CN112792907A

CN112792907A - Porous perforating device of rectangular shape work piece

Info

Publication number: CN112792907A
Application number: CN202011531919.5A
Authority: CN
Inventors: 董捷; 陆洲; 郭磊; 贝成胜; 董学军
Original assignee: Zhangjiagang Zhengneng Machinery Technology Co ltd
Current assignee: Zhangjiagang Zhengneng Machinery Technology Co ltd
Priority date: 2020-12-22
Filing date: 2020-12-22
Publication date: 2021-05-14

Abstract

The invention relates to a porous punching device for a long-strip-shaped workpiece, which is characterized in that a controller is arranged on a rack, an upper guide rail is horizontally fixed on a cross frame of the rack, the upper guide rail is matched with a plurality of upper guide rail brackets, the upper guide rail brackets reciprocate linearly along the upper guide rail, a first linear air cylinder is fixedly connected onto the upper guide rail brackets, a telescopic rod of the first linear air cylinder is fixedly connected with a drilling machine, a lower guide rail is horizontally fixed on a base of the rack, the lower guide rail is matched with more than two feeding and discharging tables, the feeding and discharging tables reciprocate linearly along the lower guide rail, the lower guide rail is matched with a plurality of clamping brackets, the clamping brackets reciprocate linearly along the lower guide rail, and; the material platform servo motor of material platform from top to bottom drives the wheelset, and wheelset drive conveyer belt, the material platform support and the lower rail cooperation of material platform from top to bottom, and the material platform support is along lower rail straight reciprocating motion, and conveyer belt upper portion is the plane. The invention simultaneously punches multiple holes in a one-time shape, has small error among the holes, standardization and good identity, saves labor, and has convenient operation and good economic effect.

Description

Porous perforating device of rectangular shape work piece

Technical Field

The invention relates to the technical field of drilling equipment, in particular to a multi-hole punching device for a strip-shaped workpiece, which is capable of simultaneously punching multiple holes in a one-step mode, small in error among the holes, standardized, good in identity, labor-saving, convenient to operate and good in economic effect.

Background

A drill is a general term for machines and apparatuses that leave a cylindrical hole or hole in an object by means of rotary cutting or rotary pressing using a tool harder and sharper than the object. Also known as drills, punches, through-hole machines, and the like. The expected effect is achieved by drilling the precise parts, and the drilling machines comprise a semi-automatic drilling machine and a full-automatic drilling machine, so that the cost of human resources is increased; most enterprises consider full-automatic drilling machines as a development direction. With the development of times and the improvement of the drilling technology of the automatic drilling machine, the advantage of drilling the jewelry by adopting the full-automatic drilling machine to drill the watchband of various hardware molds is obvious.

Multi-hole drills are commonly known as multi-hole drills, multi-spindle drills, or multi-spindle heads. The machine tool equipment is applied to drilling and tapping in the field of machinery. A common multi-hole drill can process a plurality of holes or even more than ten twenty holes or threads at one time only by matching with a common drilling machine. If the pneumatic device is matched, the quick advance, the working advance (working retreat), the quick retreat and the stop can be automatically carried out. The multi-hole drill is also called as a gang drill and can be used for drilling or tapping, 2-16 holes can be drilled when the common model can be used, the efficiency is improved, the number of shafts of a fixed machine is not limited, and the form and the size of a drill shaft can be designed and processed according to the requirements of customers.

For strip-shaped plates, or workpieces with irregular cross sections, or round pipes with larger length, such as keels for decoration, scaffolds, foam board supports, aluminum ladders and the like. When needs punch on the work piece, because work piece length is big, hardly once shape is porous simultaneously punches, it is big to make the error between the hole easily, is unfavorable for follow-up assembly, and the concurrent operation is hard, and the operation degree of difficulty is big, and economic effects is poor, and is porous to large batch work piece, needs a shape is porous simultaneously punches, the error is little between the hole, standardized, the identity is good, save the manual work, convenient operation, the good porous perforating device of rectangular shape work piece of economic effect.

