CN215432087U - Stainless steel plate laser cutting feeding device - Google Patents

Abstract

The utility model discloses a laser cutting and feeding device for stainless steel plates, and relates to the technical field of automatic production equipment. This stainless steel sheet material laser cutting loading attachment, including the square steel stand, the top of square steel stand is provided with the square steel crossbeam, two-shaft reciprocating transmission device is including reciprocating translation transmission, a slide rail, reciprocating transmission direction output and reciprocal lift transmission, slide rail fixed connection is in the top of square steel crossbeam, reciprocating translation transmission sets up on the slide rail, this stainless steel sheet material laser cutting loading attachment, through servo motor, the meshing of gear and rack combines together with the vacuum chuck technique in the atmospheric pressure in the machinery, realize the automatic absorption of stainless steel sheet material, remove, place and the cooperation of laser cutting machine, the integrated automatic operation of panel processing has been realized, can improve production efficiency effectively, reduce the recruitment and reduce staff intensity of labour, the incident risk has also been reduced simultaneously, moreover, the steam generator is simple in structure, and is convenient for maintain.

Description

Stainless steel plate laser cutting feeding device

Technical Field

The utility model relates to the technical field of production equipment, in particular to a laser cutting and feeding device for stainless steel plates.

Background

The stainless steel plate is generally processed by adopting a laser cutting technology, compared with other technologies, the laser cutting has ultrahigh speed, precision and efficiency, and the method replaces the traditional processing method of punching and cutting a die, shortens the processing period and reduces the cost.

However, in the existing laser cutting technology, in the actual operation, the stainless steel plate is placed at the feeding point of the region to be processed of the laser cutting machine in a manual feeding mode, so that the overall production efficiency is seriously damaged, the labor intensity of workers is invisibly increased, and meanwhile, the risk of safety accidents can be increased due to the contact between the workers and machinery.

SUMMERY OF THE UTILITY MODEL

The utility model provides a stainless steel plate laser cutting feeding device, which is characterized in that automatic absorption, movement and placement of a stainless steel plate are matched with a laser cutting machine through the combination of the engagement of a servo motor, a gear and a rack in machinery and a vacuum chuck technology in atmospheric pressure, so that integrated automatic operation of plate processing is realized.

In order to achieve the purpose, the utility model is realized by the following technical scheme: a stainless steel sheet material laser cutting loading attachment includes: the square steel upright post is provided with a square steel beam at the top part, and a two-axis reciprocating transmission device comprises reciprocating translation transmission, a slide rail, reciprocating transmission guide output and reciprocating lifting transmission, wherein the slide rail is fixedly connected to the top part of the square steel beam, the reciprocating translation transmission is arranged on the slide rail, the reciprocating lifting transmission is arranged on the reciprocating translation transmission, the reciprocating transmission guide output is arranged on the reciprocating lifting transmission, and the sucker device comprises a sucker shell and a sucker main body, wherein the sucker shell is fixedly connected with the bottom part of the reciprocating transmission guide output, and the sucker main body is arranged on the sucker shell; and the plate storage table is arranged right below the two-shaft reciprocating transmission device.

Further, the reciprocating translation transmission comprises a translation servo motor, a translation positioning gear and a parallel guide table, the parallel guide table is slidably embedded on the slide rail, the translation servo motor is fixedly connected with the parallel guide table, and the translation positioning gear is sleeved at the output end of the translation servo motor.

Furthermore, the top of the sliding rail is fixedly connected with a reciprocating translation rack, and the reciprocating translation rack is meshed with the translation positioning gear.

Furthermore, the outer surface of one side of the square steel beam is fixedly connected with a translation drag chain, and the other end of the translation drag chain is fixedly connected with the parallel guide table.

Further, reciprocal lift transmission includes lift servo motor, lift positioning gear and lift direction platform, lift direction platform and parallel direction platform fixed connection, lift servo motor fixed connection is in lift direction platform, lift servo motor's output is located to lift positioning gear cover.

Further, one side fixed surface of reciprocal transmission direction output is connected with reciprocal lifting rack, and reciprocal lifting rack with lift positioning gear intermeshing, reciprocal transmission direction output slides to inlay and locates between the inner wall of lift direction platform and slide, one side fixed surface of reciprocal transmission direction output is connected with the lift tow chain, and the other end fixed connection of lift tow chain is in the top of lift direction platform.

Further, the sucking disc main part includes vacuum generator, a plurality of sucking disc, a plurality of trachea and sucking disc support, sucking disc support fixed connection is in the bottom of sucking disc shell, vacuum generator and sucking disc support's top fixed connection, it is a plurality of tracheal one end is connected with vacuum generator's output intercommunication respectively, and is a plurality of the sucking disc is connected with tracheal other end intercommunication.

