CN113083990A - Punching processing machinery and method for manufacturing aluminum alloy cable bridge - Google Patents

Abstract

The invention provides a blanking processing machine and a blanking processing method for manufacturing an aluminum alloy cable bridge, which comprise a side punching mechanism, a platform mechanism, a side force mechanism and a bottom plate, wherein the platform mechanism is arranged on the bottom plate; the invention solves the problems that the existing mounting holes for connecting the aluminum alloy cable bridges are drilled by workers holding drilling tools, the process is complicated, the efficiency is low, the aluminum alloy cable bridges cannot be assembled and connected quickly, and the aluminum alloy cable bridge connecting device is not suitable for large-batch drilling operation on the mounting holes of the aluminum alloy cable bridges.

Description

Punching processing machinery and method for manufacturing aluminum alloy cable bridge

Technical Field

The invention relates to the technical field of cable bridges, in particular to a blanking processing machine and a blanking processing method for manufacturing aluminum alloy cable bridges.

Background

The aluminum alloy cable bridge is a cable bridge; the aluminum alloy cable bridge is formed by aluminum alloy extrusion, and has the advantages of high size precision, good strength, attractive appearance, light weight, large bearing capacity, good corrosion resistance and the like: the aluminum alloy bridge is applied to various fields of production and life, plays a good role in protecting cables, has extreme effects on the flame retardance and the fire resistance of the cables, and is irreplaceable for any other stainless steel bridge;

in the installation process of the aluminum alloy cable bridge, the groove ends of two aluminum alloy cable bridges need to be aligned and put together, holes in the side faces of the aluminum alloy cable bridges are aligned through connecting pieces, and the two aluminum alloy cable bridges are connected and locked through half-round head bolts, so that the two aluminum alloy cable bridges are assembled and connected; the existing installation holes for connecting the aluminum alloy cable bridges are punched by workers holding drilling tools, the process is complicated, the efficiency is low, the aluminum alloy cable bridges cannot be assembled and connected quickly, and the process is not suitable for punching the installation holes of the aluminum alloy cable bridges in large batches; therefore, the invention provides a blanking processing machine and a blanking processing method for manufacturing an aluminum alloy cable bridge.

Disclosure of Invention

In order to achieve the purpose, the invention adopts the following technical scheme that the blanking processing machine for manufacturing the aluminum alloy cable bridge comprises a side punching mechanism, a platform mechanism, a side force mechanism and a bottom plate, wherein the platform mechanism is arranged on the bottom plate, the side punching mechanism is uniformly arranged on the end surface of the platform mechanism in a sliding fit manner, the side punching mechanism is connected with the side force mechanism in a sliding fit manner, and the side force mechanism is arranged on the bottom plate; wherein:

the side punching mechanism comprises a positioning vertical plate, a sliding support, a straight rod, a compression spring, a pulley, a guide rod and a side punching unit; the positioning vertical plate is arranged on the platform mechanism, a sliding support is arranged on the inner side of the positioning vertical plate, the sliding support is arranged on the platform mechanism in a sliding fit mode, a straight rod is arranged on the sliding support and is connected with the positioning vertical plate in a sliding fit mode, a compression spring is arranged on the outer ring of a shaft lever of the straight rod, a pulley is arranged at the outer shaft end of the straight rod through a bearing and is connected with a lateral force mechanism in a rolling mode, guide rods are arranged on the outer side of the straight rod and are symmetrically arranged on the sliding support and are connected with the positioning vertical plate in a sliding fit mode, and a plurality of groups of lateral punching units which are linearly distributed along the length direction of the sliding support are arranged on the sliding support; the straight rod is pushed by the compression spring, so that the pulley is in close contact with the end face of the top contact guide plate, the top contact guide plate pushes the pulley to contact with the sliding rod, the straight rod pushes the sliding support to move inwards, and the side punching unit completes punching operation through guiding horizontal movement of the guide rod.

