CN213378810U - Automatic rapid forming equipment for shielding clamp - Google Patents

Abstract

The utility model discloses an automatic quick former of shielding clip relates to former technical field. The utility model discloses a structure includes box, work box, pneumatic cylinder, No. two pneumatic cylinders, No. three pneumatic cylinders, punching press board, cylinder, the cavity is the working chamber in the work box, a pneumatic cylinder is fixed on the lateral wall of working chamber top, a pneumatic cylinder bottom mounting has the die-cutting tool, No. two pneumatic cylinders are fixed on the lateral wall of working chamber top, No. two mould of pneumatic cylinder bottom mounting, No. three pneumatic cylinders are fixed on the lateral wall around the working chamber, No. two moulds of No. three pneumatic cylinder end mounting, the punching press board sets up in box roof slide, the bottom of punching press board is provided with the base, a fixed pneumatic cylinder No. four in base center, the cylinder is fixed in the perpendicular through-hole of punching press board, the cylinder top is fixed with to the piece. The utility model discloses but the physique of automatic cutout shielding clip, but and continuous molding processing.

Description

Automatic rapid forming equipment for shielding clamp

Technical Field

The utility model relates to a former technical field especially relates to an automatic quick former of shielding clip.

Background

A shield is a means for shielding electronic signals. The function is to shield the influence of external electromagnetic wave on the internal circuit and the outward radiation of the internally generated electromagnetic wave. The shielding clamp is a clamp with metal and is mainly used for assembling and connecting the shielding cover. The shield clip is a hardware part, and the forming mode is generally stamping and casting. The rapid hardware forming equipment in the prior art needs to cut an iron sheet into a specific shape in advance and then perform automatic punch forming.

Accordingly, one skilled in the art provides a subject to solve the problems set forth in the background above.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that, overcome prior art's hardware rapid prototyping equipment and need cut into the iron sheet specific shape in advance and carry out automatic stamping forming again.

In order to solve the above technical problems, the utility model provides an automatic and rapid molding device for a shielding clip, which comprises,

the supporting mechanism structurally comprises a box body, the box body is of a cuboid structure, a cuboid groove is arranged on the top side wall of the box body and is a first slideway, a cuboid groove is arranged on the bottom side wall of the first slideway and is a second slideway, a workbench is arranged in the first slideway, and the box body plays a role in integral supporting; the working box is of a cuboid groove body structure, an opening at the bottom end of the working box is fixed on the top side wall of the box body, a cavity in the working box is a working cavity, a forming device is arranged in the working box, and the working box plays a role in supporting the forming device;

the forming device structurally comprises a first hydraulic cylinder, wherein the first hydraulic cylinder is fixed in the middle of the top side wall of the working cavity, a punching knife is fixed at the bottom end of a telescopic rod of the first hydraulic cylinder, and the first hydraulic cylinder extends to drive the punching knife to move downwards so that the punching knife cuts off the shielding clamp body on the iron plate; the second hydraulic cylinder is fixed at the right part of the top side wall of the working cavity, a first mold is fixed at the bottom end of a telescopic rod of the second hydraulic cylinder, the second hydraulic cylinder extends to drive the first mold to move downwards to press the central part of the shielding clamp body, and the first mold is a U-shaped groove model of the shielding clamp; the hydraulic cylinder is provided with two dies which are respectively fixed at the right lower parts of the front side wall and the rear side wall of the working cavity, the telescopic rod end of the hydraulic cylinder is fixed with a second die, the hydraulic cylinder extends to drive the second die to move inwards, and the second die punches a clamping plate of the shielding clamp to wrap the first die so as to form the shielding clamp in a three-dimensional mode;

the workbench structurally comprises a stamping plate, wherein the stamping plate is of a cuboid structure, a cutter die groove is formed in the top side wall of the stamping plate, the stamping plate is arranged in a first slide way, a base is arranged at the bottom of the stamping plate, a fourth hydraulic cylinder is fixed at the center of the base, the top end of a telescopic rod of the fourth hydraulic cylinder is fixed in a groove in the bottom side wall of the stamping plate, and the fourth hydraulic cylinder contracts to drive the stamping plate to move downwards; the cylinder is fixed in the vertical through hole of the stamping plate, a resisting block is fixed at the top end of a telescopic rod of the cylinder, the cylinder extends to drive the resisting block to move upwards, and the resisting block upwards resists and bends a clamping plate of the shielding clamp so that the clamping plate can be stamped by a second die; an electric putter, an electric putter sets up in the box cavity, an electric putter's telescopic link left end is passed through the mounting panel and is fixed with the base, an electric putter extension drive base slides in No. two slides, drives punching press board and base and slides in a slide.