The utility model provides a laser cutting and feeding device for stainless steel plates. The method has the following beneficial effects:

(1) this stainless steel sheet material laser cutting loading attachment combines together through the vacuum chuck technique in the meshing of gear and rack among servo motor, the machinery and the atmospheric pressure, realizes that stainless steel sheet material's automation absorbs, removes, places and the cooperation of laser cutting machine, has realized the integrated automatic operation of panel processing, compares with traditional artifical transport mode, has improved production efficiency effectively, reduces the recruitment and reduces staff intensity of labour.

(2) This stainless steel sheet material laser cutting loading attachment through the operation of the integrated automatic operation of panel processing, can reduce personnel and mechanical contact, has also reduced the incident risk simultaneously to simple structure is convenient for maintain.

Drawings

FIG. 1 is a front perspective view of the present invention;

FIG. 2 is a side perspective view of the two-axis reciprocating drive of the present invention;

FIG. 3 is a perspective view of the reciprocating translation drive section of the present invention;

FIG. 4 is a perspective view of the reciprocating lift drive portion of the present invention;

FIG. 5 is a front perspective view of the suction cup device of the present invention;

FIG. 6 is a perspective view of a portion of the body of the chuck of the present invention.

In the figure: 1. a square steel column; 2. a square steel beam; 3. a biaxial reciprocating transmission device; 301. reciprocating translation transmission; 3011. a translation servo motor; 3012. a translation positioning gear; 3013. a parallel guide table; 302. a reciprocating translation rack; 303. translating the drag chain; 304. reciprocating lifting transmission; 3041. a lifting servo motor; 3042. a lifting positioning gear; 3043. a lifting guide table; 305. a reciprocating lifting rack; 306. lifting a drag chain; 307. reciprocating transmission and guide output; 308. a slide rail; 4. a suction cup device; 401. a suction cup housing; 402. a suction cup main body; 4021. a vacuum generator; 4022. a suction cup; 4023. an air tube; 4024. a suction cup holder; 5. and a plate storage table.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention. It is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments, and all other embodiments obtained by those skilled in the art without any inventive work are within the scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "top/bottom", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "sleeved/connected," "connected," and the like are to be construed broadly, e.g., "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Referring to fig. 1-6, the present invention provides a technical solution: a stainless steel sheet material laser cutting loading attachment includes: square steel stand 1, the top of square steel stand 1 is provided with square steel crossbeam 2, two-axis reciprocating transmission device 3 is including reciprocal translation transmission 301, slide rail 308, reciprocal transmission direction output 307 and reciprocal lift transmission 304, slide rail 308 fixed connection is in the top of square steel crossbeam 2, reciprocal translation transmission 301 sets up on slide rail 308, reciprocal lift transmission 304 sets up on reciprocal translation transmission 301, reciprocal transmission direction output 307 sets up on reciprocal lift transmission 304, suction cup device 4 includes sucking disc shell 401 and sucking disc main part 402, the bottom fixed connection of sucking disc shell 401 and reciprocal transmission direction output 307, sucking disc main part 402 sets up on sucking disc shell 401, and the platform 5 is deposited to the panel, the platform 5 is deposited to the panel sets up under two-axis reciprocating transmission device 3.

In this embodiment: the bottom of square steel stand 1 is fixed on ground, be used for the installation and fixed, square steel crossbeam 2 is installed to 1 top side-mounting of square steel stand, two-axis reciprocating transmission device 3 is installed on 2 tops of square steel crossbeam, two-axis reciprocating transmission device 3's output and sucking disc device 4, sucking disc device 4 realizes reciprocal translation and reciprocal lift through two-axis reciprocating transmission device 3, reciprocal transmission direction output 307 and the cooperation of reciprocal lift transmission 304, can drive sucking disc device 4 and go up and down, the setting of slide rail 308 is used for spacingly and fixed, setting through slide rail 308 and reciprocal translation transmission 301, can drive sucking disc device 4 and be translational motion, the setting of sucking disc shell 401 is used for installing sucking disc main part 402, sucking disc main part 402 is used for adsorbing fixed panel.

Specifically, the reciprocating translation transmission 301 includes a translation servo motor 3011, a translation positioning gear 3012 and a parallel guide table 3013, the parallel guide table 3013 is slidably embedded on the slide rail 308, the translation servo motor 3011 is fixedly connected to the parallel guide table 3013, and the translation positioning gear 3012 is sleeved on an output end of the translation servo motor 3011.

