CN110756653A

CN110756653A - Continuous stamping and cutting machine and stamping method

Info

Publication number: CN110756653A
Application number: CN201911030660.3A
Authority: CN
Inventors: 林豪; 丁晨晖; 杨漫雪
Original assignee: Nanjing Lont Electronics Co Ltd
Current assignee: Nanjing Lont Electronics Co Ltd
Priority date: 2019-10-28
Filing date: 2019-10-28
Publication date: 2020-02-07

Abstract

The invention relates to the technical field of stamping devices, in particular to a continuous stamping and cutting machine and a stamping method, wherein the stamping and cutting machine comprises a machine table and a bin mechanism at one side of the machine table, a sucker mechanism is arranged above the bin mechanism, a first conveying mechanism, a leveling mechanism, a second conveying mechanism and an inching conveying mechanism are arranged above the machine table, a stamping and cutting mechanism is arranged above the inching conveying mechanism, the stamping method comprises the steps that the sucker mechanism sucks strip-shaped alloy resistors in the bin mechanism to the first conveying mechanism, the first conveying mechanism conveys the strip-shaped alloy resistors to the leveling mechanism, the leveling mechanism performs leveling action on the strip-shaped alloy resistors, the second conveying mechanism conveys the leveled strip-shaped alloy resistors to the inching conveying mechanism, the inching conveying mechanism conveys the strip-shaped alloy resistors to the stamping and cutting mechanism, and the stamping and cutting mechanism performs stamping and cutting on the strip-shaped alloy resistors, the invention can solve the problems of complex mechanism and inconvenient maintenance of the stamping die in the prior art.

Description

Continuous stamping and cutting machine and stamping method

Technical Field

The invention relates to the technical field of stamping devices, in particular to a continuous stamping and cutting machine and a stamping method.

Background

At present, the stamping processing of alloy resistor components is kept in manual circulation manual feeding stamping, continuous feeding circulation stamping operation of personnel is needed, the stamping process is dangerous, the working environment of a punch press is severe, personal injury can be caused to workers, and meanwhile, the operation cost of an enterprise is very high due to low working efficiency of manual operation and very high labor cost; in addition, the existing stamping die has the problems of complex mechanism and inconvenient maintenance.

Disclosure of Invention

The invention aims to provide a continuous stamping and cutting machine and a stamping method, and aims to solve the problems that in the prior art, a stamping die mechanism is complex and inconvenient to maintain.

In order to achieve the purpose, the invention provides the following technical scheme: a continuous stamping and cutting machine comprises a machine table, wherein a bin mechanism is arranged on one side of the machine table, a sucker mechanism is arranged above the bin mechanism, a first conveying mechanism, a leveling mechanism, a second conveying mechanism and an inching conveying mechanism are sequentially arranged above the machine table according to the direction far away from the bin mechanism, a stamping and cutting mechanism is arranged above the inching conveying mechanism, the sucker mechanism is used for sucking strip-shaped alloy resistors in the bin mechanism to the first conveying mechanism, the first conveying mechanism is used for conveying the strip-shaped alloy resistors to the leveling mechanism, the leveling mechanism is used for leveling the strip-shaped alloy resistors, the second conveying mechanism is used for conveying the leveled strip-shaped alloy resistors to the inching conveying mechanism, the inching conveying mechanism is used for conveying the strip-shaped alloy resistors to the stamping and cutting mechanism, and the stamping and cutting mechanism is used for stamping the strip-shaped alloy resistors, the bin mechanism, the sucker mechanism, the first conveying mechanism, the leveling mechanism, the second conveying mechanism, the inching conveying mechanism and the stamping and cutting mechanism are all controlled by the control part.

Preferably, the feed bin mechanism includes that feed bin, a driving motor and lifter constitute, the one end and the feed bin of lifter are connected, a driving motor drive lifter reciprocates, the lifter drives the feed bin oscilaltion.

Preferably, the sucking disc mechanism includes sucking disc, lift cylinder and activity cylinder, the activity cylinder erects in the platform top through the fixed bolster, the piston rod and the lift cylinder fixed connection of activity cylinder, the sucking disc is connected with the piston rod of lift cylinder, lift cylinder drive sucking disc reciprocates, move about activity cylinder drive lift cylinder and sucking disc.

