CN112620451A - Metal equipment stamping equipment and processing method thereof - Google Patents

Abstract

The invention discloses a metal equipment stamping device and a processing method thereof in the technical field of stamping devices, wherein a discharge groove is arranged for placing a workpiece to be stamped, a feeding mechanism is arranged for automatically guiding the workpiece placed on the discharge groove into a stamping groove without manual placement of personnel, so that the operation burden of personnel is reduced, the feeding mechanism is linked with a stamping oil pump, so that the operation steps are simplified, the stamping efficiency is improved, a workpiece fine adjustment mechanism is arranged for finely adjusting the workpiece falling on the stamping groove, so that the workpiece stably falls into the stamping groove, a workpiece fine adjustment mechanism is arranged, so that the workpiece does not need to be manually adjusted by personnel, the injury rate of personnel is reduced, the safety of the operator is improved, the stamping groove is arranged for automatically ejecting the workpiece after stamping is finished, the workpiece taking-out efficiency is improved, and the processing efficiency of the workpiece is improved The mechanical workpiece straightening device has the beneficial effects of mechanically straightening the workpiece, reducing the workload of personnel, improving the processing safety of the personnel and the like.

Description

Metal equipment stamping equipment and processing method thereof

Technical Field

The invention belongs to the technical field of stamping equipment; in particular to a metal equipment stamping device.

Background

The stamping is a forming method in which a press and a die are used to apply external force to a plate, a strip, a pipe, a profile, etc. to cause plastic deformation or separation, thereby obtaining a workpiece (stamped part) of a desired shape and size. Stamping and forging are plastic working (or called pressure working), and are called forging and pressing. The blank of punching press mainly is hot rolling and cold rolling steel sheet and steel band, the machine that the punching press used is called stamping equipment, the manual material loading of most adoption of current stamping equipment, consequently, in carrying out a large amount of work piece stamping work processes for a long time, improve operating personnel's work burden greatly, very easily lead to operating personnel fatigue, current stamping equipment is before carrying out the punching press to the work piece simultaneously, need manual alignment work piece, and place the work piece in stamping die recess steadily, this process very easily leads to personnel when putting the work piece, trigger button leads to the punching press head to press to operating personnel's hand, lead to personnel to be injured, consequently, a metal equipment stamping equipment of automatic material loading, mechanical alignment work piece appears compelling.

Disclosure of Invention

The invention aims to provide metal equipment stamping equipment.

In order to achieve the purpose, the invention provides the following technical scheme: a metal equipment stamping device comprises a device chassis, a discharge groove, a feeding mechanism, a stamping support frame, a stamping fixing frame, a stamping oil pump, a workpiece fine adjustment mechanism, a stamping control button, an adjusting knob, a stamping groove and a feeding groove, wherein the stamping support frame is vertically fixed on the upper end surface of the device chassis, the stamping oil pump is vertically fixed on the stamping support frame through the stamping fixing frame, the stamping oil pump is positioned on the upper side of the device chassis, the stamping groove is arranged on the upper end surface of the device chassis, the stamping groove is just opposite to the lower end surface of the stamping oil pump, the workpiece fine adjustment mechanism is arranged on the upper side of the stamping groove, the workpiece fine adjustment mechanism is embedded on the device chassis, the adjusting knob is rotationally fixed on the upper end surface of the device chassis and is fixedly connected with the workpiece fine adjustment mechanism in a transmission manner, the stamping control button is fixed on the device chassis, and the stamping, two stamping control button symmetrical arrangement is on equipment chassis up end, two stamping control button all with punching press oil pump electric connection, the blow-off tank is fixed in on the equipment chassis rear end face, install feed mechanism in the blow-off tank, feed mechanism and punching press oil pump fixed connection are connected, the feed chute is fixed in on the equipment chassis, and the feed chute is located the punching press groove upside, the feed chute end is through feed mechanism and blow-off tank through connection.

Further, the discharging groove comprises a feeding mechanism mounting seat, a supporting spring, a limiting slide block, a discharging plate, a limiting slide groove, a guide plate, a feeding mechanism limiting slide groove and a discharging groove box, wherein the discharging groove box is a hollow rectangular shell without a top and a bottom, the feeding mechanism mounting seat is fixed on the bottom surface of the inner side of the discharging groove box, the feeding mechanism mounting seat is positioned on the front side of the discharging groove box, the limiting slide block is fixed on the left side wall and the right side wall of the discharging plate, the feeding mechanism limiting slide groove is arranged on the side wall of the discharging groove box, which is positioned on the upper side of the feeding mechanism mounting seat, the feeding mechanism limiting slide groove penetrates through the inner side wall and the outer side wall of the discharging groove box, the discharging plate is arranged on the inner side of the discharging groove box, the limiting slide block on the left side wall and the right side wall of the discharging plate is embedded on the discharging groove box in a sliding manner, the position of the, the utility model discloses a material loading mechanism, including blowing board, baffle plate, guide plate, feed mechanism mount pad, blowing board up end is the inclined plane, the terminal surface is the horizontal plane under the blowing board, and is fixed with supporting spring under the blowing board on the terminal surface, supporting spring lower extreme and blowing inslot side bottom surface fixed connection, the guide plate is the vertical flat rectangular plate of placing, the guide plate is fixed in blowing inslot side, and on the guide plate located feed mechanism mount pad up end, the guide plate upper end is the inclined plane with the same slope of blowing board up end.