In this embodiment: translation servo motor 3011's setting provides the turning force, parallel guide table 3013's setting is used for installation and fixed reciprocal translation transmission 301, parallel guide table 3013 can slide at slide rail 308, translation positioning gear 3012's setting is used for the transmission, translation servo motor 3011 drives translation positioning gear 3012 and rotates when working, translation servo motor 3011 is current machinery, user and staff can select according to actual conditions, no longer give unnecessary details here translation servo motor 3011's specific model and specification.

Specifically, the top of the sliding rail 308 is fixedly connected with a reciprocating translation rack 302, and the reciprocating translation rack 302 is meshed with the translation positioning gear 3012.

In this embodiment: the reciprocating translation transmission 301 wraps the reciprocating translation rack 302, and the two-axis reciprocating transmission device 3 can move on the guide rail 308 through the meshing of the translation positioning gear 3012 and the reciprocating translation rack 302.

Specifically, the outer surface of one side of the square steel beam 2 is fixedly connected with a translation drag chain 303, and the other end of the translation drag chain 303 is fixedly connected with the parallel guide table 3013.

In this embodiment: the translation drag chain 303 is arranged for protecting a circuit, and the reciprocating translation transmission 301 performs reciprocating translation sliding on the reciprocating translation rack 302 through the matching of the translation drag chain 303.

Specifically, the reciprocating lifting transmission 304 includes a lifting servo motor 3041, a lifting positioning gear 3042 and a lifting guide table 3043, the lifting guide table 3043 is fixedly connected to the parallel guide table 3013, the lifting servo motor 3041 is fixedly connected to the lifting guide table 3043, and the lifting positioning gear 3042 is sleeved on an output end of the lifting servo motor 3041.

In this embodiment: the lifting servo motor 3041 is arranged to provide a rotating force, the lifting positioning gear 3042 is arranged to transmit the rotating force of the lifting servo motor 3041, the lifting positioning gear 3042 can be driven to rotate when the lifting servo motor 3041 works, the parallel guide table 3013 is arranged to mount and fix the lifting servo motor 3041, the lifting servo motor 3041 is an existing machine, and a user and a worker can select the lifting servo motor 3041 according to actual conditions, and detailed descriptions of the type and specification of the lifting servo motor 3041 are omitted here.

Specifically, a reciprocating lifting rack 305 is fixedly connected to an outer surface of one side of the reciprocating transmission guide output 307, the reciprocating lifting rack 305 is meshed with a lifting positioning gear 3042, the reciprocating transmission guide output 307 is slidably embedded between inner walls of a lifting guide table 3043, the outer surface of one side of the reciprocating transmission guide output 307 is fixedly connected with a lifting drag chain 306, and the other end of the lifting drag chain 306 is fixedly connected to the top of the lifting guide table 3043.

In this embodiment: the reciprocating lifting transmission 304 is connected with the reciprocating translation transmission 301 and wraps the reciprocating lifting rack 305, the lifting servo motor 3041 rotates to drive the lifting positioning gear 3042 to rotate, and meanwhile, the reciprocating lifting rack 305 is matched to drive the lifting drag chain 306 to move, so that the reciprocating lifting transmission 304 slides in the reciprocating transmission guide output 307 to perform reciprocating lifting sliding.

Specifically, the suction cup main body 402 includes a vacuum generator 4021, a plurality of suction cups 4022, a plurality of air pipes 4023, and a suction cup holder 4024, the suction cup holder 4024 is fixedly connected to the bottom of the suction cup housing 401, the vacuum generator 4021 is fixedly connected to the top end of the suction cup holder 4024, one end of each of the plurality of air pipes 4023 is respectively connected to the output end of the vacuum generator 4021, and the plurality of suction cups 4022 are connected to the other end of the air pipe 4023.

In this embodiment: vacuum generator 4021's input intercommunication is connected in external total air supply, through vacuum generator 4021's setting, can control the sucking disc 4022 of connecting on a plurality of trachea 4023, absorbs panel, and sucking disc support 4024's setting is used for supporting, and vacuum generator 4021 is current machinery, and user and staff can select according to actual conditions, no longer give unnecessary details vacuum generator 4021's specific model and specification here.