As a further aspect of the present invention: the stamping die comprises a stamping plate, a sliding way is arranged on the stamping plate, a left die cavity and a right die cavity are arranged on the top side wall of the stamping plate, and when the stamping plate slides to the left end of the first sliding way, one die cavity on the right side is vertically opposite to a stamping knife.

As a further aspect of the present invention: the left part of working chamber is provided with a pneumatic cylinder No. two and two pneumatic cylinders No. three, but two sets of pneumatic cylinders No. two and No. three pneumatic cylinders in the working chamber are about a pneumatic cylinder symmetry, but two sets of pneumatic cylinders No. two and No. three pneumatic cylinders continuous stamping forming shielding clip.

As a further aspect of the present invention: the utility model discloses a mould, including the working chamber, the side wall is gone up to the side of working chamber, respectively fixed electric putter about the working chamber, No. two electric putter's the fixed push pedal of telescopic link, No. two electric putter shrink drive push pedal moves to the outside, the shaping shielding clip of parcel on a mould is scraped to the push pedal.

As a further aspect of the present invention: the left end and the right end of the side wall at the top of the box body are respectively provided with a triangular column notch as an outlet, and the outlet facilitates the formed shielding clamp in the working cavity to slide out of the working cavity.

As a further aspect of the present invention: the middle parts of the bottom ends of the front side wall and the rear side wall of the working box are respectively provided with a rectangular through hole as a box door, and the box door is convenient for conveying the iron plate to the position right below the punching knife.

As a further aspect of the present invention: the top on the chamber door is provided with the transfer roller, be provided with the transfer roller in the box recess of chamber door bottom, the transfer roller passes through the conveyer belt and is connected with the motor with the action wheel, motor drive action wheel drives the conveyer belt and the transfer roller rotates, and iron plate removal backward in the past can be cliied to the transfer roller from top to bottom.

As a further aspect of the present invention: a control panel is arranged in a groove in the front side wall of the working box and is connected with a motor, a hydraulic cylinder, an electric push rod and a cylinder through leads, and the control panel is used as a human-computer interaction interface and is convenient for controlling the operation of equipment.

As a further aspect of the present invention: the control panel adopts a micro numerical control M2P high-layout motion controller, has 24-path input and 18-path output, can control 1-6 axes, and is suitable for motion control of complex equipment.

The utility model has the advantages that:

(1) the utility model is provided with a forming device, when in use, the control panel is controlled to lead the equipment to run, and the iron plate is sent into the working chamber from the box door, so that the iron plate moves to the position right below the punching knife; the first hydraulic cylinder extends to drive the punching knife to move downwards, the punching knife punches the iron plate, and the next shielding clamp body is cut; the fourth hydraulic cylinder contracts to drive the stamping plate to move downwards, so that the stamped shielding clamp body is separated from the iron plate and falls on the stamping plate, the first electric push rod extends to drive the workbench to slide to the left end of the first slideway, and the fourth hydraulic cylinder extends to drive the stamping plate to move upwards to be flush with the top surface of the box body; a second hydraulic cylinder at the left part of the working cavity extends to drive a first die to move downwards, the central line part of the shielding clamp body is pressed and fixed on the stamping plate, the cylinder extends to drive the abutting block to move upwards, the abutting block abuts upwards against the shielding clamp clamping plate to enable the clamping plate to bend upwards, and then the cylinder contracts to enable the abutting block to be immersed into the stamping plate; the third hydraulic cylinder extends to drive the second mold to move inwards, and the second mold extrudes the shielding clamp clamping plate to wrap the clamping plate on the first mold for molding; no. two pneumatic cylinder shrink drive moulds carry shaping shielding clip rebound, and No. two electric putter shrink drive push pedals move to the outside, and the shielding clip on the push pedal will a mould pushes away, from the export roll-off. The utility model discloses but the physique of automatic cutout shielding clip.

(2) The utility model discloses set up the workstation, when the shielding clip shaping of punching press board left part, a pneumatic cylinder extension drive die cutter moves down, a shielding clip physique dashes down in punching press board right side cutting die cavity, after punching press board left part shielding clip shaping, No. four pneumatic cylinder shrink drive punching press board moves down, an electric putter shrink drive punching press board moves to the right side, make punching press board left part cutting die cavity just under the die cutter, No. two pneumatic cylinders and No. three pneumatic cylinders of working chamber right part are to a shielding clip physique shaping processing of punching press board right part. The utility model discloses but continuous molding processing.