Preferably, the first conveying mechanism comprises a second driving motor, a conveying belt wheel and a first fixed base, the second driving motor is installed on one side of the first fixed base, the conveying belt and the conveying belt wheel are installed on the first fixed base, and the second driving motor drives the conveying belt wheel to drive the conveying belt to operate.

Preferably, leveling mechanism includes third driving motor, flattening pinch roller, flattening driving pulley and second fixed baseplate, third driving motor is located one side of second fixed baseplate, flattening pinch roller and flattening driving pulley are installed on second fixed baseplate, thereby third driving motor drive flattening driving pulley drives the operation of flattening pinch roller.

Preferably, the inching conveying mechanism comprises a third fixing base, an inching sucker, a clamping device, a material box and a fourth driving motor, the inching sucker, the material box and the fourth driving motor are located at the bottom of the third fixing base, the clamping device is located on two sides of the third fixing base, the clamping device clamps and positions the strip-shaped alloy resistors transmitted from the second conveying mechanism, and the fourth driving motor and the inching sucker drive the strip-shaped alloy resistors to be punched to inching move.

Preferably, the stamping and cutting mechanism comprises a stamping cutter, a positioning pressing knife, a transmission cam mechanism and a fifth driving motor, the fifth driving motor drives the transmission cam mechanism to operate, a first cam in the transmission cam mechanism drives the positioning pressing knife to fix the strip-shaped alloy resistor, and a second cam in the transmission cam mechanism drives the stamping cutter to stamp the strip-shaped alloy resistor.

A stamping method for a continuous stamping and cutting machine comprises the following steps:

a. feeding strip-shaped alloy resistors to be punched to a stock bin mechanism;

b. the sucker mechanism sucks and places the strip-shaped alloy resistor on the first conveying mechanism;

c. the first conveying mechanism conveys the strip-shaped alloy resistor to the leveling mechanism;

d. the leveling mechanism levels the strip-shaped alloy resistors and conveys the leveled strip-shaped alloy resistors to the second conveying mechanism;

e. the second conveying mechanism conveys the strip-shaped alloy resistors to the inching conveying mechanism;

f. the inching conveying mechanism conveys the strip-shaped alloy resistor to a stamping and cutting mechanism;

g. the stamping and cutting mechanism performs stamping and cutting on the strip-shaped alloy resistor.

Compared with the prior art, the invention has the beneficial effects that: the automatic conveying and stamping cutting of the strip-shaped alloy resistor are realized, the stamping cutting efficiency is improved, and manpower and material resources are saved; the application provides a punching press guillootine simple structure is reasonable, and the later maintenance management of being convenient for has reduced the maintenance cost effectively.

Drawings

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

FIG. 2 is a schematic structural view of a bin mechanism and a suction cup mechanism according to the present invention;

FIG. 3 is a schematic structural diagram of a first conveying mechanism according to the present invention;

FIG. 4 is a schematic view of the leveling mechanism of the present invention;

FIG. 5 is a schematic structural view of an inching conveying mechanism in the invention;

fig. 6 is a schematic structural view of the stamping and cutting mechanism of the present invention.

In the figure: 1 bin mechanism, 11 bins, 12 lifting rods, 13 first driving motors, 2 sucker mechanisms, 21 lifting cylinders, 22 suckers, 23 movable cylinders, 24 fixed supports, 25 first sensors, 3 first conveying mechanisms, 31 first fixed bases, 32 conveying belts, 33 second driving motors, 34 conveying belt wheels, 4 leveling mechanisms, 41 third driving motors, 42 leveling press wheels, 43 leveling driving belt wheels, 44 second fixed bases, 5 second conveying mechanisms, 6 inching conveying mechanisms, 61 third fixed bases, 62 inching suckers, 63 clamps, 64 clamping cylinders, 65 magazines, 66 fourth driving motors, 7 stamping and cutting mechanisms, 71 stamping and cutting knives, 72 positioning and pressing knives, 73 first cams, 74 second cams, 75 fifth driving motors, 76 second sensors, 8 control parts and 9 machine tables.