Disclosure of Invention

The invention aims to provide the multi-hole punching device for the strip-shaped workpiece, which is capable of simultaneously punching multiple holes in a one-step shape, small in error among the holes, standardized, good in identity, labor-saving, convenient to operate and good in economic effect.

A porous perforating device for an elongated workpiece, comprising:

the automatic feeding and discharging device comprises a rack, wherein a controller is arranged on the rack, an upper guide rail is horizontally fixed on a cross frame of the rack and is matched with a plurality of upper guide rail brackets, the upper guide rail brackets reciprocate linearly along the upper guide rail, a first linear cylinder is fixedly connected onto the upper guide rail brackets, a telescopic rod of the first linear cylinder is fixedly connected with a drilling machine, a lower guide rail is horizontally fixed on a base of the rack and is matched with more than two feeding and discharging tables, the feeding and discharging tables reciprocate linearly along the lower guide rail, the lower guide rail is matched with a plurality of clamping brackets, the clamping brackets reciprocate linearly along the lower guide rail, and the clamping brackets are provided with clamping tables;

the material table servo motor of the feeding and discharging table drives a wheel set, the wheel set drives a conveyor belt, a material table bracket of the feeding and discharging table is matched with a lower guide rail, the material table bracket linearly reciprocates along the lower guide rail, and the upper part of the conveyor belt is a plane;

the clamping support is fixedly connected with a shell of a lifting cylinder, a working rod of the lifting cylinder is fixedly connected with a lifting block, a fixed chuck and a second linear cylinder are arranged on the lifting block, the shell of the second linear cylinder is fixed on the lifting block, and the working rod of the second linear cylinder is fixedly connected with a movable chuck;

the controller is connected with the first linear cylinder, the drilling machine, the material platform servo motor, the second linear cylinder and the lifting cylinder respectively.

After the lifting cylinder descends, the upper plane of the lifting block is lower than the upper plane of the conveying belt, and after the lifting cylinder ascends, the upper plane of the lifting block is higher than the upper plane of the conveying belt.

The right side of frame sets up the right side and keeps off the frame, and the left side sets up left side and keeps off the frame, and the below sets up down the crossbearer, the right side keeps off the frame and perpendicular base, crossbearer respectively, a left side keeps off the frame and perpendicular base, crossbearer respectively, the left side that keeps off the frame on the right side, the right side that keeps off the frame on the left side are the plane respectively.

The upper guide rails are respectively positioned on two sides of the cross frame and are two mutually parallel linear rails.

Six groups of upper guide rail brackets are arranged on the upper guide rail, and the upper guide rail brackets are matched with the upper guide rail through U-shaped clamping grooves.

The lower guide rail is two mutually parallel linear rails and is positioned in the middle of the base.

The length of the feeding and discharging platform is larger than the longitudinal width of the base.

The material loading and unloading platform is divided into two groups which are respectively arranged on two sides of the base, and the clamping supports are divided into five groups which are respectively arranged on two sides of the material loading and unloading platform.

The automatic feeding and discharging device comprises a rack, wherein a controller is arranged on the rack, an upper guide rail is horizontally fixed on a cross frame of the rack and is matched with a plurality of upper guide rail brackets, the upper guide rail brackets reciprocate linearly along the upper guide rail, a first linear cylinder is fixedly connected onto the upper guide rail brackets, a telescopic rod of the first linear cylinder is fixedly connected with a drilling machine, a lower guide rail is horizontally fixed on a base of the rack and is matched with more than two feeding and discharging tables, the feeding and discharging tables reciprocate linearly along the lower guide rail, the lower guide rail is matched with a plurality of clamping brackets, the clamping brackets reciprocate linearly along the lower guide rail, and the clamping tables are arranged on the clamping brackets; a material table servo motor of the feeding and discharging table drives a wheel set which drives a conveyor belt, a material table bracket of the feeding and discharging table is matched with a lower guide rail, the material table bracket moves in a reciprocating manner along the lower guide rail, and the upper part of the conveyor belt is a plane; the clamping support is fixedly connected with a shell of the lifting cylinder, a working rod of the lifting cylinder is fixedly connected with a lifting block, a fixed chuck and a second linear cylinder are arranged on the lifting block, the shell of the second linear cylinder is fixed on the lifting block, and the working rod of the second linear cylinder is fixedly connected with a movable chuck; the controller is respectively connected with the first linear cylinder, the drilling machine, the material platform servo motor, the second linear cylinder and the lifting cylinder. The invention simultaneously punches multiple holes in a one-time shape, has small error among the holes, standardization and good identity, saves labor, and has convenient operation and good economic effect.