The side punching unit comprises a crank T frame, a pressure lever, a cylindrical spring, a punch and a pressing sleeve; the crank T frame is arranged on the sliding support, the pressure rods are symmetrically arranged on the end face of the crank T frame, the outer ring of each pressure rod is provided with a cylindrical spring, a punch is arranged between the two pressure rods and is connected with the pressing sleeve in a sliding fit manner, and the pressing sleeve is arranged on the pressure rods in a sliding fit manner; the outer wall of the aluminum alloy cable bridge is pressed in advance through the pushing sleeve supported by the cylindrical spring, the crank T frame continuously and inwards abuts against the cylindrical spring, the pressing sleeve translates along the pressing rod, and the punching operation is completed through the translation and the advancing of the punch.

Preferably, the platform mechanism comprises a main beam support, a vertical plate stand, a sliding control support, a thrust support, a limiting baffle, a rotating wheel, a sliding plate, a screw rod, a hand wheel, a material collecting frame, a hanging bracket and an execution cylinder; the main beam support is arranged on the bottom plate, a straight plate vertical frame and a sliding control support are respectively arranged on the edge end face of the main beam support, the straight plate vertical frame and the sliding control support are arranged relatively, offset supports are symmetrically arranged between the straight plate vertical frame and the sliding control support in a sliding fit mode, a limit baffle is arranged on the end face of the offset support, a runner is arranged on the edge end face of the offset support through a bearing, the runner is connected with a sliding plate through a rolling mode, the sliding plate is arranged on the sliding control support in a sliding fit mode, the inner side shaft end of the screw rod is connected with the outer wall of the sliding plate through a bearing, the screw rod is arranged on the sliding control support in a spiral fit mode, a hand wheel is arranged at the outer side of the screw rod through a pin bolt, an aggregate frame is arranged on the end face of the main beam support, and the aggregate frame is positioned under the offset support, the lifting frame is arranged on the bottom end face of the main beam support, the executing cylinder is arranged on the lifting frame through a cylinder seat, and the output shaft end of the executing cylinder is connected with the lateral force mechanism through a joint; the aluminum alloy cable bridge is supported through the offset support, the limiting baffle positions the blanking position of the aluminum alloy cable bridge, then the lead screw is rotated through the hand wheel, the sliding plate is enabled to translate and synchronously slide the abutting rotating wheel, the synchronous interval translation of the offset support is achieved, the inner clamp of the aluminum alloy cable bridge is fixed, and the aggregate frame collects waste materials after blanking.

Preferably, the side force mechanism comprises a vertical plate frame, a lifting control connecting plate and a top contact guide plate; the lifting control connecting plates are arranged between the two vertical plate frames in a sliding fit mode, the bottom end surfaces of the lifting control connecting plates are connected with the platform mechanism, the front and rear positions of the end surfaces on the two sides of the lifting control connecting plates are respectively provided with a top contact guide plate, and the top contact guide plates are connected with the side punching mechanism in a sliding fit mode; the lifting control yoke plate is lifted up by executing the pushing of the air cylinder, so that the top contact guide plate is abutted against the side punching mechanism to complete the punching operation.

Preferably, the pressing sleeve is provided with waist-shaped grooves which are vertically symmetrical, so that the horizontal movement of the punch is guided conveniently, the punched hole is complete, and the surface burrs are reduced.

Preferably, the sliding plate is symmetrically provided with inclined waist holes, and the sliding plate is symmetrically provided with inclined waist holes, so that the synchronous control of the distance translation of the offset supports is facilitated, and the requirement of fixing the inner clamps of the aluminum alloy cable bridges with different width sizes is met.

Preferably, the width that the baffle was touched on the top is from last to crescent down, will the contact terminal surface that the baffle was touched on the top is established to the design of slope from low to high, is convenient for convert elevating movement into the translation motion of horizontal direction, realizes the blanking operation.