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 continuous stamping and cutting machine comprises a machine table 9, a bin mechanism 1 is arranged on one side of the machine table 9, a sucker mechanism 2 is arranged above the bin mechanism 1, a first conveying mechanism 3, a leveling mechanism 4, a second conveying mechanism 5 and an inching conveying mechanism 6 are sequentially arranged above the machine table 9 in the direction away from the bin mechanism 1, a stamping and cutting mechanism 7 is arranged above the inching conveying mechanism 6, the sucker mechanism 2 is used for sucking strip-shaped alloy resistors in the bin mechanism 1 to the first conveying mechanism 3, the first conveying mechanism 3 is used for conveying the strip-shaped alloy resistors to the leveling mechanism 4, the leveling mechanism 4 is used for leveling the strip-shaped alloy resistors, the second conveying mechanism 5 is used for conveying the leveled strip-shaped alloy resistors to the inching conveying mechanism 6, the inching conveying mechanism 6 is used for conveying the strip-shaped alloy resistors to the stamping and cutting mechanism 7, the stamping mechanism 7 is used for stamping and cutting the strip-shaped alloy resistors, feed bin mechanism 1, sucking disc mechanism 2, first conveying mechanism 3, leveling mechanism 4, second conveying mechanism 5, inching conveying mechanism 6 and punching press cut mechanism 7 and all control through control unit 8, the punching press guillootine that this application provided has realized cutting with the punching press to the continuous automatic transport of strip alloy resistance, has improved the punching press and has cut efficiency, has practiced thrift manpower and materials, and the punching press guillootine that this application provided simple structure is reasonable in addition, and the later maintenance management of being convenient for has reduced the maintenance cost effectively.

Specifically, feed bin mechanism 1 includes that feed bin 11, a driving motor 13 and lifter 12 constitute, and the one end and the feed bin 11 of lifter 12 are connected, and a driving motor 13 drive lifter 12 reciprocates, and lifter 12 drives 11 oscilaltions in feed bin.

Specifically, the suction cup mechanism 2 comprises a suction cup 22, a lifting cylinder 21 and a movable cylinder 23, the movable cylinder 23 is erected above the machine table 9 through a fixing support 24, a piston rod of the movable cylinder 23 is fixedly connected with the lifting cylinder 21, the suction cup 22 is connected with a piston rod of the lifting cylinder 21, the lifting cylinder 21 drives the suction cup 22 to move up and down, the movable cylinder 23 drives the lifting cylinder 21 and the suction cup 22 to move left and right, and preferably, a first sensor 25 is arranged at the end of the movable cylinder 23 to facilitate judgment of whether the suction cup 22 is in place.

Specifically, the first conveying mechanism 3 includes a second driving motor 33, a conveying belt 32, a conveying belt wheel 34 and a first fixed base 31, the second driving motor 33 is installed on one side of the first fixed base 31, the conveying belt 32 and the conveying belt wheel 34 are installed on the first fixed base 31, the second driving motor 33 drives the conveying belt wheel 34 to drive the conveying belt 32 to operate, and further, the second conveying mechanism 5 in the present application is consistent with the first conveying mechanism 3 in structure.

Specifically, the leveling mechanism 4 includes a third driving motor 41, a leveling pressing wheel 42, a leveling driving pulley 43 and a second fixed base 44, the third driving motor 41 is located on one side of the second fixed base 44, the leveling pressing wheel 42 and the leveling driving pulley 43 are installed on the second fixed base 44, and the third driving motor 41 drives the leveling driving pulley 43 to drive the leveling pressing wheel 42 to operate.

Specifically, the inching conveying mechanism 6 comprises a third fixing base 61, an inching sucker 62, a clamping device, a material box 65 and a fourth driving motor 66, the inching sucker 62, the material box 65 and the fourth driving motor 66 are located at the bottom of the third fixing base 61, the clamping device is located on two sides of the third fixing base 61, the clamping device clamps and positions the strip-shaped alloy resistors transmitted from the second conveying mechanism 5, the clamping device comprises a clamp 63 and a clamping cylinder 64, and the fourth driving motor 66 and the inching sucker 62 drive the strip-shaped alloy resistors to be punched to inching move.

Specifically, the stamping and cutting mechanism 7 includes a stamping cutter 71, a positioning press knife 72, a transmission cam mechanism and a fifth driving motor 75, the fifth driving motor 75 drives the transmission cam mechanism to operate, a first cam 73 in the transmission cam mechanism drives the positioning press knife 72 to fix the strip-shaped alloy resistor, a second cam 74 in the transmission cam mechanism drives the stamping cutter 71 to stamp the strip-shaped alloy resistor, and preferably, a second sensor 76 is arranged between the first cam 73 and the second cam 74, so as to conveniently judge whether the positioning press knife 72 and the stamping cutter 71 are in place.