Further, the feeding mechanism comprises an ejector plate, an ejector plate limiting fixture block, feeding reset springs, sliding support rods and linkage connecting rods, the ejector plate is a flat rectangular plate, the upper end face of the ejector plate is an inclined plane with the same gradient as the upper end face of the discharging plate, the ejector plate limiting fixture blocks are fixed on the left end face and the right end face of the ejector plate, the ejector plate is slidably arranged in the discharging groove box through the ejector plate limiting fixture block, the ejector plate limiting fixture block is in sliding fit with the feeding mechanism limiting chute, the sliding support rods are fixed on the lower end face of the ejector plate, the lower ends of the sliding support rods are embedded in the feeding mechanism mounting seat, the sliding support rods are in sliding fit with the feeding mechanism mounting seat, the feeding reset springs are fixed on the lower ends of the sliding support rods, the lower ends of the feeding reset springs are fixedly connected with the feeding mechanism mounting seat, and the discharging plates are provided with two plates, the two discharging plates are symmetrically fixed on the lower end face of the ejector plate, linkage connecting rods are symmetrically fixed on the side walls of the two discharging plates, penetrate through the discharging tank and are fixedly connected with the stamping oil pump, and the linkage connecting rods are in sliding fit with the discharging tank.

Furthermore, the punching oil pump is a hydraulic telescopic rod, an acting oil cylinder of the punching oil pump is embedded in the punching fixing frame, the acting oil cylinder is inversely fixed on the punching supporting frame through the punching fixing frame, and the outer side wall of the lower end of the telescopic rod of the punching oil pump is fixedly connected with the linkage connecting rod.

Further, the workpiece fine adjustment mechanism comprises a first chain gear, a lower side wall first belt pulley, a lower side wall belt, a lower side wall second belt pulley, a lower side wall third belt pulley, a right side wall first belt pulley, a right side wall second belt pulley, a right side wall belt, a right side wall third belt pulley, an upper side wall first belt pulley, an upper side wall belt, an upper side wall second belt pulley, a second chain gear, an upper side wall third belt pulley, a chain, a left side wall belt, a left side wall first belt pulley, a left side wall second belt pulley and a left side wall third belt pulley, wherein the first chain gear is rotationally fixed on the upper end face of the equipment chassis through a first chain gear rotating shaft, the lower side wall second belt pulley is rotationally fixed on the upper end face of the equipment chassis through a lower side wall second belt pulley rotating shaft, the right side wall second belt pulley is rotationally fixed on the upper end face of the equipment chassis through a right side wall second belt pulley rotating shaft, the second chain gear and the upper side wall third belt pulley are rotationally fixed on the upper end surface of the equipment chassis through the same rotating shaft, the left side wall first belt pulley is rotationally fixed on the upper end surface of the equipment chassis through a left side wall first belt pulley rotating shaft, the lower side wall first belt pulley, the right side wall third belt pulley, the upper side wall first belt pulley, the upper side wall second belt pulley, the left side wall second belt pulley and the left side wall third belt pulley are rotationally fixed on the upper end surface of the equipment chassis through different rotating shafts respectively, the second chain gear is connected with the first chain gear through chain transmission, the lower side wall first belt pulley, the lower side wall second belt pulley and the lower side wall third belt pulley are connected through lower side wall belt transmission, the right side wall first belt pulley, the right side wall second belt pulley and the right side wall third belt pulley are connected through right side wall belt transmission, go up the first belt pulley of lateral wall, go up lateral wall second belt pulley and go up the lateral wall third belt pulley and pass through lateral wall belt drive and connect, the first belt pulley of left side wall, left side wall second belt pulley and left side wall third belt pulley pass through left side wall belt drive and connect, first chain gear pivot, lower lateral wall second belt pulley pivot, right side wall second belt pulley pivot and the first belt pulley pivot upper end of left side wall all penetrate equipment chassis up end and are fixed with adjust knob.

Furthermore, the side walls of the lower side wall belt, the right side wall belt, the upper side wall belt and the left side wall belt are all provided with anti-skid grains.

Furtherly, the punching press groove includes punching press tank bottom surface, punching press tank bottom surface gangbar and punching press tank bottom surface ejector pin, punching press tank bottom surface lower extreme is fixed with punching press tank bottom surface ejector pin, the punching press tank bottom surface slides embedded on equipment chassis up end, and punching press tank bottom surface ejector pin and equipment chassis sliding fit, be fixed with punching press tank bottom surface gangbar on the punching press tank bottom surface ejector pin lateral wall, punching press tank bottom surface gangbar pierces through equipment chassis lateral wall and linkage connecting rod fixed connection, punching press tank bottom surface gangbar and equipment chassis sliding fit.

Further, the feed chute includes that the feed chute supports base and feed chute body, the feed chute body has the hollow rectangle casing in bottom for there being not the top, the terminal surface link up mutually around the feed chute body, the inboard bottom surface of feed chute body is the inclined plane, the inclined plane inclination is the same with kicking plate up end inclination, the feed chute supports the base and is fixed in feed chute body lower extreme, and the feed chute body supports on the base is fixed in equipment chassis up end through the feed chute, and feed chute body rear end and blowing groove case preceding terminal surface link up the cooperation.