In addition, the invention also provides a blanking method of the aluminum alloy cable bridge manufacturing and blanking processing machine, which specifically comprises the following steps:

s1, forming and manufacturing the aluminum alloy cable bridge: pressing the aluminum alloy plate into an aluminum alloy cable bridge by composite mould pressing material clamping;

s2, clamping and fixing: the aluminum alloy cable bridge manufactured and molded in the step S1 is clamped and fixed through a platform mechanism, so that the aluminum alloy cable bridge is positioned and fixed;

s3, side blanking: performing blanking operation on the aluminum alloy cable bridge positioned and clamped in the S2 through a side blanking mechanism to enable waist-shaped holes to be punched at two sides of the aluminum alloy cable bridge;

s4, collection and check: and collecting the aluminum alloy cable bridge punched in the step S3 by workers, and checking the appearance condition after punching.

The invention has the beneficial effects that:

according to the aluminum alloy cable bridge, the outer wall of the aluminum alloy cable bridge is pressed in advance through the pressing sleeve, the impact support abuts against the inner wall of the aluminum alloy cable bridge, the vertical flatness of the appearance of the aluminum alloy cable bridge is guaranteed, the punched notch edge is protected, the notch damage caused by tearing of a non-punched area is prevented, the positioning punching accuracy is facilitated, the punched notch is complete, surface burrs are reduced, and the punching quality of the aluminum alloy cable bridge is improved.

The sliding plate is in sliding contact with the rotating wheel, synchronous interval translation of the impact support is achieved, so that fixing of an inner clamp of the aluminum alloy cable bridge is achieved, fixing of the inner clamp of the aluminum alloy cable bridge with different width sizes can be met, blanking operation is achieved through mutual matching of the sliding plate and the side impact unit, the vertical flatness of the outer wall of the aluminum alloy cable bridge is kept, damage caused by deformation of the outer wall of the aluminum alloy cable bridge due to blanking force is prevented, and stability of the blanking operation process is effectively improved.

And thirdly, the side punching unit is pushed by the lifting of the top contact guide plate, so that the lifting motion is converted into the horizontal translation motion, the side surface of the aluminum alloy cable bridge frame is synchronously blanked, the blanking step is simplified, the blanking efficiency is improved, and the accurate operation of positioning blanking is realized.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a perspective view of the present invention in a primary viewing position;

FIG. 2 is an enlarged view of a portion of the invention at A in FIG. 1;

FIG. 3 is a schematic partial perspective view of the primary viewing position of the present invention;

FIG. 4 is a schematic perspective view of the side-punching mechanism of the present invention;

FIG. 5 is a perspective view of the platform mechanism of the present invention;

FIG. 6 is an enlarged view of a portion of the invention at B in FIG. 5;

FIG. 7 is a partial perspective sectional view of the platform mechanism of the present invention;

fig. 8 is a perspective view of the side force mechanism of the present invention.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further described below by combining with the specific drawings, and it is to be noted that the embodiments and the features in the embodiments can be combined with each other in the application without conflict.

As shown in fig. 1 to 8, a blanking machine for manufacturing an aluminum alloy cable bridge comprises a side punching mechanism 1, a platform mechanism 2, a side force mechanism 3 and a bottom plate 4, wherein the platform mechanism 2 is installed on the bottom plate 4, the side punching mechanisms 1 are uniformly arranged on the end surface of the platform mechanism 2 in a sliding fit manner, the side punching mechanisms 1 are connected with the side force mechanism 3 in a sliding fit manner, and the side force mechanism 3 is installed on the bottom plate 4; wherein:

the side punching mechanism 1 comprises a positioning vertical plate 10, a sliding support 11, a straight rod 12, a compression spring 13, a pulley 14, a guide rod 15 and a side punching unit 16; the positioning vertical plate 10 is installed on a main beam support 20, a sliding support 11 is arranged on the inner side of the positioning vertical plate 10, the sliding support 11 is installed on the main beam support 20 in a sliding fit mode, a straight rod 12 is installed on the sliding support 11, the straight rod 12 is connected with the positioning vertical plate 10 in a sliding fit mode, a compression spring 13 is arranged on the outer ring of a shaft lever of the straight rod 12, a pulley 14 is installed at the outer shaft end of the straight rod 12 through a bearing, the pulley 14 is connected with a top contact guide plate 32 in a rolling mode, guide rods 15 are arranged on the outer side of the straight rod 12, the guide rods 15 are symmetrically installed on the sliding support 11, the guide rods 15 are connected with the positioning vertical plate 10 in a sliding fit mode, and a plurality of groups of side punching units 16 which are linearly distributed along the length direction of the sliding support 11; the compression spring 13 pushes the straight rod 12 to enable the pulley 14 to be in close contact with the end face of the pushing and contacting guide plate 32, the pushing and contacting guide plate 32 pushes the pulley 14 to enable the straight rod 12 to push the sliding support 11 to move inwards in a translation mode, and the guide rod 15 guides the sliding support to move horizontally, so that the side punching unit 16 completes punching operation.

