CN116460202A - A metal washer stamping system - Google Patents

Abstract

The invention relates to the technical field of hardware gasket production and processing, specifically a metal gasket stamping system, including a base, a driving mechanism, a stamping mechanism, a material receiving mechanism, a waste material collection mechanism, a feeding mechanism and a transmission mechanism. Transmission mechanism; the driving mechanism can provide power for the stamping mechanism and the transmission mechanism, the material receiving mechanism can collect finished parts, the waste material collection mechanism can collect waste materials, the feeding mechanism can send hardware materials to the bottom of the stamping device, and the transmission mechanism can provide power for the feeding mechanism.

Description

A metal washer stamping system

technical field

The invention relates to the technical field of metal washer production and processing, in particular to a metal washer stamping system.

Background technique

Metal washer refers to the flat metal ring between the connected part and the nut, which is used to protect the surface of the connected part from being scratched by the nut and disperse the pressure of the nut on the connected part. The metal washer is made of high-precision, high-hardness sheet material, usually used in the adjustment and measurement of precision molds or precision hardware, or as spacers, called precision washers, sometimes called mold washers or precision gaps. However, the current metal gasket stamping system often has the following problems in the process of production operations:

(1) In the production process of the traditional metal gasket stamping system, it is often necessary to place the hardware material under the punching head first, and then punch the metal material. During the stamping process, due to the large impact force, it may cause metal waste to splash, and the finished hardware material will fall on the stamping table after stamping, and the staff needs to manually take out the finished piece. The operating efficiency of the ring stamping system;

(2) During the production operation of the traditional metal washer stamping system, the staff often needs to manually place the hardware material under the stamping head, and then punch the hardware material, which makes it difficult to continuously stamp the hardware material, thus greatly reducing the production efficiency of the metal washer stamping system.

Contents of the invention

Aiming at the deficiencies of the prior art, the present invention provides a stamping system for metal gaskets, which solves the problem that: in the production process of the traditional metal gasket stamping system, it is often necessary to first place the hardware material under the stamping head, and then punch the hardware material. During the stamping process, due to the large impact force, metal waste may be splashed, and the finished parts of the hardware materials will fall on the stamping table after stamping, requiring the staff to manually take out the finished parts. When pressing, it is easy to cause danger to the staff, and greatly reduces the working efficiency of the metal washer stamping system and it is difficult to continuously stamp the hardware materials, thus greatly reducing the technical problems of the production efficiency of the metal washer stamping system;

To achieve the above object, the present invention is achieved through the following technical solutions:

The technical solution used to solve its technical problems of the present invention is: a hardware padding system, including the base, the driver, the stamping mechanism, the feeding mechanism, the waste collection mechanism, the feeding agency, and the transmission mechanism. There is a feeding mechanism on the right. The top sliding connection of the base is connected to the waste collection mechanism. The top sliding connection of the base is the feed mechanism, which is fixed at the top of the base.

Preferably, the top of the base is fixedly connected with a placement platform, the left side of the placement platform is fixedly connected with a discharge slope, the front and rear sides of the discharge slope are fixedly connected with baffle plates, and the rear side of the top of the base is fixedly connected with a mounting plate.

Preferably, the drive mechanism includes a fixed frame, the fixed frame is fixedly connected to the back of the mounting plate, a servo motor is fixedly installed inside the fixed frame, a driving wheel is fixedly sleeved on the output shaft of the servo motor, a transmission belt is movably connected to the outside of the driving wheel, a driven wheel is movably connected to the inner side of the right end of the transmission belt, and a rotating shaft is fixedly connected to the front of the driven wheel, and the rotating shaft is fixedly connected to the transmission mechanism.

Preferably, the stamping mechanism includes a rotating wheel, the rotating wheel is fixedly connected to the output shaft of the servo motor, the front of the rotating wheel is fixedly connected with a No. 1 connecting rod, the bottom of the No. 1 connecting rod is rotatably connected with the No. The No. 1 mounting block, the No. 2 mounting block is fixedly connected to the right side of the pressure plate, and the No. 1 mounting block and the No. 2 mounting block are both rotatably connected with the material receiving mechanism.