The invention also provides a processing method using the metal equipment stamping equipment, which comprises the following working steps:

1) placing a workpiece to be stamped on a material placing plate;

2) pressing a stamping control button, starting a stamping oil pump, and extending the stamping oil pump to enable the lower end of the stamping oil pump to be matched with the stamping groove;

3) when the stamping oil pump extends, the linkage connecting rod is driven to move downwards, the linkage connecting rod moves downwards to push the sliding supporting rod to move downwards, and the sliding supporting rod pulls the ejector plate to move downwards;

4) when the stamping oil pump moves downwards to the lowest position, the upper end surface of the ejector plate is matched with the upper end surface of the guide plate, and a workpiece on the discharging plate slides onto the ejector plate through the guide plate;

5) at the moment, the stamping control button is released, the stamping oil pump is started reversely, the stamping oil pump contracts, and the lower end of the stamping oil pump slowly moves upwards;

6) when the stamping oil pump moves upwards, the linkage connecting rod is driven to move upwards, the linkage connecting rod moves upwards to pull the sliding supporting rod to move upwards, and the sliding supporting rod pushes the ejector plate to move upwards;

7) when the stamping oil pump is contracted to the shortest, the upper end surface of the ejector plate is just matched with the upper end surface of the feeding groove body, and a workpiece on the ejector plate slides into the feeding groove body through the ejector plate;

8) the workpiece falls onto the stamping groove through the feeding groove body;

9) at the moment, the adjusting knob is rotated, the adjusting knob rotates to drive the lower side wall belt, the right side wall belt, the upper side wall belt and the left side wall belt on the workpiece fine adjustment mechanism to move, and the lower side wall belt, the right side wall belt, the upper side wall belt and the left side wall belt move to adjust the workpiece falling onto the stamping groove, so that the workpiece on the stamping groove is just matched with the stamping groove, and the workpiece falls onto the bottom surface of the stamping groove perfectly;

10) pressing a stamping control button at the moment, starting a stamping oil pump, and extending the stamping oil pump to enable the stamping oil pump to stamp the workpiece on the stamping groove;

11) after punching is finished, a punching control button is released, a punching oil pump moves upwards to drive a linkage rod at the bottom of the punching groove to move upwards, the linkage rod at the bottom of the punching groove drives the bottom of the punching groove to move upwards, a workpiece is ejected out of the punching groove by the bottom of the punching groove, and the workpiece after punching is taken out from the bottom of the punching groove;

12) and (6) repeating the steps 6 to 11 until the workpiece in the feeding groove is punched.

Compared with the prior art, the invention has the beneficial effects that: the invention is provided with the discharging groove for placing the workpiece to be punched, the feeding mechanism can automatically guide the workpiece placed on the discharging groove into the punching groove without manual placement of personnel, thereby greatly reducing the operation burden of the personnel, the feeding mechanism is linked with the punching oil pump, the operation steps are greatly simplified, the punching efficiency is improved, the workpiece fine adjustment mechanism can finely adjust the workpiece falling on the punching groove, the workpiece can stably fall into the punching groove, the workpiece fine adjustment mechanism is arranged, manual adjustment of the workpiece is not needed, the injury rate of personnel is greatly reduced, the safety of operators is improved, the punching groove is arranged and can be automatically ejected out after the workpiece is punched, the workpiece taking-out efficiency is improved, the workpiece machining efficiency is further improved, and the workpiece punching device has the beneficial effects of automatic feeding, mechanical workpiece straightening, capability of greatly reducing the workload of the personnel, improvement of the safety degree of the personnel machining and the like.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic view of the overall structure of a metal material stamping apparatus of the present invention;

FIG. 2 is a schematic structural diagram of a discharge chute of the metal equipment stamping device of the present invention;

FIG. 3 is a schematic structural diagram of a feeding mechanism of a metal equipment stamping device according to the present invention;

FIG. 4 is a schematic structural diagram of a workpiece fine-tuning mechanism of a metal equipment stamping device according to the present invention;

FIG. 5 is a schematic structural view of a feed chute of a metal equipment stamping device according to the present invention;

fig. 6 is a schematic structural view of a punching groove of the metal equipment punching device.

In the figure: 1-equipment chassis, 2-discharge chute, 3-feeding mechanism, 4-stamping support frame, 5-stamping fixed frame, 6-stamping oil pump, 7-workpiece fine adjustment mechanism, 8-stamping control button, 9-adjusting knob, 10-stamping chute, 11-feeding chute, 21-feeding mechanism mounting seat, 22-supporting spring, 23-limiting slide block, 24-discharge plate, 25-limiting chute, 26-guide plate, 27-feeding mechanism limiting chute, 28-discharge chute box, 31-ejector plate, 32-ejector plate limiting fixture block, 33-feeding reset spring, 34-sliding supporting rod, 35-linkage connecting rod, 71-first chain gear, 72-lower side wall first belt pulley, 73-lower side wall belt, 74-lower sidewall second pulley, 75-lower sidewall third pulley, 76-right sidewall first pulley, 77-right sidewall second pulley, 78-right sidewall belt, 79-right sidewall third pulley, 710-upper sidewall first pulley, 711-upper sidewall belt, 712-upper sidewall second pulley, 713-second chain gear, 714-upper sidewall third pulley, 715-chain, 716-left sidewall belt, 717-left sidewall first pulley, 718-left sidewall second pulley, 719-left sidewall third pulley, 101-ram slot bottom, 102-ram slot bottom linkage, 103-ram slot bottom ram, 111-feed slot support base, 112-feed slot body.