Drawings

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

FIG. 2 is a front view of the present invention;

FIG. 3 is a top view of the present invention;

FIG. 4 is a schematic view of a loading and unloading table according to the present invention;

FIG. 5 is a schematic view of a clamping bracket and clamping table of the present invention;

in the figure: 1. the device comprises a rack, 2, a controller, 3, an upper guide rail, 4, an upper guide rail support, 5, a first linear cylinder, 6, a drilling machine, 7, a lower guide rail, 8, an upper and lower material loading platform, 9, a clamping support, 10, a clamping platform, 11, a base, 12, a cross frame, 13, a right blocking frame, 14, a left blocking frame, 15, a lower cross frame, 16, a material platform servo motor, 17, a wheel set, 18, a material platform support, 19, a fixed chuck, 20, a movable chuck, 21, a second linear cylinder, 22, a lifting cylinder, 23 and a lifting block.

Detailed Description

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

A porous perforating device for an elongated workpiece, comprising: the automatic feeding and discharging device comprises a rack 1, wherein a controller 2 is arranged on the rack 1, an upper guide rail 3 is horizontally fixed on a cross frame 12 of the rack 1, the upper guide rail 3 is matched with a plurality of upper guide rail brackets 4, the upper guide rail brackets 4 linearly reciprocate along the upper guide rail 3, a first linear air cylinder 5 is fixedly connected on the upper guide rail brackets 4, a telescopic rod of the first linear air cylinder 5 is fixedly connected with a drilling machine 6, a lower guide rail 7 is horizontally fixed on a base 11 of the rack 1, the lower guide rail 7 is matched with more than two feeding and discharging platforms 8, the feeding and discharging platforms 8 linearly reciprocate along the lower guide rail 7, the lower guide rail 7 is matched with a plurality of clamping brackets 9, the clamping brackets 9 linearly reciprocate along the lower guide rail 7, and the clamping brackets 9; a material table servo motor 16 of the material loading and unloading table 8 drives a wheel set 17, the wheel set 17 drives a conveyor belt 24, a material table bracket 18 of the material loading and unloading table 8 is matched with the lower guide rail 7, the material table bracket 18 linearly reciprocates along the lower guide rail 7, and the upper part of the conveyor belt 24 is a plane; the clamping support 9 is fixedly connected with a shell of a lifting cylinder 22, a working rod of the lifting cylinder 22 is fixedly connected with a lifting block 23, a fixed chuck 19 and a second linear cylinder 21 are arranged on the lifting block 23, the shell of the second linear cylinder 21 is fixed on the lifting block 23, and the working rod of the second linear cylinder 21 is fixedly connected with a movable chuck 20; the controller 2 is respectively connected with the first linear cylinder 5, the drilling machine 6, the material platform servo motor 16, the second linear cylinder 21 and the lifting cylinder 22.

