CN116638018A - Continuous stamping and feeding device for metal shell of lighting electrical appliance - Google Patents

Abstract

The invention relates to a continuous stamping and feeding device for a metal shell of an illumination electrical appliance, which is characterized in that: including punch press (1), carry out mould (2) that punching press formed metalwork (100) through punch press (1), and be located bottom plate (3) of mould (2) one side, be provided with on bottom plate (3) through punch press (1) drive follow in mould (2) right feeding mechanism (4) of getting material of metalwork (100), still be provided with on bottom plate (3) and carry feeding mechanism (5) of feeding mechanism (4) absorption metalwork (100), and follow carry out feeding mechanism (6) of pay-off with a plurality of metalworks (100) on feeding mechanism (5). The device can realize full-automatic stamping and conveying of metal parts.

Description

Continuous stamping and feeding device for metal shell of lighting electrical appliance

Technical Field

The invention relates to a stamping feeding device, in particular to a continuous stamping feeding device for a metal shell of an illumination electrical appliance.

Background

In a lighting device, as shown in fig. 8, a metal member is formed in an elongated shape with a recess in the middle, and is generally manufactured by stamping, and is used for housing decoration of the lighting device, the metal member is arranged around the lighting device housing in a circle, and the aesthetic effect is enhanced. For a single piece of metal, the manufacture is relatively simple, but for a lighting appliance, the number of pieces of metal required for each housing is at least several tens, and conventional methods of producing the piece of metal have the following drawbacks.

1. The existing device is difficult to sort and convey the metal parts after stamping, so that the production of a downward moving procedure is difficult;

2. the existing device adopts a stamping mechanism for stamping, and because the metal piece is smaller, the demoulding and conveying after stamping are difficult to realize automation.

Disclosure of Invention

In order to solve the technical problems, the invention aims to provide a device capable of continuously stamping metal pieces and conveying the metal pieces by using a power mechanism of a punch.

The technical scheme of the invention is as follows:

continuous stamping and feeding device for metal shells of lighting appliances is characterized in that: the device comprises a punch press, a die for forming metal pieces through punching by the punch press, and a bottom plate positioned at one side of the die, wherein a material taking mechanism for taking the metal pieces from the die through driving of the punch press is arranged on the bottom plate, a conveying line mechanism for conveying the material taking mechanism to adsorb the metal pieces and a feeding mechanism for feeding a plurality of metal pieces from the conveying line mechanism are also arranged on the bottom plate;

the punching machine comprises a shell, a flywheel arranged outside the shell is driven by a motor in the shell, a rotating shaft of the flywheel drives a cam inside the shell, the cam is connected with a punching head, the punching head is used for punching the die, the other side of the shell is also connected with a gear through the rotating shaft of the flywheel, a central shaft of the gear is also connected with a first connecting plate, a first rotating rod is arranged on the first connecting plate, and the first rotating rod is connected to one end of a connecting arm;

the material taking mechanism comprises three guide post frames which are sequentially arranged on the bottom plate, a sliding plate which is arranged on the guide post frames in a sliding manner, a first mounting plate is arranged on the sliding plate, a second rotating rod is rotatably arranged on the first mounting plate, and the second rotating rod is connected to the other end of the connecting arm; the sliding plate is also provided with a support, the top of the support is provided with a first air cylinder, the side surface of the support is also provided with a first sliding rail component, the first sliding rail component is provided with a second connecting plate in a sliding way, the driving end of the first air cylinder is connected with the second connecting plate, the second connecting plate is connected with a cross rod, and the end part of the cross rod is connected with an adsorption head;

after the flywheel drives the die to punch, the connecting arm drives the adsorption head to adsorb the metal piece from the die.

Further, the die comprises a lower fixing plate and a lower die arranged on the lower fixing plate, the lower die is connected with an upper die through a guide post, and the upper die is connected with the punching head.

Further, a guide groove is further formed in the lower die, and a guide block is arranged on the upper die.

Further, the conveying line mechanism comprises a motor support, a driving motor is arranged on the motor support, a first rotating shaft support and a second rotating shaft support are arranged on one side of the motor support, gear rollers are arranged on the first rotating shaft support and the second rotating shaft support in a rotating mode, a belt is connected between the gear rollers, and the driving motor drives the gear rollers on the first rotating shaft support.