Drawings

Fig. 1 is a schematic view of the structure of the present invention;

fig. 2 is a schematic top view of the present invention;

fig. 3 is a front sectional view of the table.

Wherein: the device comprises a box body 10, a work box 11, a work cavity 12, a first slide way 13, a second slide way 14, an outlet 15, a conveying roller 16, a first hydraulic cylinder 20, a punching knife 21, a second hydraulic cylinder 22, a first mould 23, a third hydraulic cylinder 24, a second mould 25, a punching plate 30, a base 31, a fourth hydraulic cylinder 32, a cylinder 33, a butting block 34, a second electric push rod 35, a push plate 36 and a first electric push rod 37.

Detailed Description

The automatic rapid molding device for the shielding clamp provided by the embodiment has a structure as shown in fig. 1-3, and comprises,

the supporting mechanism structurally comprises a box body 10, wherein the box body 10 is of a cuboid structure, a cuboid groove is arranged on the top side wall of the box body 10 and is a first slideway 13, a cuboid groove is arranged on the bottom side wall of the first slideway 13 and is a second slideway 14, a workbench is arranged in the first slideway 13, and the box body 10 plays a role in integral supporting; the working box 11 is of a cuboid groove structure, an opening at the bottom end of the working box 11 is fixed on the top side wall of the box body 10, a cavity in the working box 11 is a working cavity 12, a forming device is arranged in the working box 11, and the working box 11 plays a role in supporting the forming device;

the forming device structurally comprises a first hydraulic cylinder 20, wherein the first hydraulic cylinder 20 is fixed in the middle of the top side wall of the working cavity 12, a punching knife 21 is fixed at the bottom end of a telescopic rod of the first hydraulic cylinder 20, and the first hydraulic cylinder 20 extends to drive the punching knife 21 to move downwards so that the punching knife 21 cuts off a shielding clamp body on an iron plate; the second hydraulic cylinder 22 is fixed at the right part of the top side wall of the working cavity 12, a first mold 23 is fixed at the bottom end of a telescopic rod of the second hydraulic cylinder 22, the second hydraulic cylinder 22 extends to drive the first mold 23 to move downwards to press the central part of the shielding clamp body, and the first mold 23 is a shielding clamp U-shaped groove model; a third hydraulic cylinder 24, two of the third hydraulic cylinder 24 are respectively fixed at the right lower parts of the front and rear side walls of the working cavity 12, a second die 25 is fixed at the telescopic rod end of the third hydraulic cylinder 24, the third hydraulic cylinder 24 extends to drive the second die 25 to move inwards, and the second die 25 presses and wraps the clamping plate of the shielding clamp on the first die 23 to enable the shielding clamp to be formed in a three-dimensional mode;

the workbench structurally comprises a stamping plate 30, wherein the stamping plate 30 is of a cuboid structure, a cutter die groove is formed in the top side wall of the stamping plate 30, the stamping plate 30 is arranged in a first slide channel 13, a base 31 is arranged at the bottom of the stamping plate 30, a fourth hydraulic cylinder 32 is fixed at the center of the base 31, the top end of a telescopic rod of the fourth hydraulic cylinder 32 is fixed in a groove in the bottom side wall of the stamping plate 30, and the fourth hydraulic cylinder 32 contracts to drive the stamping plate 30 to move downwards; the cylinder 33 is fixed in the vertical through hole of the stamping plate 30, the top end of the telescopic rod of the cylinder 33 is fixed with a supporting block 34, the cylinder 33 extends to drive the supporting block 34 to move upwards, and the supporting block 34 upwards supports and bends the clamping plate of the shielding clamp so that the clamping plate can be stamped by the second die 25; no. one electric putter 37, No. one electric putter 37 sets up in the cavity of box 10, No. one electric putter 37's telescopic link left end is fixed with base 31 through the mounting panel, No. one electric putter 37 extends the drive base and slides in No. two slides 14, drives punching press board 30 and base 31 and slides in No. one slide 13.

The stamping die comprises a stamping plate 30, and is characterized in that a left die cavity and a right die cavity are arranged on the top side wall of the stamping plate 30, and when the stamping plate 30 slides to the left end of a first slide way 13, one die cavity on the right side is vertically opposite to a stamping knife 21.