The working principle is as follows: firstly, feeding strip-shaped alloy resistors to be punched to a stock bin mechanism 1; the lifting cylinder 21 in the sucker mechanism 2 drives the sucker 22 to move up and down, so that the sucker 22 adsorbs the strip-shaped alloy resistors in the storage bin 11, and then the movable cylinder 23 drives the lifting cylinder 21 and the sucker 22 to move towards the first conveying mechanism 3 and place the strip-shaped alloy resistors on the first conveying mechanism 3; the first conveying mechanism 3 conveys the strip-shaped alloy resistor to the leveling mechanism 4; the leveling mechanism 4 levels the strip-shaped alloy resistors and conveys the leveled strip-shaped alloy resistors to the second conveying mechanism 5; the second conveying mechanism 5 conveys the strip-shaped alloy resistors to the inching conveying mechanism 6; the clamping device in the inching conveying mechanism 6 clamps and positions the strip-shaped alloy resistor transmitted from the second conveying mechanism 5, and the fourth driving motor 66 and the inching sucker 62 drive the strip-shaped alloy resistor to be punched to inching move to the bottom of the punching and cutting mechanism 7; a first cam 73 in a transmission cam mechanism in the punching and cutting mechanism 7 drives a positioning pressing knife 72 to fix the strip-shaped alloy resistor, and a second cam 74 in the transmission cam mechanism drives a punching cutting knife 71 to punch the strip-shaped alloy resistor.

In addition, the application also provides a stamping method for the continuous stamping and cutting machine, which comprises the following steps:

a. feeding strip-shaped alloy resistors to be punched to a stock bin mechanism 1, wherein a first driving motor 13 at the bottom of the stock bin mechanism 1 drives a lifting rod 12 to drive a stock bin 11 to move up and down;

b. the suction cup mechanism 2 sucks the strip-shaped alloy resistor and places the strip-shaped alloy resistor on the first conveying mechanism 3, specifically, the lifting cylinder 21 drives the suction cup 22 to move up and down, so that the suction cup 22 adsorbs the strip-shaped alloy resistor in the storage bin 11, and then the movable cylinder 23 drives the lifting cylinder 21 and the suction cup 22 to move towards the first conveying mechanism 3 and place the strip-shaped alloy resistor on the first conveying mechanism 3;

c. the first conveying mechanism 3 conveys the strip-shaped alloy resistor to the leveling mechanism 4;

d. the leveling mechanism 4 levels the strip-shaped alloy resistors and conveys the leveled strip-shaped alloy resistors to the second conveying mechanism 5;

e. the second conveying mechanism 5 conveys the strip-shaped alloy resistors to the inching conveying mechanism 6;

f. the inching conveying mechanism 6 conveys the strip-shaped alloy resistors to the stamping and cutting mechanism 7, specifically, the clamping device clamps and positions the strip-shaped alloy resistors conveyed from the second conveying mechanism 5, and the fourth driving motor 66 and the inching sucker 62 drive the strip-shaped alloy resistors to be stamped to inching move to the bottom of the stamping and cutting mechanism 7;

g. the stamping and cutting mechanism 7 performs stamping and cutting on the strip-shaped alloy resistor, specifically, a first cam 73 in the transmission cam mechanism drives a positioning pressing knife 72 to fix the strip-shaped alloy resistor, and a second cam 74 in the transmission cam mechanism drives a stamping cutting knife 71 to perform stamping on the strip-shaped alloy resistor.

The automatic conveying and stamping cutting of the strip-shaped alloy resistor are realized, the stamping cutting efficiency is improved, and manpower and material resources are saved; the application provides a punching press guillootine simple structure is reasonable, and the later maintenance management of being convenient for has reduced the maintenance cost effectively.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a continuous punching press guillootine, includes board (9), its characterized in that: one side of the machine table (9) is provided with a bin mechanism (1), a sucker mechanism (2) is arranged above the bin mechanism (1), a first conveying mechanism (3), a leveling mechanism (4), a second conveying mechanism (5) and an inching conveying mechanism (6) are sequentially arranged above the machine table (9) according to the direction far away from the bin mechanism (1), a punching and cutting mechanism (7) is arranged above the inching conveying mechanism (6), the sucker mechanism (2) is used for sucking the strip alloy resistors in the bin mechanism (1) to the first conveying mechanism (3), the first conveying mechanism (3) is used for conveying the strip alloy resistors to the leveling mechanism (4), the leveling mechanism (4) is used for leveling the strip alloy resistors, the second conveying mechanism (5) is used for conveying the strip alloy resistors after leveling to the inching conveying mechanism (6), inching conveying mechanism (6) are used for carrying strip alloy resistance and cutting mechanism (7) for the punching press, punching press is cut mechanism (7) and is used for carrying out the punching press to strip alloy resistance and tailors, feed bin mechanism (1), sucking disc mechanism (2), first conveying mechanism (3), leveling mechanism (4), second conveying mechanism (5), inching conveying mechanism (6) and punching press are cut mechanism (7) and all are controlled through control unit (8).

