabinet, and the chuck is arranged on the laser cutting machine cabinet.

According to the automatic laser pipe cutting machine, the positioning device comprises a main positioning slide rail, a third driving piece, a main positioning slide seat, an auxiliary positioning cylinder and a positioning piece, the main positioning slide rail is arranged on the second rack, the third driving piece is arranged on the second rack, the main positioning slide seat is arranged on the main positioning slide rail in a sliding mode and connected with the movable end of the third driving piece, the auxiliary positioning cylinder is arranged on the main positioning slide seat, the movable end of the auxiliary positioning cylinder faces the cutting device, and the positioning piece is connected with the movable end of the auxiliary positioning cylinder.

According to the automatic laser pipe cutting machine, the control module is arranged on the second rack, the detection assembly is arranged on the positioning piece and comprises two contacts, and the two contacts are electrically connected with the control module.

Has the advantages that: through the structure, when the automatic laser pipe cutting machine works, the feeding mechanism transfers the pipe fitting to be cut on the storage rack to the feeding groove, the pipe fitting on the feeding groove is transferred forwards under the cooperation of the feeding device, and the cutting device is matched with the positioning device to cut the pipe fitting; only need control hoist and mount machinery when this automatic pipe cutting machine of laser uses and will wait to cut the pipe fitting and stack to the storage frame, can accomplish the pipe fitting through material feeding unit and feed arrangement's cooperation and transfer, reduced the repetitive work of artifical material loading, improved material loading efficiency, through cutting device and positioner's cooperation, reduce the error in the cutting process, improved cutting quality.

Additional aspects and advantages of the utility model will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the utility model.

Drawings

The utility model is further described below with reference to the accompanying drawings and examples;

FIG. 1 is a schematic structural view of an automatic laser pipe cutter of the present invention;

FIG. 2 is a top view of the automatic laser pipe cutter of FIG. 1;

FIG. 3 is a right side view of the automatic laser pipe cutter of FIG. 1;

FIG. 4 is a rear view of the feed assembly of the automatic laser pipe cutter of the present invention;

FIG. 5 is a schematic view of an adjusting assembly of the feeding device of the automatic laser pipe cutting machine according to the present invention;

FIG. 6 is a rear view of the feed assembly of the automatic laser pipe cutter of the present invention;

FIG. 7 is a top plan view of the feeding device of FIG. 6;

fig. 8 is a schematic structural diagram of a positioning device in the automatic laser pipe cutting machine according to the present invention.

In the figure: 11. the automatic feeding device comprises a first machine frame, 12 parts of a second machine frame, 2 parts of a feeding device, 21 parts of a material storage frame, 211 parts of a first vertical rod, 212 parts of a second vertical rod, 213 parts of a transverse inclined rod, 22 parts of a feeding mechanism, 221 parts of a lifting cylinder, 222 parts of a lifting block, 23 parts of a feeding groove, 241 parts of a hand wheel, 242 parts of a driving worm wheel, 243 parts of a driven worm, 244 parts of a transmission shaft, 3 parts of a feeding device, 31 parts of a feeding slide rail, 32 parts of a first sliding table, 33 parts of a second sliding table, 34 parts of a first driving part, 35 parts of a second driving part, 36 parts of a feeding wheel motor, 37 parts of a driving feeding wheel, 38 parts of a driven feeding wheel, 4 parts of a cutting device, 41 parts of a laser cutting machine cabinet, 42 parts of a laser cutting machine head, 43 parts of a chuck, 5 parts of a positioning device, 51 parts of a main positioning slide rail, 52 parts of a third driving part, 53 parts of a main positioning slide seat, 54 parts of an auxiliary positioning cylinder, 55 parts and 56 contacts.

Detailed Description

Reference will now be made in detail to the present preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to like elements throughout.