The left part of working chamber 12 is provided with a No. two pneumatic cylinders 22 and two No. three pneumatic cylinders 24, two sets of No. two pneumatic cylinders 22 and No. three pneumatic cylinders 24 in working chamber 12 are about a hydraulic pressure 20 jar symmetries, but two sets of No. two pneumatic cylinders 22 and No. three pneumatic cylinders 24 continuous stamping forming shielding clip.

Respectively fixed electric putter 35 No. two on the lateral wall about working chamber 12, a push pedal 36 is fixed to electric putter 35's telescopic link end, No. two electric putter 35 shrink drive push pedal 36 and move to the outside, push pedal 36 will wrap up the shaping shielding clip on mould 23 and scrape.

The left end and the right end of the top side wall of the box body 10 are respectively provided with a triangular column notch which is an outlet 15, and the outlet 15 is convenient for a formed shielding clamp in the working cavity 12 to slide out of the working cavity 12.

The middle parts of the bottom ends of the front side wall and the rear side wall of the working box 11 are respectively provided with a rectangular through hole as a box door, and the box door is convenient for conveying the iron plate to the position under the punching knife 21.

The top on the chamber door is provided with transfer roller 16, be provided with transfer roller 16 in the box recess of chamber door bottom, transfer roller 16 passes through the conveyer belt and is connected with the motor with the action wheel, motor drive action wheel drives conveyer belt and transfer roller 16 and rotates, and iron plate from the past backward removal can be cliied to upper and lower transfer roller 16.

A control panel is arranged in a groove in the front side wall of the working box 10 and is connected with a motor, a hydraulic cylinder, an electric push rod and a cylinder 33 through leads, and the control panel is used as a human-computer interaction interface and is convenient for controlling the operation of equipment.

The control panel adopts a micro numerical control M2P high-layout motion controller, has 24-path input and 18-path output, can control 1-6 axes, and is suitable for motion control of complex equipment.

The utility model discloses a theory of operation: when in use, the control panel is controlled to operate the equipment, the iron plate is conveyed into the working cavity 12 from the box door, and the iron plate moves to the position right below the punching knife 21; the first hydraulic cylinder 20 extends to drive the stamping knife 21 to move downwards, the stamping knife 21 punches an iron plate, and a next shielding clamp body is cut; the fourth hydraulic cylinder 32 contracts to drive the stamping plate 30 to move downwards, so that the stamped shielding clamp body is separated from the iron plate and falls on the stamping plate 30, the first electric push rod 37 extends to drive the workbench to slide to the left end of the first slideway 13, and the fourth hydraulic cylinder 32 extends to drive the stamping plate 30 to move upwards to be flush with the top surface of the box body 10; a second hydraulic cylinder 22 at the left part of the working cavity 12 extends to drive a first die 23 to move downwards, the central line part of the shielding clamp body is pressed and fixed on the stamping plate 30, a cylinder 33 extends to drive a resisting block 34 to move upwards, the resisting block 34 upwards resists a shielding clamp clamping plate to enable the clamping plate to bend upwards, and then the cylinder 33 contracts to enable the resisting block to sink into the stamping plate 30; the third hydraulic cylinder 24 extends to drive the second mold 25 to move inwards, and the second mold 25 extrudes the shielding clamp clamping plate to wrap the clamping plate on the first mold 23 for molding; the second hydraulic cylinder 22 contracts to drive the first mold 23 to carry the formed shielding clamp to move upwards, the second electric push rod 35 contracts to drive the push plate 36 to move outwards, and the push plate 36 pushes the shielding clamp on the first mold 23 off and slides out from the outlet 15; when the shielding clamp at the left part of the stamping plate 30 is formed, the first hydraulic cylinder 20 extends to drive the stamping knife 21 to move downwards, a shielding clamp body is stamped in a die cavity at the right side of the stamping plate 30, after the shielding clamp at the left part of the stamping plate 30 is formed, the fourth hydraulic cylinder 32 contracts to drive the stamping plate 30 to move downwards, the first electric push rod 37 contracts to drive the stamping plate 30 to move towards the right side, so that the die cavity at the left part of the stamping plate 30 is just right under the stamping knife 21, and the second hydraulic cylinder 22 and the third hydraulic cylinder 24 at the right part of the working cavity 12 form and process a shielding clamp body at the right part of the stamping plate 30. The utility model discloses but the physique of automatic cutout shielding clip, but and continuous molding processing.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (5)