Further, the first pivot support top still is provided with the second cylinder, be provided with second slide rail assembly on a pair of lateral wall of first pivot support, second slide rail assembly sliding connection has the flitch down, the third connecting plate is connected at the flitch top, the second cylinder drive end is connected the third connecting plate, the horizontal pole is located between two flitch down.

Further, the feeding mechanism comprises a first feeding bracket, a second feeding bracket and a third feeding bracket which are sequentially arranged, a second mounting plate is connected between the first feeding bracket and the second feeding bracket, a sliding rod is connected between the second feeding bracket and the third feeding bracket, and a sliding block is connected to the sliding rod; a third air cylinder is arranged on the second mounting plate, the driving end of the third air cylinder is connected with a push plate, and the bottom of the push plate is connected with the sliding block; the push plate is connected with a secondary vertical driving mechanism, the driving end of the secondary vertical driving mechanism is connected with a third mounting plate, and the third mounting plate is connected with a plurality of adsorption columns.

Further, the vertical actuating mechanism of second grade is including connecting the first mounting bracket of push pedal, be provided with the fourth cylinder on the first mounting bracket, the second mounting bracket is connected to the drive end of fourth cylinder, be provided with the fifth cylinder on the second mounting bracket, the drive end of fifth cylinder is connected the third mounting panel, second mounting bracket bottom is provided with the baffle, be provided with on the baffle and correspond the through-hole of adsorption column.

Further, still be connected through third slide rail assembly between first mounting bracket and the second mounting bracket, still be connected through fourth slide rail assembly between second mounting bracket and the third mounting panel.

Further, the automatic feeding device also comprises a material removing mechanism arranged at one side of the tail part of the conveying line mechanism, wherein an electromagnet opposite to the conveying line mechanism is arranged on the material removing mechanism, and a discharging hole is formed in the bottom plate, which is located below the electromagnet.

Further, a plurality of partition plates are arranged on the belt, and the metal piece is placed between two adjacent partition plates.

By means of the scheme, the invention has at least the following advantages:

(1) The device can realize full-automatic production of metal parts, and realize full-automatic processes of stamping, feeding and taking materials.

(2) The device utilizes the punch as a power end, so that not only is the stamping of the die realized, but also a power mechanism serving as a material taking mechanism is realized.

(3) The device utilizes transfer chain mechanism can also utilize the flitch to realize the unloading to the metalwork.

(4) The feeding mechanism of the device utilizes the two-stage air cylinder as the movement of the vertical direction, the displacement is more accurate, the air cylinder is utilized to drive the matching of the adsorption column and the baffle, and the additional operation is not needed during the discharging.

(5) The device is also provided with a material removing mechanism, and the discharging mechanism can remove metal parts which are not adsorbed by the feeding mechanism, so that smoothness of the production line is ensured.

The foregoing description is only an overview of the present invention, and is intended to provide a better understanding of the present invention, as it is embodied in the following description, with reference to the preferred embodiments of the present invention and the accompanying drawings.

Drawings

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

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

FIG. 3 is a schematic perspective view of a second embodiment of the present invention;

FIG. 4 is a schematic view of the structure of the punch and die of the present invention;

FIG. 5 is a schematic structural view of the delivery line mechanism of the present invention;

FIG. 6 is a schematic view of the structure of the take off mechanism of the present invention;

FIG. 7 is a schematic view of the structure of the feeding mechanism of the present invention;

FIG. 8 is a schematic view of the structure of a metal piece of the present invention;