In the description of the present invention, it should be understood that the orientation or positional relationship referred to in the description of the orientation, such as the upper, lower, front, rear, left, right, etc., is based on the orientation or positional relationship shown in the drawings, and is only for convenience of description and simplification of description, and does not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention.

In the description of the present invention, greater than, less than, exceeding, etc. are understood as excluding the present numbers, and the above, below, inside, etc. are understood as including the present numbers. If the first and second are described for the purpose of distinguishing technical features, they are not to be understood as indicating or implying relative importance or implicitly indicating the number of technical features indicated or implicitly indicating the precedence of the technical features indicated.

In the description of the present invention, unless otherwise explicitly limited, terms such as arrangement, installation, connection and the like should be understood in a broad sense, and those skilled in the art can reasonably determine the specific meanings of the above terms in the present invention in combination with the specific contents of the technical solutions.

Referring to fig. 1 to 8, an embodiment of a laser automatic pipe cutter includes a first frame 11 and a second frame 12 disposed from front to rear. Be provided with material feeding unit 2 on the first frame 11, material feeding unit 2 includes storage rack 21, feed mechanism 22 and feed chute 23, and feed chute 23 sets up in first frame 11 along the fore-and-aft direction, and feed chute 23 longitudinal section is "V" shape, and storage rack 21 sets up in feed chute 23 one side, and feed mechanism 22 sets up and is close to feed chute 23 one side on storage rack 21, transfers to feed chute 23 through the pipe fitting that waits to cut on the control of feed mechanism 22 on with storage rack 21. The second frame 12 is provided with: feed arrangement 3, cutting device 4 and positioner 5, the transfer of pipe fitting on feed chute 23 is controlled to feed arrangement 3, and cutting device 4 cooperates with positioner 5, and positioner 5 controls and adjusts pipe fitting length, and cutting device 4 accomplishes the cutting. Through the cooperation of above-mentioned structure, realize the automatic feeding and the cutting of a pipe fitting, reduced the repetitive work of artifical material loading, improved material loading efficiency, reduce the error among the cutting process, improved the cutting quality.

Preferably, the storage rack 21 includes a first vertical rod 211, a second vertical rod 212 and a horizontal slanting rod 213, the first vertical rod 211 is far away from the feeding chute 23 than the second vertical rod 212, the horizontal slanting rod 213 connects the opposite sides of the first vertical rod 211 and the second vertical rod 212, and one side of the horizontal slanting rod 213 near the feeding chute 23 is lower than one side far away from the feeding chute 23, and the top of the second vertical rod 212 has a first guiding slanting surface. When the pipe storage rack is used, pipe fittings to be cut are stacked to the accommodating area formed by the upper sides of the first vertical rod 211, the second vertical rod 212 and the transverse inclined rod 213 on the material storage rack 21 through a hoisting machine.

Feed mechanism 22 sets up and is close to feed chute 23 one side on storage rack 21, and feed mechanism 22 is including raising cylinder 221 and raising piece 222, raises cylinder 221 and sets up in second montant 212, raises the piece 222 and connects the expansion end of raising cylinder 221, raises the left of piece 222 rear view projected left side edge and is located second montant 212 rear view projected left side edge, and the top of raising piece 222 has the second to lead the inclined plane, and the second leads the inclined plane and is on a parallel with first slope of leading. When the lifting cylinder 221 is not started, the second guide inclined plane is lower than the first guide inclined plane, and the pipe to be cut is positioned in a space formed between the upper side of the transverse inclined rod 213 and the second vertical rod 212; during the material loading, raise cylinder 221 and start, will raise piece 222 and raise, make the second lead the inclined plane and be higher than first lead the inclined plane, raise piece 222 and raise the in-process and will wait to cut the pipe fitting and push up, roll to being located the feed chute 23 of storage frame 21 one side along first leading the inclined plane, accomplish a material loading.