Detailed Description

The technical solutions 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, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution: a metal equipment stamping device comprises a device underframe 1, a discharge groove 2, a feeding mechanism 3, a stamping support frame 4, a stamping support frame 5, a stamping oil pump 6, a workpiece fine adjustment mechanism 7, a stamping control button 8, an adjusting knob 9, a stamping groove 10 and a feeding groove 11, wherein the stamping support frame 4 is vertically fixed on the upper end surface of the device underframe 1, the stamping oil pump 6 is vertically fixed on the stamping support frame 4 through the stamping support frame 5, the stamping oil pump 6 is positioned on the upper side of the device underframe 1, the stamping groove 10 is arranged on the upper end surface of the device underframe 1, the stamping groove 10 is right opposite to the lower end surface of the stamping oil pump 6, the workpiece fine adjustment mechanism 7 is arranged on the upper side of the stamping groove 10, the workpiece fine adjustment mechanism 7 is embedded on the device underframe 1, the adjusting knob 9 is rotationally fixed on the upper end surface of the device underframe 1, the adjusting knob 9 is fixedly connected with the workpiece fine adjustment mechanism 7 in a transmission way, and punching press control button 8 is equipped with two altogether, two 8 symmetrical arrangement of punching press control button are on 1 up end of equipment chassis, two punching press control button 8 all with 6 electric connection of punching press oil pump, blow-off groove 2 is fixed in on 1 rear end face of equipment chassis, install feed mechanism 3 in the blow-off groove 2, feed mechanism 3 is connected with 6 fixed connection of punching press oil pump, feed chute 11 is fixed in on 1 of equipment chassis, and feed chute 11 is located 10 upsides of punching press groove, 11 ends of feed chute are through connection through feed mechanism 3 and blow-off groove 2 through the feed mechanism.

As shown in fig. 2, the discharging chute 2 comprises a feeding mechanism mounting seat 21, a supporting spring 22, a limiting slide block 23, a discharging plate 24, a limiting slide groove 25, a material guiding plate 26, a feeding mechanism limiting slide groove 27 and a discharging chute box 28, wherein the discharging chute box 28 is a hollow rectangular shell without a top and a bottom, the feeding mechanism mounting seat 21 is fixed on the bottom surface of the inner side of the discharging chute box 28, the feeding mechanism mounting seat 21 is positioned on the front side of the discharging chute box 28, the limiting slide blocks 23 are fixed on the left and right side walls of the discharging plate 24, the feeding mechanism limiting slide groove 27 is arranged on the side wall of the discharging chute box 28 which is positioned on the upper side of the feeding mechanism mounting seat 21, the feeding mechanism limiting slide groove 27 penetrates through the inner and outer side walls of the discharging chute box 28, the discharging plate 24 is arranged on the inner side wall of the discharging chute box 28, the limiting slide blocks 23 on the left and right side walls of the discharging plate 24 are slidably embedded, spacing spout 25 and spacing slider 23 sliding fit, the blowing board 24 up end is the inclined plane, the terminal surface is the horizontal plane under the blowing board 24, and be fixed with supporting spring 22 under the blowing board 24 on the terminal surface, supporting spring 22 lower extreme and the inboard bottom surface fixed connection of blowing groove box 28, stock guide 26 is the vertical flat rectangular plate of placing, stock guide 26 is fixed in blowing groove box 28 inboardly, and on stock guide 26 located feed mechanism mount pad 21 up end, the stock guide 26 upper end is the inclined plane with the same slope of blowing board 24 up end.

As shown in fig. 3, the feeding mechanism 3 comprises an ejector plate 31, an ejector plate limit block 32, a feeding reset spring 33, a sliding support rod 34 and a linkage connecting rod 35, the ejector plate 31 is a flat rectangular plate, the upper end surface of the ejector plate 31 is an inclined surface with the same gradient as the upper end surface of the discharging plate 24, the ejector plate limit block 32 is fixed on the left end surface and the right end surface of the ejector plate 31, the ejector plate 31 is slidably arranged in the discharging groove box 28 through the ejector plate limit block 32, the ejector plate limit block 32 is slidably matched with the feeding mechanism limit sliding groove 27, the sliding support rod 34 is fixed on the lower end surface of the ejector plate 31, the lower end of the sliding support rod 34 is embedded in the feeding mechanism mounting seat 21, the sliding support rod 34 is slidably matched with the feeding mechanism mounting seat 21, the feeding reset spring 33 is fixed on the lower end of the sliding support rod 34, the lower end of the feeding reset spring 33 is fixedly, the two discharging plates 24 are arranged, the two discharging plates 24 are symmetrically fixed on the lower end face of the ejector plate 31, linkage connecting rods 35 are symmetrically fixed on the side walls of the two discharging plates 24, the linkage connecting rods 35 penetrate through the discharging tank 28 and are fixedly connected with the stamping oil pump 6, and the linkage connecting rods 35 are in sliding fit with the discharging tank 28.