in the figure: 1-punching a machine; 101-a housing; 102-flywheel; 103-punching heads; 104-a gear; 105-a first connection plate; 106-a first rotating rod; 2-a die; 201-a lower fixing plate; 202-a lower die; 203-upper die; 204-a guide post; 205-guide blocks; 206-a guide groove; 3-a bottom plate; 4-a material taking mechanism; 401-a guide post frame; 402-skateboards; 403-a first mounting plate; 404-a second rotating rod; 405-connecting arms; 406-a bracket; 407-first cylinder; 408-a first slide rail assembly; 409-a second connection plate; 410-a cross bar; 411-adsorption head; 5-a conveyor line mechanism; 501-a motor bracket; 502-a first shaft support; 503-a second spindle bracket; 504-gear roller; 505-belt; 506-separator; 507-a second cylinder; 508-a second slide rail assembly; 509-blanking plate; 510-a third connection plate; 6-a feeding mechanism; 601-a first feeding bracket; 602-a second feeding bracket; 603-a third feeding bracket; 604-a second mounting plate; 605-third cylinder; 606-a slide bar; 607-a slider; 608-push plate; 609-a first mount; 610-fourth cylinder; 611-a third slide rail assembly; 612-a second mount; 613-fourth slide rail assembly; 614-fifth cylinder; 615-a third mounting plate; 616-an adsorption column; 617-baffles; 7-a material removing mechanism.

Description of the embodiments

The following describes in further detail the embodiments of the present invention with reference to the drawings and examples. The following examples are illustrative of the invention and are not intended to limit the scope of the invention.

Referring to fig. 1, 2, 3 and 4, the continuous stamping and feeding device for a metal casing of an illumination appliance according to a preferred embodiment of the present invention includes a stamping machine 1, where the stamping machine 1 includes a casing 101, a flywheel 102 disposed outside the casing 101 is driven by a motor in the casing 101, the motor is disposed inside the casing 101, a driving gear is connected to a driving end of the motor, a driven gear is disposed on a rotating shaft of the flywheel 102, the driven gear is meshed with the driven gear to drive rotation of the flywheel 102, a rotating shaft of the flywheel 102 drives a cam inside the casing 101, and the cam is connected with a stamping head 103, so that up-down reciprocating movement of the stamping head 103 can be achieved by driving of the motor.

The gear 104 is also connected to the other side of the housing 101 through the rotating shaft of the flywheel 102, the central shaft of the gear 104 is also connected to the first connecting plate 105, the first connecting plate 105 is provided with the first rotating rod 106, the first rotating rod 106 is connected to one end of the connecting arm 405, and since the first rotating rod 106 is not located at the center of the gear 104, the connecting arm 405 is equivalent to being used as a connecting rod.

The die 2 is used for stamping the metal piece 100, the power source of the die 2 is a stamping head 103, a lower fixing plate 201 is included in the die 2, and the lower fixing plate 201 is located below the stamping head 103 and is located on one side of the base of the punch 1.

The lower die 202 is arranged on the lower fixing plate 201, the lower die 202 is connected with the upper die 203 through the guide pillar 204, the upper die 203 is connected with the stamping head 103, the lower die 202 is also provided with a guide groove 206, and the upper die 203 is provided with a guide block 205. By matching the upper die 203 and the lower die 202 with each other and then with an external material feeding mechanism, the metal piece 100 can be formed by punching. In the die 2, the cooperation of the guide block 205 and the guide groove 206 makes the stamping more accurate.

Referring to fig. 1, 2, 3 and 6, a bottom plate 3 is provided on one side of the die 2, and a take-out mechanism 4 for taking out the metal piece 100 from the die 2 by driving the punch 1 is provided on the bottom plate 3. The specific material taking mechanism 4 comprises three guide post frames 401 which are sequentially arranged on the bottom plate 3, wherein each guide post frame 401 comprises connecting plates at two ends, and the connecting plates are arranged on cylindrical rods. A sliding plate 402 slidably mounted on the column frame 401, and a sliding block is mounted on the bottom of the sliding plate 402 and is connected to the column rod. The first mounting plate 403 is arranged on the sliding plate 402, the second rotating rod 404 is rotatably arranged on the first mounting plate 403, the second rotating rod 404 is connected to the other end of the connecting arm 405, the connecting arm 405 is used for connecting the punch press 1 and the material taking mechanism 4, and the sliding plate 402 can be driven to reciprocate on the guide pillar frame 401 through rotation of the gear 104.

The slide plate 402 is further provided with a bracket 406, a first cylinder 407 is provided on top of the bracket 406, and a first slide rail assembly 408 is provided on the side of the bracket 406. The second connecting plate 409 is slidably arranged on the first sliding rail assembly 408, the first sliding rail assembly 408 comprises a sliding rail and a sliding block, the second connecting plate 409 can slide, the driving end of the first cylinder 407 is connected with the second connecting plate 409, the second connecting plate 409 is connected with a cross rod 410, and the end part of the cross rod 410 is connected with an adsorption head 411 (a magnet block). By driving the first cylinder 407, the suction head 411 can be moved up and down.