Further, a hand wheel 241 and an adjusting assembly are arranged at the bottom of the feed chute 23, the adjusting assembly includes a driving worm wheel 242 and a driven worm 243, a transmission shaft 244 is rotatably arranged on the first frame 11, the transmission shaft 244 is arranged in parallel with the feed chute 23, the hand wheel 241 is in transmission connection with the driving worm wheel 242 through the transmission shaft 244, one end of the transmission shaft 244 is connected with the hand wheel 241, the other end of the transmission shaft 244 is connected with the driving worm wheel through a coupling, the driven worm 243 is movably arranged on the first frame 11, the driven worm 243 is vertically arranged, the driven worm 243 is meshed with the driving worm wheel 242, and the upper end of the driven worm 243 is rotatably connected with the bottom of the feed chute 23. During the use, through rotating hand wheel 241, hand wheel 241 drives initiative worm wheel 242, and initiative worm wheel 242 drives driven worm 243, can finely tune the height of feed chute 23, makes feed chute 23 adapt to the pipe fitting of different models, and the pipe fitting keeps the same height with rear feed arrangement 3 after the adjustment, is convenient for rear feed arrangement 3 control pipe fitting feeding.

Further, the storage rack 21, the feeding mechanism 22 and the adjusting assemblies are arranged in at least two groups and arranged along the length direction of the feeding chute 23, the adjusting assemblies are in transmission connection through a transmission shaft 244, and two ends of the transmission shaft 244 between the two connected adjusting assemblies are connected with two driven worms 243 which are adjacently arranged through couplings.

Preferably, the feeding device 3 includes a feeding slide rail 31, a first slide table 32, a second slide table 33, a first driving member 34, a second driving member 35, a feeding wheel motor 36, a driving feeding wheel 37 and a driven feeding wheel 38, the feeding slide rail 31 is disposed in the second frame 12, the first driving member 34 is disposed in the second frame 12, the first slide table 32 is slidably disposed on the feeding slide rail 31 and connected to the movable end of the first driving member 34, the second driving member 35 is disposed in the second frame 12, the second slide table 33 is slidably disposed on the feeding slide rail 31 and connected to the movable end of the second driving member 35, the feeding wheel motor 36 and the driving feeding wheel 37 are both disposed on the first slide table 32, the feeding wheel motor 36 and the driving feeding wheel 37 are electrically connected, and the driven feeding wheel 38 is disposed on the second slide table 33. In the present embodiment, the first driver 34 and the second driver 35 are preferably provided as air cylinders. When the feeding mechanism 22 moves the pipe to be cut to the feeding chute 23, the front end of the pipe to be cut is located between the driving feeding wheel 37 and the driven feeding wheel 38 of the feeding mechanism, the first driving part 34 and the second driving part 35 are controlled to be started to drive the first sliding table 32 and the second sliding table 33 to move oppositely on the feeding slide rail 31 until the driving feeding wheel 37 on the first sliding table 32 and the driven feeding wheel 38 on the second sliding table 33 clamp the pipe to be cut, the feeding wheel motor 36 is started to drive the driving feeding wheel 37 to rotate, and the driving feeding wheel 37 and the driven feeding wheel 38 drive the pipe to be cut to move forwards to the cutting device 4.

Preferably, the cutting device 4 includes a laser cutting cabinet 41, a laser cutting head 42 and a chuck 43, the laser cutting cabinet 41 is disposed on the second frame 12, the laser cutting head 42 is disposed at the rear side of the laser cutting cabinet 41, and the chuck 43 is disposed on the laser cutting cabinet 41. The chuck 43 secures the pipe and the laser cutter head 42 cuts the pipe.