Preferably, the material receiving mechanism includes a rotating rod that is rotatably connected to the inside of the No. 1 installation block, the bottom end of the front of the rotating rod is fixedly connected to a fixed shaft, the outer rotation of the fixed shaft is connected to a material receiving tray, and the outer rotation of the fixed shaft is connected to a combination rod.

Preferably, the combined rod includes an upper connection end, the upper connection end is rotatably connected to the inside of the No. 2 mounting block, the right end of the upper connection end is threadedly connected to a connection end, the right end of the connection end is threadedly connected to a lower connection end, and the right end of the lower connection end is rotatably connected to the outside of the fixed shaft.

Preferably, the waste collection mechanism includes a blanking chute, the blanking chute is set on the top of the placing table, the blanking chute is located directly below the stamping head, a cavity is opened on the front of the placing table, a slide rail is fixedly connected to the bottom of the inner cavity of the cavity, a collection box is slidably connected to the inside of the slide rail, and a handle is fixedly connected to the front of the collection box.

Preferably, the feeding mechanism includes a movable block, the movable block is slidably socketed on the outside of the placement platform, the top of the movable block is fixedly connected with a connecting plate, the front and rear sides of the left side of the connecting plate are fixedly connected with splints, the inside of the splint is connected with a movable shaft, the outside of the rotating shaft is fixedly connected with a feeding block, and a No. 1 spring is fixedly connected between the left side of the connecting plate and the right side of the feeding block.

Preferably, a mounting frame is fixedly connected to the right side of the placing platform.

Preferably, the transmission mechanism includes a mounting shaft, the mounting shaft is rotatably connected to the inner side of the mounting frame, the rear end of the mounting shaft is fixedly connected to the rotating shaft, and the outside of the mounting shaft is fixedly sleeved with a mounting wheel, the outside of the mounting wheel is movably sleeved with a connecting belt, the top inside the mounting frame is fixedly connected to a hollow block, the connecting belt passes through the middle of the hollow block, and is fixedly connected to the right side of the connecting plate. Fixed connection.

Beneficial effects of the present invention:

(1) In the metal gasket stamping system of the present invention, in the material receiving mechanism and the waste material collection mechanism, the staff first turns on the servo motor, so that the rotating wheel rotates, driving the No. 1 connecting rod to move, causing the No. 2 connecting rod to move, driving the slider to slide up and down inside the mounting rail, causing the pressing plate to move in the vertical direction, and driving the punching head to move in the vertical direction. When the punching head moves downward, relative motion occurs between the pressing plate and the mounting rail, so that the No. , so that the combination rod and the rotating rod are rotated, and the length of the connecting end can be changed to make the inclination angle of the material receiving tray, which drives the material receiving tray to tilt to the upper right. At this time, after the stamping head stamps the hardware material, the waste material of the hardware material falls into the cavity from the blanking trough, so that the waste material falls into the collection box. Finally, pull the handle to pull the collection box out, which is convenient for centralized processing of the waste in the collection box. The relative movement between the No. 1 mounting block and the No. 2 mounting block makes the combination rod and the rotating rod rotate, and drives the material receiving tray to tilt to the left. At this time, after the stamping head punches the metal material, the finished product is brought to the stamping head, the material receiving plate moves to the right below the punching head, and finally the finished product falls into the material receiving tray, so that the finished product slides out of the material receiving tray to the end of the material receiving tray, avoiding metal scraps that may be splashed due to the large impact force during the stamping process. It also avoids the problem that the finished parts of the hardware materials will fall on the stamping table after stamping, requiring the staff to manually take out the finished parts. When the subsequent stamping of the hardware materials, it is easy to cause danger to the staff. The problem of injury, and effectively improves the working efficiency of the metal gasket stamping system.