After the flywheel 102 drives the die 2 to punch, when the lower die 202 and the upper die 203 are closed, the connecting arm 405 just drives the sliding plate 402 to be far away from the die 2, the adsorption head 411 is located above the rear conveying line mechanism 5, when the upper die 203 leaves the lower die 202, the connecting arm 405 just drives the sliding plate 402 to be close to the die 2, the adsorption head 411 can be located right above the lower die 202, and the metal piece 100 formed after punching can be adsorbed by downward driving of the first cylinder 407.

Thus, the punch 1 is utilized to realize two functions, namely, the punch is used as a power mechanism for punching and the punch is used as a power mechanism for taking materials.

Referring to fig. 1, 2, 3 and 5, the conveying line mechanism 5 for conveying the metal piece 100 by the material taking mechanism 4 is further arranged on the bottom plate 3, the conveying line mechanism 5 comprises a motor support 501, a driving motor is arranged on the motor support 501, a first rotating shaft support 502 and a second rotating shaft support 503 are arranged on one side of the motor support 501, gear rollers 504 are rotatably arranged on the first rotating shaft support 502 and the second rotating shaft support 503, a belt 505 is connected between the gear rollers 504, the driving motor drives the gear rollers 504 on the first rotating shaft support 502, a plurality of partition plates 506 are arranged on the belt 505, and the metal piece 100 is placed between two adjacent partition plates 506. By driving the driving motor, the belt 505 can be rotated, and the metal piece 100 can be moved.

The first rotating shaft bracket 502 is in a shape, the top of the first rotating shaft bracket 502 is also provided with a second air cylinder 507, two side walls of the first rotating shaft bracket 502 are provided with second sliding rail assemblies 508, the second sliding rail assemblies 508 are slidably connected with blanking plates 509, the top of each blanking plate 509 is connected with a third connecting plate 510, the driving end of each second air cylinder 507 is connected with the third connecting plate 510, and the cross rod 410 is positioned between the two blanking plates 509. By driving the second cylinder 507, the downward movement of the two blanking plates 509 can be achieved.

The purpose of this mechanism is that the suction head 411 moves above the belt 505 after sucking the metal piece 100, and then the first cylinder 407 drives the suction head 411 to move downward, at which time the metal piece 100 is sucked and does not fall directly between the two separators 506, and by the downward movement of the blanking plate 509, the upward movement of the suction head 411 can realize that the metal piece 100 falls between the two separators 506.

Referring to fig. 1, 2, 3 and 7, the base plate 3 is further provided with a feeding mechanism 6 for feeding a plurality of metal pieces 100 from the conveyor line mechanism 5,

the feeding mechanism 6 comprises a first feeding bracket 601, a second feeding bracket 602 and a third feeding bracket 603 which are sequentially arranged, and the second feeding bracket 602 and the third feeding bracket 603 are positioned on two sides of the conveying line mechanism 5.

A second mounting plate 604 is connected between the first feeding support 601 and the second feeding support 602, a slide bar 606 is connected between the second feeding support 602 and the third feeding support 603, and a slide block 607 is connected on the slide bar 606. The second mounting plate 604 is provided with a third cylinder 605, the driving end of the third cylinder 605 is connected with a push plate 608, the bottom of the push plate 608 is connected with a sliding block 607, and the push plate 608 can move back and forth above the conveying line mechanism 5 by the driving of the third cylinder 605.

The push plate 608 is connected with a secondary vertical driving mechanism, the secondary vertical driving mechanism comprises a first mounting frame 609 connected with the push plate 608, a fourth air cylinder 610 is arranged on the first mounting frame 609, a driving end of the fourth air cylinder 610 is connected with a second mounting frame 612, a fifth air cylinder 614 is arranged on the second mounting frame 612, a driving end of the fifth air cylinder 614 is connected with a third mounting plate 615, the first mounting frame 609 is connected with the second mounting frame 612 through a third sliding rail assembly 611, and the second mounting frame 612 is connected with the third mounting plate 615 through a fourth sliding rail assembly 613. The fourth cylinder 610 in the secondary vertical driving mechanism is used for coarse movement in the vertical direction, the fifth cylinder 614 is used for precise movement in the vertical direction, and through the arrangement of the two cylinders, the metal piece 100 can be adsorbed more accurately.