The punching oil pump 6 is a hydraulic telescopic rod, an acting oil cylinder of the punching oil pump 6 is embedded on the punching fixing frame 5, the acting oil cylinder is inversely fixed on the punching supporting frame 4 through the punching fixing frame 5, and the outer side wall of the lower end of the telescopic rod of the punching oil pump 6 is fixedly connected with the linkage connecting rod 35.

As shown in fig. 4, the workpiece fine adjustment mechanism 7 includes a first chain gear 71, a lower side wall first pulley 72, a lower side wall belt 73, a lower side wall second pulley 74, a lower side wall third pulley 75, a right side wall first pulley 76, a right side wall second pulley 77, a right side wall belt 78, a right side wall third pulley 79, an upper side wall first pulley 710, an upper side wall belt 711, an upper side wall second pulley 712, a second chain gear 713, an upper side wall third pulley 714, a chain 715, a left side wall belt 716, a left side wall first pulley 717, a left side wall second pulley 718, and a left side wall third pulley 719, the first chain gear 71 is rotatably fixed to the upper end surface of the apparatus chassis 1 by a first chain gear rotating shaft, the lower side wall second pulley 74 is rotatably fixed to the upper end surface of the apparatus chassis 1 by a lower side wall second pulley rotating shaft, the right side wall second pulley 77 is rotatably fixed to the upper end surface of the apparatus chassis 1 by a right side wall second pulley rotating shaft, the second chain gear 713 and the upper side wall third belt pulley 714 are rotationally fixed on the upper end surface of the equipment chassis 1 through the same rotating shaft, the left side wall first belt pulley 717 is rotationally fixed on the upper end surface of the equipment chassis 1 through the left side wall first belt pulley, the lower side wall first belt pulley 72, the lower side wall third belt pulley 75, the right side wall first belt pulley 76, the right side wall third belt pulley 79, the upper side wall first belt pulley 710, the upper side wall second belt pulley 712, the left side wall second belt pulley 718 and the left side wall third belt pulley 719 are rotationally fixed on the upper end surface of the equipment chassis 1 through different rotating shafts respectively, the second chain gear 713 is in transmission connection with the first chain gear 71 through a chain 715, the lower side wall first belt pulley 72, the lower side wall second belt pulley 74 and the lower side wall third belt pulley 75 are in transmission connection through the lower side wall belt 73, the right side wall first belt pulley 76, the right side wall, The right side wall second belt pulley 77 and the right side wall third belt pulley 79 are in transmission connection through a right side wall belt 78, the upper side wall first belt pulley 710, the upper side wall second belt pulley 712 and the upper side wall third belt pulley 714 are in transmission connection through an upper side wall belt 711, the left side wall first belt pulley 717, the left side wall second belt pulley 718 and the left side wall third belt pulley 719 are in transmission connection through a left side wall belt 716, the upper ends of the first chain gear rotating shaft, the lower side wall second belt pulley rotating shaft, the right side wall second belt pulley rotating shaft and the left side wall first belt pulley rotating shaft penetrate through the upper end face of the equipment underframe 1, and an adjusting knob 9 is fixed on the upper end face of the equipment underframe 1.

The lower wall belt 73, the right wall belt 78, the upper wall belt 711 and the left wall belt 716 are provided with anti-slip threads on the side walls.

As shown in fig. 6, the stamping groove 10 includes a stamping groove bottom 101, a stamping groove bottom linkage rod 102 and a stamping groove bottom ejector rod 103, the lower end of the stamping groove bottom 101 is fixed with the stamping groove bottom ejector rod 103, the stamping groove bottom 101 is slidably embedded in the upper end surface of the equipment chassis 1, the stamping groove bottom ejector rod 103 is slidably matched with the equipment chassis 1, the stamping groove bottom linkage rod 102 is fixed on the side wall of the stamping groove bottom ejector rod 103, the stamping groove bottom linkage rod 102 penetrates through the side wall of the equipment chassis 1 and is fixedly connected with the linkage connecting rod 35, and the stamping groove bottom linkage rod 102 is slidably matched with the equipment chassis 1.

As shown in fig. 5, the feed chute 11 includes a feed chute supporting base 111 and a feed chute body 112, the feed chute body 112 is a hollow rectangular shell without a top and with a bottom, the front and rear end faces of the feed chute body 112 are communicated, the inner bottom surface of the feed chute body 112 is an inclined surface, the inclination of the inclined surface is the same as that of the upper end face of the ejector plate 31, the feed chute supporting base 111 is fixed at the lower end of the feed chute body 112, the feed chute body 112 is fixed on the upper end face of the equipment chassis 1 through the feed chute supporting base 111, and the rear end of the feed chute body 112 is communicated with the front end face of the discharge chute box 28.