After the lifting cylinder 22 descends, the upper plane of the lifting block 23 is lower than the upper plane of the conveyor belt 24, and after the lifting cylinder 22 ascends, the upper plane of the lifting block 23 is higher than the upper plane of the conveyor belt 24. The right side of frame 1 sets up right side and keeps off frame 13, and the left side sets up left side and keeps off frame 14, and the below sets up down crossbearer 15, and right side keeps off frame 13 and is perpendicular base 11, crossbearer 12 respectively, and left side keeps off frame 14 and is perpendicular base 11, crossbearer 12 respectively, and the left side of right side fender frame 13, the right side of left side fender frame 14 are the plane respectively. The upper guide rails 3 are respectively positioned at two sides of the cross frame 12 and are two mutually parallel linear rails. Six groups of upper guide rail brackets 4 are arranged on the upper guide rail 3, and the upper guide rail brackets 4 are matched with the upper guide rail 3 through U-shaped clamping grooves. The lower guide rail 7 is two mutually parallel linear rails and is positioned in the middle of the base 11. The length of the feeding and discharging platform 8 is larger than the longitudinal width of the base 11. The number of the feeding and discharging platforms 8 is two, and the two groups of the feeding and discharging platforms are respectively arranged on two sides of the base 11, and the number of the clamping supports 9 is five, and the five groups of the clamping supports are respectively arranged on two sides of the feeding and discharging platforms 8.

The workpiece such as a long strip plate or a round pipe is placed on the upper plane of the conveying belt 24 of the feeding and discharging table 8, and the placing mode can be manual or realized through a feeding mechanism. The controller 2 controls the material table servo motor 16 to rotate to drive the wheel set 17 to rotate, so that the workpiece on the conveyor belt 24 is driven to move along with the workpiece, meanwhile, the controller 2 controls the lifting cylinder 22 to descend, the second linear cylinder 21 drives the movable chuck 20 to recover, and gaps for placing the workpiece are reserved between the movable chuck 20 and the fixed chuck 19. When a workpiece enters a gap where the workpiece is placed between the movable chuck 20 and the fixed chuck 19, the lifting cylinder 22 on the clamping support 9 is controlled by the controller 2 to ascend, the workpiece is placed into the gap where the workpiece is placed between the movable chuck 20 and the fixed chuck 19, the controller 2 controls the second linear cylinder 21 to drive the movable chuck 20 and the fixed chuck 19 to be matched, the workpiece is clamped, meanwhile, the lifting cylinder 22 lifts the workpiece to the position below the drilling machine 6, the controller 2 controls the first linear cylinder 5 to drive the drilling machine 6 to descend, meanwhile, the drilling machine 6 is started, and the drilling machine 6 processes the workpiece. After the workpiece is machined, the workpiece is taken out in a reverse mode of the process.

The positions of the upper guide rail bracket 4 and the upper guide rail 3 are set manually in advance, and the machining position of the workpiece is calibrated and limited through the right blocking frame 13 and the left blocking frame 14.

The lower transverse frame 15 is arranged below the lower transverse frame, and the transverse frame 15 stabilizes the equipment, so that the stability is improved. The right blocking frame 13 is respectively vertical to the base 11 and the cross frame 12, the left blocking frame 14 is respectively vertical to the base 11 and the cross frame 12, the left side of the right blocking frame 13 and the right side of the left blocking frame 14 are respectively planes, and a reference plane and a limiting plane are provided for processing a workpiece. The upper guide rails 3 are respectively positioned on two sides of the cross frame 12 and are two linear rails parallel to each other, so that double-side processing is facilitated, and the production efficiency is improved. Set up six groups of upper rail brackets 4 on the upper rail 3, upper rail brackets 4 passes through the cooperation of U-shaped draw-in groove and upper rail 3, and firm cooperation conveniently adjusts the position simultaneously, does benefit to the work piece of processing different requirements. The lower guide rail 7 is two linear rails parallel to each other and located in the middle of the base 11, and therefore firmness is good, and double-sided machining is facilitated. The length of the feeding and discharging table 8 is larger than the longitudinal width of the base 11, so that two sides of a workpiece can be conveniently machined, and the workpiece can be conveniently taken out after being machined. The number of the feeding and discharging tables 8 is two, the feeding and discharging tables are respectively arranged on two sides of the base 11 to effectively support workpieces, and the number of the clamping supports 9 is five, and the clamping supports are respectively arranged on two sides of the feeding and discharging tables 8 to facilitate clamping.