The driving end of the secondary vertical driving mechanism is connected with a third mounting plate 615, the third mounting plate 615 is also connected with a plurality of mounting columns 616, a baffle 617 is arranged at the bottom of the second mounting frame 612, and through holes corresponding to the adsorption columns 616 are formed in the baffle 617. The mounting column 616 can adsorb the metal part 100 on the conveying line mechanism 5 through the through holes by driving of the two cylinders, and then the metal part 100 is pushed out outwards through the third cylinder 605, the adsorption column 616 is a magnet block, so that the metal part 100 can be adsorbed, and when the adsorption column 616 moves upwards under the driving of the cylinders, the metal part 100 is blocked by the baffle 617, so that the discharging to the outside is realized.

Referring to fig. 1, 2 and 3, a material removing mechanism 7 for removing material from the conveying line mechanism 5 is further arranged on the bottom plate 3, an electromagnet opposite to the tail end of the conveying line mechanism 5 is arranged on the material removing mechanism 7, when the conveying line mechanism 5 is provided with a metal piece 100, the metal piece 100 is not adsorbed by the conveying line mechanism 6, the metal piece 100 can be transmitted along with the conveying, when the metal piece is close to the material removing mechanism 7, the electromagnet on the material removing mechanism is electrified to adsorb the metal piece 100, and then the metal piece 100 is powered off to be fed through a feeding hole arranged below the electromagnet on the bottom plate 3. Thus, the conveying line mechanism 5 can reciprocate without clamping materials.

The above description is only of the preferred embodiments of the present invention and is not intended to limit the present invention, and it should be noted that it is possible for those skilled in the art to make several improvements and modifications without departing from the technical principle of the present invention, and these improvements and modifications should also be regarded as the protection scope of the present invention.

Claims (10)

1. Continuous stamping and feeding device for metal shells of lighting appliances is characterized in that: the device comprises a punch (1), a die (2) for punching to form a metal piece (100) through the punch (1), and a bottom plate (3) positioned on one side of the die (2), wherein a material taking mechanism (4) for taking the metal piece (100) from the die (2) through driving of the punch (1) is arranged on the bottom plate (3), a conveying line mechanism (5) for conveying the material taking mechanism (4) to adsorb the metal piece (100) and a feeding mechanism (6) for feeding a plurality of metal pieces (100) from the conveying line mechanism (5) are also arranged on the bottom plate (3);

the punching machine (1) comprises a shell (101), a flywheel (102) arranged outside the shell (101) is driven by a motor in the shell (101), a rotating shaft of the flywheel (102) drives a cam inside the shell (101), the cam is connected with a punching head (103), the punching head (103) is used for punching the die (2), the other side of the shell (101) is also connected with a gear (104) through the rotating shaft of the flywheel (102), the central shaft of the gear (104) is also connected with a first connecting plate (105), a first rotating rod (106) is arranged on the first connecting plate (105), and the first rotating rod (106) is connected to one end of a connecting arm (405);

the material taking mechanism (4) comprises three guide post frames (401) which are sequentially arranged on the bottom plate (3), a sliding plate (402) which is arranged on the guide post frames (401) in a sliding manner, a first mounting plate (403) is arranged on the sliding plate (402), a second rotating rod (404) is rotatably arranged on the first mounting plate (403), and the second rotating rod (404) is connected to the other end of the connecting arm (405); the sliding plate (402) is further provided with a support (406), the top of the support (406) is provided with a first air cylinder (407), the side face of the support (406) is further provided with a first sliding rail component (408), the first sliding rail component (408) is provided with a second connecting plate (409) in a sliding mode, the driving end of the first air cylinder (407) is connected with the second connecting plate (409), the second connecting plate (409) is connected with a cross rod (410), and the end part of the cross rod (410) is connected with an adsorption head (411);

after the flywheel (102) drives the die (2) to punch, the connecting arm (405) drives the adsorption head (411) to adsorb the metal piece (100) from the die (2).