The working steps of the metal equipment stamping equipment are as follows:

1) placing a workpiece to be punched on the discharging plate 24;

2) pressing a stamping control button 8, starting a stamping oil pump 6, and extending the stamping oil pump 6 to enable the lower end of the stamping oil pump 6 to be matched with a stamping groove 10;

3) when the punching oil pump 6 extends, the linkage connecting rod 35 is driven to move downwards, the linkage connecting rod 35 moves downwards to push the sliding supporting rod 34 to move downwards, and the sliding supporting rod 34 pulls the ejector plate 31 to move downwards;

4) when the stamping oil pump 6 moves downwards to the lowest position, the upper end surface of the ejector plate 31 is matched with the upper end surface of the guide plate 26, and at the moment, a workpiece on the discharging plate 24 slides onto the ejector plate 31 through the guide plate 26;

5) at the moment, the stamping control button 8 is released, the stamping oil pump 6 is started reversely, the stamping oil pump 6 contracts, and the lower end of the stamping oil pump 6 moves up slowly;

6) when the ram oil pump 6 moves upwards, the linkage connecting rod 35 is driven to move upwards, the linkage connecting rod 35 moves upwards to pull the sliding supporting rod 34 to move upwards, and the sliding supporting rod 34 pushes the ejector plate 31 to move upwards;

7) when the stamping oil pump 6 is contracted to the shortest, the upper end surface of the ejector plate 31 is just matched with the upper end surface of the feed chute body 112, and at the moment, a workpiece on the ejector plate 31 slides into the feed chute body 112 through the ejector plate 31;

8) the workpiece falls onto the stamping groove 10 through the feed chute body 112;

9) at this time, the adjusting knob 9 is rotated, the adjusting knob 9 rotates to drive the lower side wall belt 73, the right side wall belt 78, the upper side wall belt 711 and the left side wall belt 716 on the workpiece fine adjustment mechanism 7 to move, and the lower side wall belt 73, the right side wall belt 78, the upper side wall belt 711 and the left side wall belt 716 move to adjust the workpiece falling onto the stamping groove 10, so that the workpiece on the stamping groove 10 is just matched with the stamping groove 10, and the workpiece perfectly falls onto the stamping groove bottom surface 101;

10) at the moment, a stamping control button 8 is pressed down, a stamping oil pump 6 is started, and the stamping oil pump 6 extends to enable the stamping oil pump 6 to stamp the workpiece on a stamping groove 10;

11) after punching is finished, the punching control button 8 is released, the punching oil pump 6 moves upwards to drive the punching groove bottom surface linkage rod 102 to move upwards, the punching groove bottom surface linkage rod 102 drives the punching groove bottom surface 101 to move upwards, the punching groove bottom surface 101 pushes a workpiece out of the punching groove 10, and at the moment, the punched workpiece is taken out from the punching groove bottom surface 101;

12) and (6) repeating the steps 6 to 11 until the workpiece in the feeding groove 2 is punched.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the invention as defined in the following claims.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (9)

1. A metal equipment stamping device comprises a device chassis (1), a discharge groove (2), a feeding mechanism (3), a stamping support frame (4), a stamping fixing frame (5), a stamping oil pump (6), a workpiece fine adjustment mechanism (7), a stamping control button (8), an adjusting knob (9), a stamping groove (10), a feeding groove (11) and the like, and is characterized in that the stamping support frame (4) is vertically fixed on the upper end surface of the device chassis (1), the stamping oil pump (6) is vertically fixed on the stamping support frame (4) through the stamping fixing frame (5), the stamping oil pump (6) is positioned on the upper side of the device chassis (1), the stamping groove (10) is arranged on the upper end surface of the device chassis (1), the stamping groove (10) is aligned with the lower end surface of the stamping oil pump (6), the workpiece fine adjustment mechanism (7) is arranged on the upper side of the stamping groove (10), the workpiece fine adjustment mechanism (7) is embedded in the equipment chassis (1), the adjusting knob (9) is rotationally fixed on the upper end face of the equipment chassis (1), the adjusting knob (9) is fixedly connected with the workpiece fine adjustment mechanism (7) in a transmission manner, the stamping control buttons (8) are fixed on the equipment chassis (1), the number of the stamping control buttons (8) is two, the two stamping control buttons (8) are symmetrically arranged on the upper end face of the equipment chassis (1), the two stamping control buttons (8) are electrically connected with the stamping oil pump (6), the discharging groove (2) is fixed on the rear end face of the equipment chassis (1), the feeding mechanism (3) is installed in the discharging groove (2), the feeding mechanism (3) is fixedly connected with the stamping oil pump (6), and the feeding groove (11) is fixed on the equipment chassis (1), and the feed chute (11) is positioned at the upper side of the stamping chute (10), and the tail end of the feed chute (11) is communicated with the discharge chute (2) through the feeding mechanism (3).