The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A porous perforating device for long-strip-shaped workpieces is characterized by comprising:

the automatic feeding device comprises a rack (1), wherein a controller (2) is arranged on the rack (1), an upper guide rail (3) is horizontally fixed on a cross frame (12) of the rack (1), the upper guide rail (3) is matched with a plurality of upper guide rail brackets (4), the upper guide rail brackets (4) perform linear reciprocating motion along the upper guide rail (3), a first linear cylinder (5) is fixedly connected on the upper guide rail brackets (4), a drilling machine (6) is fixedly connected with an expansion rod of the first linear cylinder (5), a lower guide rail (7) is horizontally fixed on a base (11) of the rack (1), the lower guide rail (7) is matched with more than two feeding and discharging tables (8), the feeding and discharging tables (8) perform linear reciprocating motion along the lower guide rail (7), the lower guide rail (7) is matched with a plurality of clamping brackets (9), and the clamping brackets (9) perform linear reciprocating motion along the lower guide rail (7), a clamping table (10) is arranged on the clamping support (9);

a material table servo motor (16) of the upper and lower material tables (8) drives a wheel set (17), the wheel set (17) drives a conveyor belt (24), a material table bracket (18) of the upper and lower material tables (8) is matched with the lower guide rail (7), the material table bracket (18) linearly reciprocates along the lower guide rail (7), and the upper part of the conveyor belt (24) is a plane;

the clamping support (9) is fixedly connected with a shell of a lifting cylinder (22), a working rod of the lifting cylinder (22) is fixedly connected with a lifting block (23), a fixed chuck (19) and a second linear cylinder (21) are arranged on the lifting block (23), the shell of the second linear cylinder (21) is fixed on the lifting block (23), and the working rod of the second linear cylinder (21) is fixedly connected with a movable chuck (20);

the controller (2) is respectively connected with the first linear cylinder (5), the drilling machine (6), the material platform servo motor (16), the second linear cylinder (21) and the lifting cylinder (22).

2. The perforating device for elongated workpieces according to claim 1, characterized in that the lifting cylinder (22) is lowered such that the upper plane of the lifting block (23) is lower than the upper plane of the conveyor belt (24), and the lifting cylinder (22) is raised such that the upper plane of the lifting block (23) is higher than the upper plane of the conveyor belt (24).

3. The perforating device for elongated workpieces according to claim 1, characterized in that the right side of the frame (1) is provided with a right blocking frame (13), the left side is provided with a left blocking frame (14), the lower side is provided with a lower cross frame (15), the right blocking frame (13) is respectively perpendicular to the base (11) and the cross frame (12), the left blocking frame (14) is respectively perpendicular to the base (11) and the cross frame (12), and the left side of the right blocking frame (13) and the right side of the left blocking frame (14) are respectively planar.

4. The perforating device for elongated workpieces according to claim 1, characterized in that said upper guides (3) are two mutually parallel linear rails, one on each side of the cross-frame (12).

5. The perforating device for elongated workpieces according to claim 1, characterized in that six sets of upper rail brackets (4) are provided on the upper rail (3), and the upper rail brackets (4) are engaged with the upper rail (3) through U-shaped slots.

6. The perforating device for elongated workpieces according to claim 1, characterized in that said lower guides (7) are two mutually parallel rectilinear rails, positioned in the middle of the base (11).

7. The perforating device for elongated workpieces according to claim 1, characterized in that the length of the loading and unloading table (8) is greater than the longitudinal width of the base (11).

8. The perforating device for elongated workpieces according to claim 1, characterized in that said loading and unloading stations (8) are provided in two groups, one on each side of said base (11), and said gripping brackets (9) are provided in five groups, one on each side of said loading and unloading stations (8).