When in use, a plate to be processed is pre-placed on the plate storage table 5, the translation servo motor 3011 rotates to drive the translation positioning gear 3012 to rotate, the reciprocating translation rack 302 is matched with the translation positioning gear 3012 and simultaneously drives the translation drag chain 303 to move, so that the reciprocating translation transmission 301 performs reciprocating translation sliding on the slide rail, after the suction cup device 4 translates to the upper end of the plate storage table 5, the lifting servo motor 3041 rotates to drive the lifting positioning gear 3042 to rotate, the lifting positioning gear 3042 is meshed with the reciprocating lifting rack 305 through the lifting positioning gear 3042 and simultaneously drives the lifting drag chain 306 to move, so that the reciprocating lifting transmission 304 performs reciprocating lifting sliding on the reciprocating transmission guide output 307, at the moment, a plurality of suction cups 4022 in the suction cup device 4 descend to the surface of the plate to be processed, an external main gas source is started, and a negative pressure is formed on the suction cups 4022 through a plurality of gas pipes 4023 by the vacuum generator 4021, reach the effect of absorbing and treat processing panel, two axle reciprocating motion device 3 rises the back through control sucking disc device 4 together with the pending processing panel of absorption moreover, through sucking disc device 4 translation to laser cutting machine processing platform top back, and sucking disc device 4 drives the surface that descends to laser cutting machine processing platform top behind the pending processing panel of absorption, and through closing external total air supply, a plurality of sucking discs 4022 do not form the negative pressure after vacuum generator 4021 is out of work, make and treat that processing panel drops automatically to laser cutting machine and treat on the material loading point in processing region.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and equivalent alternatives or modifications according to the technical solution of the present invention and the inventive concept thereof should be covered by the scope of the present invention.

Claims (7)

1. The utility model provides a stainless steel panel laser cutting loading attachment which characterized in that includes:

the square steel column (1), the top of the square steel column (1) is provided with a square steel beam (2);

the device comprises a two-axis reciprocating transmission device (3), wherein the two-axis reciprocating transmission device (3) comprises a reciprocating translation transmission (301), a slide rail (308), a reciprocating transmission guide output (307) and a reciprocating lifting transmission (304), the slide rail (308) is fixedly connected to the top of a square steel beam (2), the reciprocating translation transmission (301) is arranged on the slide rail (308), the reciprocating lifting transmission (304) is arranged on the reciprocating translation transmission (301), and the reciprocating transmission guide output (307) is arranged on the reciprocating lifting transmission (304);

the sucker device (4) comprises a sucker shell (401) and a sucker main body (402), the sucker shell (401) is fixedly connected with the bottom of the reciprocating transmission guide output (307), and the sucker main body (402) is arranged on the sucker shell (401); and

and the plate storage table (5) is arranged right below the two-shaft reciprocating transmission device (3).

2. The laser cutting and feeding device for the stainless steel plates as claimed in claim 1, wherein: reciprocating translation transmission (301) include translation servo motor (3011), translation location gear (3012) and parallel direction platform (3013), parallel direction platform (3013) slide to inlay and locate on slide rail (308), translation servo motor (3011) and parallel direction platform (3013) fixed connection, translation servo motor (3011) the output of locating translation servo motor (3011) is located to translation location gear (3012) cover.

3. The laser cutting and feeding device for the stainless steel plates as claimed in claim 2, wherein: the top of the sliding rail (308) is fixedly connected with a reciprocating translation rack (302), and the reciprocating translation rack (302) is meshed with the translation positioning gear (3012).

4. The laser cutting and feeding device for the stainless steel plates as claimed in claim 2, wherein: the outer surface of one side of square steel crossbeam (2) is fixedly connected with translation tow chain (303), and the other end and parallel direction platform (3013) fixed connection of translation tow chain (303).

5. The laser cutting and feeding device for the stainless steel plates as claimed in claim 3, wherein: the reciprocating lifting transmission (304) comprises a lifting servo motor (3041), a lifting positioning gear (3042) and a lifting guide table (3043), the lifting guide table (3043) is fixedly connected with the parallel guide table (3013), the lifting servo motor (3041) is fixedly connected with the lifting guide table (3043), and the lifting positioning gear (3042) is sleeved on the output end of the lifting servo motor (3041).

6. The laser cutting and feeding device for the stainless steel plates as claimed in claim 5, wherein: the outer surface of one side of the reciprocating transmission guide output (307) is fixedly connected with a reciprocating lifting rack (305), the reciprocating lifting rack (305) is meshed with the lifting positioning gear (3042), the reciprocating transmission guide output (307) is slidably embedded between the inner walls of the lifting guide table (3043) in a sliding mode, the outer surface of one side of the reciprocating transmission guide output (307) is fixedly connected with a lifting drag chain (306), and the other end of the lifting drag chain (306) is fixedly connected to the top of the lifting guide table (3043).

7. The laser cutting and feeding device for the stainless steel plates as claimed in claim 1, wherein: the sucking disc main body (402) comprises a vacuum generator (4021), a plurality of sucking discs (4022), a plurality of air pipes (4023) and a sucking disc support (4024), the sucking disc support (4024) is fixedly connected to the bottom of the sucking disc shell (401), the vacuum generator (4021) is fixedly connected to the top end of the sucking disc support (4024), one ends of the air pipes (4023) are respectively communicated and connected with the output end of the vacuum generator (4021), and the sucking discs (4022) are communicated and connected with the other ends of the air pipes (4023).

Images