2. The metal equipment stamping equipment according to claim 1, wherein the discharging groove (2) comprises a feeding mechanism mounting seat (21), a supporting spring (22), a limiting slide block (23), a discharging plate (24), a limiting slide groove (25), a guide plate (26), a feeding mechanism limiting slide groove (27) and a discharging groove box (28), the discharging groove box (28) is a hollow rectangular shell with a bottom without a top, the feeding mechanism mounting seat (21) is fixed on the bottom surface of the inner side of the discharging groove box (28), the feeding mechanism mounting seat (21) is positioned on the front side of the discharging groove box (28), the limiting slide block (23) is fixed on the left side wall and the right side wall of the discharging plate (24), the feeding mechanism limiting slide groove (27) is arranged on the side wall of the inner side of the discharging groove box (28) and penetrates through the inner side wall and the outer side wall of the discharging groove box (28), the discharging plate (24) is arranged on the inner side of the discharging groove box (28), the limiting sliding blocks (23) on the left side wall and the right side wall of the discharging plate (24) are embedded in the discharging groove box (28) in a sliding mode, the limiting sliding grooves (25) are arranged at the contact positions of the inner side wall of the discharging groove box (28) and the limiting sliding blocks (23), the limiting sliding grooves (25) are in sliding fit with the limiting sliding blocks (23), the upper end face of the discharging plate (24) is an inclined face, the lower end face of the discharging plate (24) is a horizontal face, supporting springs (22) are fixed on the lower end face of the discharging plate (24), the lower ends of the supporting springs (22) are fixedly connected with the inner bottom face of the discharging groove box (28), the guide plate (26) is a vertically-placed flat rectangular plate, the guide plate (26) is fixed on the inner side of the discharging groove box (28), and the guide plate (26) is arranged, the upper end of the material guide plate (26) is an inclined surface with the same gradient as the upper end surface of the material discharging plate (24).

3. The metal equipment stamping device according to claim 2, wherein the feeding mechanism (3) comprises an ejector plate (31), an ejector plate limiting fixture block (32), a feeding return spring (33), a sliding support rod (34) and a linkage connecting rod (35), the ejector plate (31) is a flat rectangular plate, the upper end surface of the ejector plate (31) is an inclined surface with the same gradient as the upper end surface of the discharging plate (24), the ejector plate limiting fixture blocks (32) are fixed on the left and right end surfaces of the ejector plate (31), the ejector plate (31) is slidably arranged in the discharging groove box (28) through the ejector plate limiting fixture block (32), the ejector plate limiting fixture block (32) is in sliding fit with the feeding mechanism limiting chute (27), the sliding support rod (34) is fixed on the lower end surface of the ejector plate (31), and the sliding support rod (34) is embedded in the feeding mechanism mounting seat (21), and sliding support pole (34) and feed mechanism mount pad (21) sliding fit, sliding support pole (34) lower extreme is fixed with material loading reset spring (33), material loading reset spring (33) lower extreme and feed mechanism mount pad (21) fixed connection, flitch (24) are equipped with two altogether, two on flitch (24) symmetry is fixed in flitch (31) terminal surface down, two flitch (24) lateral wall symmetry is fixed with linkage connecting rod (35), linkage connecting rod (35) pierce through blowing groove case (28) and punching press oil pump (6) fixed connection, linkage connecting rod (35) and blowing groove case (28) sliding fit.

4. The metal equipment stamping equipment as claimed in claim 3, wherein the stamping oil pump (6) is a hydraulic telescopic rod, the acting oil cylinder of the stamping oil pump (6) is embedded on the stamping fixing frame (5), the acting oil cylinder is inversely fixed on the stamping supporting frame (4) through the stamping fixing frame (5), and the outer side wall of the lower end of the telescopic rod of the stamping oil pump (6) is fixedly connected with the linkage connecting rod (35).

5. The metal equipment stamping device according to claim 4, wherein the workpiece fine-tuning mechanism (7) comprises a first chain gear (71), a lower side wall first pulley (72), a lower side wall belt (73), a lower side wall second pulley (74), a lower side wall third pulley (75), a right side wall first pulley (76), a right side wall second pulley (77), a right side wall belt (78), a right side wall third pulley (79), an upper side wall first pulley (710), an upper side wall belt (711), an upper side wall second pulley (712), a second chain gear (713), an upper side wall third pulley (714), a chain (715), a left side wall belt (716), a left side wall first pulley (717), a left side wall second pulley (718), and a left side wall third pulley (719), the first chain gear (71) is rotationally fixed on the upper end face of the device chassis (1) through a first chain gear rotating shaft, lower side wall second belt pulley (74) rotates through lower side wall second belt pulley pivot to be fixed in on equipment chassis (1) up end, right side wall second belt pulley (77) rotate through right side wall second belt pulley pivot to be fixed in on equipment chassis (1) up end, second chain gear (713) and last lateral wall third belt pulley (714) rotate through same pivot to be fixed in on equipment chassis (1) up end, left side wall first belt pulley (717) rotate through left side wall first belt pulley pivot to be fixed in on equipment chassis (1) up end, down lateral wall first belt pulley (72), lower lateral wall third belt pulley (75), right side wall first belt pulley (76), right side wall third belt pulley (79), go up lateral wall first belt pulley (710), go up lateral wall second belt pulley (712), left side wall second belt pulley (718) and left side wall third belt pulley (719) all rotate through different pivots respectively and are fixed in at the bottom of equipment On the frame (1) up end, second chain gear (713) and first chain gear (71) are through chain (715) transmission connection, down lateral wall first belt pulley (72), lower lateral wall second belt pulley (74) and lower lateral wall third belt pulley (75) are through lower lateral wall belt (73) transmission connection, right lateral wall first belt pulley (76), right lateral wall second belt pulley (77) and right lateral wall third belt pulley (79) are through right lateral wall belt (78) transmission connection, go up lateral wall first belt pulley (710), go up lateral wall second belt pulley (712) and go up lateral wall third belt pulley (714) and pass through last lateral wall belt (711) transmission connection, left lateral wall first belt pulley (717), left lateral wall second belt pulley (718) and left lateral wall third belt pulley (719) pass through left lateral wall belt (716) transmission connection, first chain gear pivot, The upper ends of the second belt pulley rotating shaft on the lower side wall, the second belt pulley rotating shaft on the right side wall and the first belt pulley rotating shaft on the left side wall penetrate through the upper end face of the equipment underframe (1) and are fixed with adjusting knobs (9).