1. An automatic rapid molding device for a shielding clamp is characterized by comprising,

the supporting mechanism structurally comprises a box body (10), wherein the box body (10) is of a cuboid structure, a cuboid groove is formed in the top side wall of the box body (10) and is a first slideway (13), a cuboid groove is formed in the bottom side wall of the first slideway (13) and is a second slideway (14), a workbench is arranged in the first slideway (13), and the box body (10) plays a role in integral supporting; the working box (11) is of a cuboid groove body structure, the bottom end opening of the working box (11) is fixed on the top side wall of the box body (10), a cavity in the working box (11) is a working cavity (12), a forming device is arranged in the working box (11), and the working box (11) plays a role in supporting the forming device;

the forming device structurally comprises a first hydraulic cylinder (20), wherein the first hydraulic cylinder (20) is fixed in the middle of the top side wall of the working cavity (12), a punching knife (21) is fixed at the bottom end of a telescopic rod of the first hydraulic cylinder (20), and the first hydraulic cylinder (20) extends to drive the punching knife (21) to move downwards so that the punching knife (21) cuts off the shielding clamp body on an iron plate; the second hydraulic cylinder (22), the second hydraulic cylinder (22) is fixed at the right part of the top side wall of the working cavity (12), a first mold (23) is fixed at the bottom end of a telescopic rod of the second hydraulic cylinder (22), the second hydraulic cylinder (22) extends to drive the first mold (23) to move downwards to press the central part of the shielding clamp body, and the first mold (23) is a model of a U-shaped groove of the shielding clamp; the shielding clamp comprises a third hydraulic cylinder (24), two of the third hydraulic cylinder (24) are respectively fixed at the right lower parts of the front and rear side walls of the working cavity (12), a second die (25) is fixed at the telescopic rod end of the third hydraulic cylinder (24), the third hydraulic cylinder (24) extends to drive the second die (25) to move inwards, and the second die (25) punches a clamping plate of the shielding clamp to wrap the first die (23) so as to enable the shielding clamp to be formed in a three-dimensional mode;

the workbench structurally comprises a stamping plate (30), wherein the stamping plate (30) is of a cuboid structure, a cutter die groove is formed in the top side wall of the stamping plate (30), the stamping plate (30) is arranged in a first slide way (13), a base (31) is arranged at the bottom of the stamping plate (30), a fourth hydraulic cylinder (32) is fixed at the center of the base (31), the top end of an expansion rod of the fourth hydraulic cylinder (32) is fixed in a groove in the bottom side wall of the stamping plate (30), and the fourth hydraulic cylinder (32) is contracted to drive the stamping plate (30) to move downwards; the cylinder (33) is fixed in a vertical through hole of the stamping plate (30), a supporting block (34) is fixed at the top end of a telescopic rod of the cylinder (33), the cylinder (33) extends to drive the supporting block (34) to move upwards, and the supporting block (34) upwards supports and bends a clamping plate of the shielding clamp so that the clamping plate can be stamped by the second die (25); electric putter (37), electric putter (37) set up in box (10) cavity, the telescopic link left end of electric putter (37) is passed through the mounting panel and is fixed with base (31), electric putter (37) extend the drive base and slide in No. two slides (14), drive punching press board (30) and base (31) and slide in slide (13).

2. The automatic rapid molding device for the shielding clip according to claim 1, wherein: two cutting die grooves about being provided with on the top lateral wall of punching press board (30), when punching press board (30) slided a slide (13) left end, cutting die groove and punching knife (21) vertical right side just.

3. The automatic rapid molding device for the shielding clip according to claim 1, wherein: the left part of working chamber (12) is provided with a No. two pneumatic cylinders (22) and two No. three pneumatic cylinders (24), two sets of No. two pneumatic cylinders (22) in working chamber (12) and No. three pneumatic cylinders (24) are symmetrical about a pneumatic cylinder (20), but two sets of No. two pneumatic cylinders (22) and No. three pneumatic cylinders (24) continuous stamping forming shielding clip.

4. The automatic rapid molding device for the shielding clip according to claim 1, wherein: respectively fixed electric putter (35) No. two on the lateral wall about working chamber (12), a push pedal (36) is fixed to the telescopic link end of electric putter (35) No. two, No. two electric putter (35) shrink drive push pedal (36) move to the outside, push pedal (36) will wrap up the shaping shielding clip on a mould (23) and scrape off.

5. The automatic rapid molding device for the shielding clip according to claim 1, wherein: the left end and the right end of the top side wall of the box body (10) are respectively provided with a triangular column notch as an outlet (15), and the outlet (15) is convenient for the formed shielding clamp in the working cavity (12) to slide out of the working cavity (12).

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