Preferably, the positioning device 5 includes a main positioning slide rail 51, a third driving element 52, a main positioning slide 53, an auxiliary positioning cylinder 54 and a positioning element 55, the main positioning slide rail 51 is disposed on the second frame 12, the third driving element 52 is disposed on the second frame 12, and the main positioning slide 53 is slidably disposed on the main positioning slide rail 51 and connected to the movable end of the third driving element 52. In this embodiment, the third drive 52 is preferably provided as a motor in cooperation with the screw. The auxiliary positioning cylinder 54 is disposed on the main positioning slide 53, a movable end of the auxiliary positioning cylinder 54 faces the cutting device 4, and the positioning member 55 is connected to the movable end of the auxiliary positioning cylinder 54. A control module is arranged on the second frame 12, a detection assembly is arranged on the positioning member 55, the detection assembly comprises two contacts 56, and the two contacts 56 are electrically connected with the control module. The cutting length of the pipe to be cut is controlled by the cooperation of the third drive 52 and the primary positioning slide 53. Vice location cylinder 54 control setting element 55 removes to the pipe fitting front end, and setting element 55 plays the fixed action to the pipe fitting, avoids the pipe fitting to rock in cutting process and influences the cutting quality, and two contacts 56 of detection component are electrically conductive when contacting the pipe fitting simultaneously, and control cutting device 4 starts after the control component receives the signal, and laser cutting aircraft nose 42 cuts the pipe fitting, accomplishes the automatic cutout of a pipe fitting.

The control module is respectively and electrically connected with the feeding device 2, the feeding device 3, the cutting device 4 and the positioning device 5, and automatic control of the whole process of automatic feeding and automatic pipe cutting is realized.

The utility model provides an automatic laser pipe cutting machine which comprises a first rack 11 and a second rack 12 which are arranged from front to back, wherein a feeding device 2 comprising a storage rack 21, a feeding mechanism 22 and a feeding groove 23 is arranged on the first rack 11, and a feeding device 3, a cutting device 4 and a positioning device 5 are sequentially arranged on the second rack 12 from front to back; through the structure, when the automatic laser pipe cutting machine works, the feeding mechanism 22 transfers the pipe to be cut on the storage rack 21 to the feeding groove 23, the pipe on the feeding groove 23 is transferred forwards under the cooperation of the feeding device 3, and the cutting device 4 is matched with the positioning device 5 to cut the pipe; only need control hoist and mount machinery when this automatic pipe cutting machine of laser uses and will wait to cut the pipe fitting and stack to storage frame 21, can accomplish the pipe fitting through material feeding unit 2 and feed arrangement 3 cooperation and transfer, reduced the repetitive work of artifical material loading, improved material loading efficiency, through cutting device 4 and positioner 5's cooperation, reduce the error in the cutting process, improved the cutting quality.

The embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made within the knowledge of those skilled in the art without departing from the gist of the present invention.

Claims (9)

1. The utility model provides an automatic pipe cutting machine of laser which characterized in that includes first frame (11) and second frame (12) that set gradually after to in the past, be provided with on first frame (11):

the feeding device (2) comprises a storage rack (21), a feeding mechanism (22) and a feeding groove (23), wherein the feeding groove (23) is arranged on the first rack (11) along the front-back direction, the longitudinal section of the feeding groove (23) is V-shaped, the storage rack (21) is arranged on one side of the feeding groove (23), and the feeding mechanism (22) is arranged on one side, close to the feeding groove (23), of the storage rack (21);

the second rack (12) is sequentially provided with the following components from front to back:

the feeding device (3) is used for transferring the pipe to be cut;

the cutting device (4) is used for cutting the pipe fitting;

and the positioning device (5) is used for limiting the cutting length of the pipe fitting.

2. The automatic pipe cutting machine of claim 1, wherein the storage rack (21) comprises a first vertical rod (211), a second vertical rod (212) and a cross-diagonal rod (213), the first vertical rod (211) is disposed farther away from the feeding chute (23) than the second vertical rod (212), the cross-diagonal rod (213) connects opposite sides of the first vertical rod (211) and the second vertical rod (212), one side of the cross-diagonal rod (213) close to the feeding chute (23) is lower than one side of the cross-diagonal rod away from the feeding chute (23), and the top of the second vertical rod (212) is provided with a first guiding slope.