The side punching unit 16 comprises a crank T frame 161, a pressing rod 162, a cylindrical spring 163, a punch 164 and a pressing sleeve 165; the crank T-shaped frame 161 is arranged on the sliding support 11, the pressing rods 162 are symmetrically arranged on the end face of the crank T-shaped frame 161, the outer ring of each pressing rod 162 is provided with a cylindrical spring 163, a punch 164 is arranged between the two pressing rods 162, the punches 164 are connected with the pressing sleeve 165 in a sliding fit manner, the pressing sleeve 165 is arranged on the pressing rods 162 in a sliding fit manner, the pressing sleeve 165 is vertically symmetrically provided with waist-shaped grooves, so that the horizontal movement of the punch 164 is guided, the punching notch is complete, and the surface burrs are reduced; the outer wall of the aluminum alloy cable bridge is pressed in advance by pushing the pressing sleeve 165 through the cylindrical spring 163, then the pressing sleeve 165 continuously pushes inwards through the crank T frame 161, the pressing sleeve 165 horizontally moves along the pressing rod 162, and the punching operation is completed by horizontally moving and advancing the punch 164.

The platform mechanism 2 comprises a main beam support 20, a vertical plate stand 21, a sliding control support 22, a thrust support 23, a limit baffle 24, a rotating wheel 25, a sliding plate 26, a lead screw 27, a hand wheel 28, a material collecting frame 29, a hanging bracket 29A and an execution cylinder 29B; the main beam support 20 is arranged on the bottom plate 4, a vertical plate stand 21 and a sliding control support 22 are respectively arranged on the edge end surface of the main beam support 20, the vertical plate stand 21 and the sliding control support 22 are arranged oppositely, the offset supports 23 are symmetrically arranged between the vertical plate stand 21 and the sliding control support 22 in a sliding fit mode, the end face of the offset support 23 is provided with a limit baffle 24, the edge end face of the offset support 23 is provided with a rotating wheel 25 through a bearing, and the rotating wheel 25 is connected with the sliding plate 26 in a rolling way, the sliding plate 26 is arranged on the sliding control bracket 22 in a sliding fit way, inclined waist holes are symmetrically formed in the sliding plate 26, and the sliding plate 26 is symmetrically provided with the inclined waist holes, so that the synchronous control of the distance translation of the impact brackets 23 is facilitated, and the internal clamping fixation of aluminum alloy cable bridges with different width sizes is met; the lifting device is characterized in that the outer wall of the sliding plate 26 is connected with the inner side shaft end of a screw 27 through a bearing, the screw 27 is installed on the sliding control support 22 in a spiral matching mode, the outer side shaft end of the screw 27 is provided with a hand wheel 28 through a pin bolt, the material collecting frame 29 is installed on the end surface of the main beam support 20, the material collecting frame 29 is located right below the impact support 23, the hanging bracket 29A is installed on the bottom end surface of the main beam support 20, the execution cylinder 29B is installed on the hanging bracket 29A through a cylinder seat, and the output shaft end of the execution cylinder 29B is connected with a lifting control connecting plate 31 through a joint; the aluminum alloy cable bridge is supported by the support 23, the blanking position of the aluminum alloy cable bridge is located by the limit baffle 24, then the lead screw 27 is rotated by the hand wheel 28, the sliding plate 26 is enabled to translate and synchronously slide to abut against the rotating wheel 25, the synchronous interval translation of the support 23 is achieved, the inner clamp of the aluminum alloy cable bridge is fixed, and the blanking waste materials are collected by the collection frame 29.