2. The continuous stamping and feeding device for a metal shell of an illumination appliance according to claim 1, wherein: the die (2) comprises a lower fixing plate (201), a lower die (202) arranged on the lower fixing plate (201), the lower die (202) is connected with an upper die (203) through a guide pillar (204), and the upper die (203) is connected with the stamping head (103).

3. The continuous stamping and feeding device for a metal shell of an illumination appliance according to claim 2, wherein: the lower die (202) is further provided with a guide groove (206), and the upper die (203) is provided with a guide block (205).

4. The continuous stamping and feeding device for a metal shell of an illumination appliance according to claim 1, wherein: the conveying line mechanism (5) comprises a motor support (501), a driving motor is arranged on the motor support (501), a first rotating shaft support (502) and a second rotating shaft support (503) are arranged on one side of the motor support (501), gear rollers (504) are rotatably arranged on the first rotating shaft support (502) and the second rotating shaft support (503), a belt (505) is connected between the gear rollers (504), and the driving motor drives the gear rollers (504) on the first rotating shaft support (502).

5. The continuous stamping and feeding device for a metal shell of an illumination appliance according to claim 4, wherein: the novel automatic feeding device is characterized in that a second air cylinder (507) is further arranged at the top of the first rotating shaft support (502), a second sliding rail assembly (508) is arranged on a pair of side walls of the first rotating shaft support (502), the second sliding rail assembly (508) is connected with a blanking plate (509) in a sliding mode, a third connecting plate (510) is connected to the top of the blanking plate (509), the driving end of the second air cylinder (507) is connected to the third connecting plate (510), and the transverse rod (410) is located between the two blanking plates (509).

6. The continuous stamping and feeding device for a metal shell of an illumination appliance according to claim 1, wherein: the feeding mechanism comprises a first feeding support (601), a second feeding support (602) and a third feeding support (603) which are sequentially arranged, a second mounting plate (604) is connected between the first feeding support (601) and the second feeding support (602), a sliding rod (606) is connected between the second feeding support (602) and the third feeding support (603), and a sliding block (607) is connected on the sliding rod (606); a third air cylinder (605) is arranged on the second mounting plate (604), the driving end of the third air cylinder (605) is connected with a push plate (608), and the bottom of the push plate (608) is connected with the sliding block (607); the pushing plate (608) is connected with a secondary vertical driving mechanism, the driving end of the secondary vertical driving mechanism is connected with a third mounting plate (615), and the third mounting plate (615) is connected with a plurality of adsorption columns (616).

7. The continuous stamping and feeding device for a metal shell of an illumination appliance according to claim 6, wherein: the second-stage vertical driving mechanism comprises a first mounting frame (609) connected with the push plate (608), a fourth air cylinder (610) is arranged on the first mounting frame (609), a driving end of the fourth air cylinder (610) is connected with a second mounting frame (612), a fifth air cylinder (614) is arranged on the second mounting frame (612), the driving end of the fifth air cylinder (614) is connected with a third mounting plate (615), a baffle plate (617) is arranged at the bottom of the second mounting frame (612), and through holes corresponding to the adsorption columns (616) are formed in the baffle plate (617).

8. The continuous stamping and feeding device for a metal shell of an illumination appliance according to claim 7, wherein: the first mounting frame (609) and the second mounting frame (612) are further connected through a third sliding rail assembly (611), and the second mounting frame (612) and the third mounting plate (615) are further connected through a fourth sliding rail assembly (613).

9. The continuous stamping and feeding device for a metal shell of an illumination appliance according to claim 4, wherein: the automatic feeding device is characterized by further comprising a material removing mechanism (7) arranged on one side of the tail of the conveying line mechanism (5), wherein an electromagnet opposite to the conveying line mechanism (5) is arranged on the material removing mechanism (7), and a discharging hole is formed in the bottom plate (3) and located below the electromagnet.

10. The continuous stamping and feeding device for metal shells of lighting appliances according to claim 5, characterized in that: the belt (505) is provided with a plurality of baffles (506), and the metal piece (100) is placed between two adjacent baffles (506).