3. The automatic laser pipe cutting machine according to claim 2, wherein the feeding mechanism (22) comprises an elevating cylinder (221) and an elevating block (222), the elevating cylinder (221) is disposed on the second vertical rod (212), the elevating block (222) is connected to the movable end of the elevating cylinder (221), the left edge of the rear projection of the elevating block (222) is located at the left of the left edge of the rear projection of the second vertical rod (212), the top of the elevating block (222) is provided with a second guiding slope, and the second guiding slope is parallel to the first guiding slope.

4. The automatic laser pipe cutting machine according to claim 3, wherein a hand wheel (241) and an adjusting assembly are arranged at the bottom of the feeding chute (23), the adjusting assembly comprises a driving worm wheel (242) and a driven worm (243), a transmission shaft (244) is rotatably arranged on the first frame (11), the transmission shaft (244) is arranged in parallel with the feeding chute (23), the hand wheel (241) is in transmission connection with the driving worm wheel (242) through the transmission shaft (244), the driven worm (243) is movably arranged on the first frame (11), the driven worm (243) is vertically arranged, the driven worm (243) is meshed with the driving worm wheel (242), and the upper end of the driven worm (243) is rotatably connected with the bottom of the feeding chute (23).

5. The automatic pipe cutting machine of claim 4, wherein the storage rack (21), the feeding mechanism (22) and the adjusting assemblies are arranged in at least two groups and are arranged along the length direction of the feeding chute (23), and the adjusting assemblies are in transmission connection through a transmission shaft (244).

6. The automatic laser pipe cutting machine according to claim 1, wherein the feeding device (3) comprises a feeding slide rail (31), a first slide table (32), a second slide table (33), a first driving member (34), a second driving member (35), a feeding wheel motor (36), a driving feeding wheel (37) and a driven feeding wheel (38), the feeding slide rail (31) is arranged on the second rack (12), the first driving member (34) is arranged on the second rack (12), the first slide table (32) is slidably arranged on the feeding slide rail (31) and connected with the movable end of the first driving member (34), the second driving member (35) is arranged on the second rack (12), the second slide table (33) is slidably arranged on the feeding slide rail (31) and connected with the movable end of the second driving member (35), the feeding wheel motor (36) and the driving feeding wheel (37) are both arranged on the first slide table (32), and a feeding wheel motor (36) is electrically connected with the driving feeding wheel (37), and the driven feeding wheel (38) is arranged on the second sliding table (33).

7. The automatic pipe cutting machine according to claim 6, wherein the cutting device (4) comprises a laser cutting cabinet (41), a laser cutting head (42) and a chuck (43), the laser cutting cabinet (41) is disposed on the second frame (12), the laser cutting head (42) is disposed on the rear side of the laser cutting cabinet (41), and the chuck (43) is disposed on the laser cutting cabinet (41).

8. The automatic pipe cutting machine according to claim 7, wherein the positioning device (5) comprises a main positioning slide rail (51), a third driving member (52), a main positioning slide seat (53), an auxiliary positioning cylinder (54) and a positioning member (55), the main positioning slide rail (51) is disposed on the second rack (12), the third driving member (52) is disposed on the second rack (12), the main positioning slide seat (53) is slidably disposed on the main positioning slide rail (51) and connected to the movable end of the third driving member (52), the auxiliary positioning cylinder (54) is disposed on the main positioning slide seat (53), the movable end of the auxiliary positioning cylinder (54) faces the cutting device (4), and the positioning member (55) is connected to the movable end of the auxiliary positioning cylinder (54).

9. The automatic pipe cutting machine according to claim 8, wherein a control module is disposed on the second frame (12), a detection assembly is disposed on the positioning member (55), the detection assembly includes two contacts (56), and both contacts (56) are electrically connected to the control module.

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