The side force mechanism 3 comprises a vertical plate frame 30, a lifting control yoke plate 31 and a top contact guide plate 32; the vertical plate frames 30 are symmetrically arranged on the bottom plate 4, the lifting control connecting plate 31 is arranged between the two vertical plate frames 30 in a sliding fit mode, the bottom end face of the lifting control connecting plate 31 is connected with the execution cylinder 29B, the front and back positions of the end faces on the two sides of the lifting control connecting plate 31 are respectively provided with a top contact guide plate 32, the top contact guide plates 32 are connected with the pulleys 14 in a sliding fit mode, the width of the top contact guide plates 32 is gradually increased from top to bottom, the contact end faces of the top contact guide plates 32 are designed to be inclined from low to high, the lifting motion is converted into the horizontal translation motion, and blanking operation is achieved; the actuating cylinder 29B pushes the lifting control connecting plate 31 to ascend, so that the top touch guide plate 32 is abutted against the side punching mechanism 1 to complete punching operation.

In addition, the invention also provides a blanking method of the aluminum alloy cable bridge manufacturing and blanking processing machine, which specifically comprises the following steps:

s1, forming and manufacturing the aluminum alloy cable bridge: pressing the aluminum alloy plate into an aluminum alloy cable bridge by composite mould pressing material clamping;

s2, clamping and fixing: the aluminum alloy cable bridge manufactured and molded in the step S1 is clamped and fixed through the platform mechanism 2, so that the aluminum alloy cable bridge is positioned and fixed;

s3, side blanking: performing blanking operation on the aluminum alloy cable bridge positioned and clamped in the S2 through a side blanking mechanism 1 to enable waist-shaped holes to be punched at two sides of the aluminum alloy cable bridge;

s4, collection and check: and collecting the aluminum alloy cable bridge punched in the step S3 by workers, and checking the appearance condition after punching.

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 (7)

1. The utility model provides an aluminum alloy cable testing bridge makes blanking processing machinery, includes side blow mechanism (1), platform mechanism (2), side force mechanism (3) and bottom plate (4), its characterized in that: the side punching mechanism (1) is connected with the side force mechanism (3) in a sliding fit manner, and the side force mechanism (3) is arranged on the bottom plate (4); wherein:

the side punching mechanism (1) comprises a positioning vertical plate (10), a sliding support (11), a straight rod (12), a compression spring (13), a pulley (14), a guide rod (15) and a side punching unit (16); the device is characterized in that the positioning vertical plate (10) is arranged on the platform mechanism (2), a sliding support (11) is arranged on the inner side of the positioning vertical plate (10), the sliding support (11) is arranged on the platform mechanism (2) in a sliding fit manner, a straight rod (12) is arranged on the sliding support (11), the straight rod (12) is connected with the positioning vertical plate (10) in a sliding fit manner, a compression spring (13) is arranged on the outer ring of a shaft rod of the straight rod (12), a pulley (14) is arranged at the outer side shaft end of the straight rod (12) through a bearing, the pulley (14) is connected with the lateral force mechanism (3) in a rolling manner, a guide rod (15) is arranged on the outer side of the straight rod (12), the guide rods (15) are symmetrically arranged on the sliding support (11), and the guide rod (15) is connected with the positioning vertical plate (10) in a sliding fit manner, a plurality of groups of side punching units (16) which are linearly distributed along the length direction of the sliding support (11) are arranged on the sliding support;

the side punching unit (16) comprises a crank T frame (161), a pressing rod (162), a cylindrical spring (163), a punch (164) and a pressing sleeve (165); crank T frame (161) install on sliding support (11), be located symmetrical installation depression bar (162) on the terminal surface of crank T frame (161), the outer lane that is located depression bar (162) is provided with cylindrical spring (163), be located two depression bar (162) between be provided with drift (164), and drift (164) through sliding fit mode with press cover (165) interconnect, press cover (165) install on depression bar (162) through sliding fit mode.