2. The continuous press cutting machine according to claim 1, wherein: feed bin mechanism (1) includes feed bin (11), first driving motor (13) and lifter (12) and constitutes, the one end and the feed bin (11) of lifter (12) are connected, first driving motor (13) drive lifter (12) reciprocate, lifter (12) drive feed bin (11) oscilaltion.

3. The continuous press cutting machine according to claim 1, wherein: sucking disc mechanism (2) include sucking disc (22), lift cylinder (21) and activity cylinder (23), activity cylinder (23) erect in board (9) top through fixed bolster (24), the piston rod and lift cylinder (21) fixed connection of activity cylinder (23), sucking disc (22) are connected with the piston rod of lift cylinder (21), lift cylinder (21) drive sucking disc (22) reciprocate, move about activity cylinder (23) drive lift cylinder (21) and sucking disc (22).

4. The continuous press cutting machine according to claim 1, wherein: the first conveying mechanism (3) comprises a second driving motor (33), a conveying belt (32), a conveying belt wheel (34) and a first fixing base (31), the second driving motor (33) is installed on one side of the first fixing base (31), the conveying belt (32) and the conveying belt wheel (34) are installed on the first fixing base (31), and the second driving motor (33) drives the conveying belt wheel (34) to drive the conveying belt (32) to run.

5. The continuous press cutting machine according to claim 1, wherein: the flattening mechanism (4) comprises a third driving motor (41), a flattening pressing wheel (42), a flattening transmission belt wheel (43) and a second fixed base (44), the third driving motor (41) is located on one side of the second fixed base (44), the flattening pressing wheel (42) and the flattening transmission belt wheel (43) are installed on the second fixed base (44), and the third driving motor (41) drives the flattening transmission belt wheel (43) to drive the flattening pressing wheel (42) to operate.

6. The continuous press cutting machine according to claim 1, wherein: the inching conveying mechanism (6) comprises a third fixing base (61), an inching sucker (62), a clamping device, a material box (65) and a fourth driving motor (66), wherein the inching sucker (62), the material box (65) and the fourth driving motor (66) are located at the bottom of the third fixing base (61), the clamping device is located on two sides of the third fixing base (61), the clamping device clamps and positions the strip-shaped alloy resistors transmitted from the second conveying mechanism (5), and the fourth driving motor (66) and the inching sucker (62) drive the strip-shaped alloy resistors to be punched to inching move.

7. The continuous press cutting machine according to claim 1, wherein: the stamping and cutting mechanism (7) comprises a stamping cutter (71), a positioning pressing cutter (72), a transmission cam mechanism and a fifth driving motor (75), the fifth driving motor (75) drives the transmission cam mechanism to operate, a first cam (73) in the transmission cam mechanism drives the positioning pressing cutter (72) to fix the strip-shaped alloy resistor, and a second cam (74) in the transmission cam mechanism drives the stamping cutter (71) to stamp the strip-shaped alloy resistor.

8. A press method for the continuous press cutter according to any one of claims 1 to 7, characterized in that:

the method comprises the following steps:

a. feeding strip-shaped alloy resistors to be punched to a stock bin mechanism (1);

b. the sucker mechanism (2) sucks and places the strip-shaped alloy resistor on the first conveying mechanism (3);

c. the first conveying mechanism (3) conveys the strip-shaped alloy resistors to the leveling mechanism (4);

d. the leveling mechanism (4) levels the strip-shaped alloy resistors and conveys the leveled strip-shaped alloy resistors to the second conveying mechanism (5);

e. the second conveying mechanism (5) conveys the strip-shaped alloy resistors to the inching conveying mechanism (6);

f. the inching conveying mechanism (6) conveys the strip-shaped alloy resistor to the stamping and cutting mechanism (7);

g. the stamping and cutting mechanism (7) performs stamping and cutting on the strip-shaped alloy resistor.