6. A metal equipment stamping apparatus as claimed in claim 5, wherein the side walls of the lower side wall belt (73), the right side wall belt (78), the upper side wall belt (711) and the left side wall belt (716) are provided with anti-slip threads.

7. The metal equipment stamping device as defined in claim 6, wherein the stamping groove (10) comprises a stamping groove bottom surface (101), a stamping groove bottom surface linkage rod (102) and a stamping groove bottom surface ejector rod (103), the stamping groove bottom surface ejector rod (103) is fixed at the lower end of the stamping groove bottom surface (101), the stamping groove bottom surface (101) is embedded in the upper end surface of the device chassis (1) in a sliding manner, the stamping groove bottom surface ejector rod (103) is in sliding fit with the device chassis (1), the stamping groove bottom surface linkage rod (102) is fixed on the side wall of the stamping groove bottom surface ejector rod (103), the stamping groove bottom surface linkage rod (102) penetrates through the side wall of the device chassis (1) and is fixedly connected with the linkage connecting rod (35), and the stamping groove bottom surface linkage rod (102) is in sliding fit with the device chassis (1).

8. The metal equipment stamping equipment as claimed in claim 7, wherein the feed chute (11) comprises a feed chute supporting base (111) and a feed chute body (112), the feed chute body (112) is a hollow rectangular shell with a bottom without a top, the front end face and the rear end face of the feed chute body (112) are communicated, the bottom surface of the inner side of the feed chute body (112) is an inclined surface, the inclination of the inclined surface is the same as that of the upper end face of the ejector plate (31), the feed chute supporting base (111) is fixed at the lower end of the feed chute body (112), the feed chute body (112) is fixed on the upper end face of the equipment chassis (1) through the feed chute supporting base (111), and the rear end of the feed chute body (112) is communicated and matched with the front end face of the discharge chute box (28).

9. The processing method of the metal equipment stamping device according to claim 8 is characterized by comprising the following specific working steps:

1) placing a workpiece to be punched on a discharging plate (24);

2) pressing a stamping control button (8) to start a stamping oil pump (6), and extending the stamping oil pump (6) to enable the lower end of the stamping oil pump (6) to be matched with a stamping groove (10);

3) when the punching oil pump (6) extends, the linkage connecting rod (35) is driven to move downwards, the linkage connecting rod (35) moves downwards to push the sliding supporting rod (34) to move downwards, and the sliding supporting rod (34) pulls the ejector plate (31) to move downwards;

4) when the punching oil pump (6) moves downwards to the lowest position, the upper end face of the ejector plate (31) is matched with the upper end face of the guide plate (26), and at the moment, a workpiece on the discharging plate (24) slides onto the ejector plate (31) through the guide plate (26);

5) at the moment, the stamping control button (8) is released, the stamping oil pump (6) is started reversely, the stamping oil pump (6) contracts, and the lower end of the stamping oil pump (6) moves up slowly;

6) when the ram oil pump (6) moves upwards, the linkage connecting rod (35) is driven to move upwards, the linkage connecting rod (35) moves upwards to pull the sliding supporting rod (34) to move upwards, and the sliding supporting rod (34) pushes the ejector plate (31) to move upwards;

7) when the stamping oil pump (6) is contracted to the shortest, the upper end surface of the ejector plate (31) is just matched with the upper end surface of the feeding groove body (112), and at the moment, a workpiece on the ejector plate (31) slides into the feeding groove body (112) through the ejector plate (31);

8) the workpiece falls onto the stamping groove (10) through the feeding groove body (112);

9) at the moment, an adjusting knob (9) is rotated, the adjusting knob (9) rotates to drive a lower side wall belt (73), a right side wall belt (78), an upper side wall belt (711) and a left side wall belt (716) on a workpiece fine adjustment mechanism (7) to move, the lower side wall belt (73), the right side wall belt (78), the upper side wall belt (711) and the left side wall belt (716) move to adjust the workpiece falling onto the stamping groove (10), so that the workpiece on the stamping groove (10) is just matched with the stamping groove (10), and the workpiece falls onto the stamping groove bottom surface (101) perfectly;

10) pressing a stamping control button (8) at the moment, starting a stamping oil pump (6), and extending the stamping oil pump (6) to enable the stamping oil pump (6) to stamp the workpiece on the stamping groove (10);

11) after punching is finished, a punching control button (8) is released, a punching oil pump (6) moves upwards to drive a punching groove bottom linkage rod (102) to move upwards, the punching groove bottom linkage rod (102) drives a punching groove bottom (101) to move upwards, the punching groove bottom (101) pushes a workpiece out of a punching groove (10), and at the moment, the punched workpiece is taken out of the punching groove bottom (101);

12) and (5) repeating the steps 6 to 11 until the workpiece in the feeding groove (2) is punched.

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