2. The aluminum alloy cable tray manufacturing and blanking processing machine as claimed in claim 1, wherein: the platform mechanism (2) comprises a main beam support (20), a vertical plate stand (21), a sliding control support (22), a thrust support (23), a limit baffle (24), a rotating wheel (25), a sliding plate (26), a screw rod (27), a hand wheel (28), an aggregate frame (29), a hanging bracket (29A) and an execution cylinder (29B); the main beam support (20) is arranged on the bottom plate (4), the edge end faces of the main beam support (20) are respectively provided with a vertical plate stand (21) and a sliding control support (22), the vertical plate stand (21) and the sliding control support (22) are arranged oppositely, the vertical plate stand (21) and the sliding control support (22) are symmetrically provided with thrust supports (23) in a sliding fit mode, the end face of the thrust support (23) is provided with a limit baffle (24), the edge end face of the thrust support (23) is provided with a rotating wheel (25) through a bearing, the rotating wheel (25) is connected with a sliding plate (26) through a rolling mode, the sliding plate (26) is arranged on the sliding control support (22) through a sliding fit mode, the outer wall of the sliding plate (26) is arranged on the inner side shaft end of a lead screw (27) through a bearing, the lead screw (27) is connected with the sliding control support (22) through a spiral fit mode, and the outer shaft end of the screw rod (27) is provided with a hand wheel (28) through a pin bolt, the material collecting frame (29) is arranged on the end surface of the main beam support (20), the material collecting frame (29) is positioned right below the abutting support (23), the hanging bracket (29A) is arranged on the bottom end surface of the main beam support (20), the execution cylinder (29B) is arranged on the hanging bracket (29A) through a cylinder seat, and the output shaft end of the execution cylinder (29B) is connected with the lateral force mechanism (3) through a joint.

3. The aluminum alloy cable tray manufacturing and blanking processing machine as claimed in claim 1, wherein: the side force mechanism (3) comprises a vertical plate frame (30), a lifting control link plate (31) and a top contact guide plate (32); the installation of straight grillage (30) symmetry on bottom plate (4), two straight grillage (30) between be provided with through sliding fit mode and lift accuse yoke plate (31), and lift the bottom terminal surface and platform mechanism (2) interconnect of accuse yoke plate (31), be located to lift the front and back position of accuse yoke plate (31) both sides terminal surface and install respectively and push up and touch baffle (32), and push up and touch baffle (32) and through sliding fit mode and side blow mechanism (1) interconnect.

4. The aluminum alloy cable tray manufacturing and blanking processing machine as claimed in claim 1, wherein: the pressing sleeve (165) is provided with waist-shaped grooves in vertical symmetry.

5. The aluminum alloy cable tray manufacturing and blanking processing machine as claimed in claim 2, wherein: the sliding plate (26) is symmetrically provided with inclined waist holes.

6. The aluminum alloy cable tray manufacturing and blanking processing machine as claimed in claim 3, wherein: the width of the top contact guide plate (32) is gradually increased from top to bottom.

7. The aluminum alloy cable tray manufacturing and blanking processing machine as claimed in claim 1, wherein: the aluminum alloy cable bridge manufacturing and blanking processing machine is used for blanking the mounting hole of the aluminum alloy cable bridge, and the specific blanking processing method comprises the following steps:

s1, forming and manufacturing the aluminum alloy cable bridge: pressing the aluminum alloy plate into an aluminum alloy cable bridge by composite mould pressing material clamping;

s2, clamping and fixing: the aluminum alloy cable bridge manufactured and molded in the step S1 is clamped and fixed through a platform mechanism (2), so that the aluminum alloy cable bridge is positioned and fixed;

s3, side blanking: performing blanking operation on the aluminum alloy cable bridge positioned and clamped in the S2 through a side blanking mechanism (1), so that waist-shaped holes are punched at two sides of the aluminum alloy cable bridge;

s4, collection and check: and collecting the aluminum alloy cable bridge punched in the step S3 by workers, and checking the appearance condition after punching.

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