(2) In the metal gasket stamping system of the present invention, in the feeding mechanism and the transmission mechanism, the servo motor is turned on, so that the driving wheel rotates, drives the transmission belt to move, drives the driven wheel to rotate, causes the rotating shaft to rotate, drives the installation shaft to rotate, makes the installation wheel to rotate, drives the connecting belt to move, drives the connecting plate to move on the placement platform, causes the movable block to slide on the placement platform, drives the splint to move in the horizontal direction, makes the movable shaft to move in the horizontal direction, and drives the feeding block to move in the horizontal direction, When the stamping head moves downward, the mounting shaft drives the mounting wheel to rotate, causing the connecting belt to wind up, driving the connecting plate to move to the right in the horizontal direction, causing the feeding block to move to the right in the horizontal direction and making the No. The material block moves to the left in the horizontal direction. At this time, the No. 1 spring is difficult to extend, so that the feeding block pushes the metal material on the table to the left to complete the automatic feeding, avoiding the need for the staff to manually place the hardware material under the stamping head, and then punch the hardware material. It is convenient for continuous stamping of the hardware material, thereby effectively improving the production efficiency of the metal gasket stamping system.

Description of drawings

The present invention will be further described below in conjunction with the accompanying drawings and embodiments.

Fig. 1 is a schematic diagram of the overall structure of an embodiment of the present invention;

Fig. 2 is the structural representation of waste collection mechanism among the present invention;

Fig. 3 is the structural representation of material receiving mechanism among the present invention;

Fig. 4 is the explosion schematic diagram of material receiving mechanism in the present invention;

Fig. 5 is the connection structure schematic diagram of feeding mechanism and transmission mechanism among the present invention;

Fig. 6 is the explosion schematic diagram of feeding mechanism among the present invention;

Fig. 7 is the structural representation of driving mechanism in the present invention;

Fig. 8 is an enlarged schematic diagram of A place in Fig. 2 in the present invention;

In the figure: 1, base; 2, placing platform; 3, discharge slope; 4, baffle plate; 5, mounting plate; 6, driving mechanism; 61, fixed frame; 62, servo motor; 63, driving wheel; 64, transmission belt; 65, driven wheel; 66, rotating shaft; Head; 78, No. 1 installation block; 79, No. 2 installation block; 8, material receiving mechanism; 81, rotating rod; 82, fixed shaft; 83, material receiving tray; 84, combined rod; 841, upper connection end; 102, connecting plate; 103, splint; 104, movable shaft; 105, feeding block; 106, No. 1 spring; 11, mounting frame; 12, transmission mechanism; 121, mounting shaft; 122, mounting wheel; 123, connecting belt; 124, hollow block;

Detailed ways

The embodiment of the present invention provides a stamping system for metal washers, which solves the problem that in the production process of the traditional stamping system for metal washers, it is often necessary to first place the hardware materials under the stamping head, and then punch the metal materials. During the stamping process, due to the large impact force, metal scraps may be splashed, and the finished parts of the hardware materials will fall on the stamping table after stamping, and workers need to manually take out the finished parts, which is prone to danger during subsequent stamping of the hardware materials. It causes harm to the staff, and greatly reduces the working efficiency of the metal washer stamping system and is difficult to continuously stamp the hardware materials, thereby greatly reducing the technical problems of the production efficiency of the metal washer stamping system;

The technical solution in the embodiment of the present invention is to solve the above-mentioned technical problems. The general idea is as follows: the staff first turns on the servo motor to rotate the rotating wheel, which drives the No. 1 connecting rod to move, which makes the No. 2 connecting rod move, drives the slider to slide up and down inside the mounting rail, makes the pressing plate move in the vertical direction, and drives the punching head to move in the vertical direction. When the punching head moves upward, the relative movement between the pressing plate and the mounting rail makes the relative movement between the No.1 mounting block and the No. The tray tilts downward to the left. At this time, the stamping head punches the metal material and brings the finished parts to the stamping head. The receiving tray moves to the bottom of the stamping head, and finally the finished parts fall into the tray, so that the finished parts slide out of the tray to the end of the tray. This avoids the problem of metal waste splashing due to the large impact force during the stamping process, and avoids the finished parts falling on the stamping table after stamping of the hardware materials. Manually take out the finished parts, in the subsequent stamping of hardware materials, it is easy to cause danger to the staff, and effectively improve the working efficiency of the metal washer stamping system. When the servo motor is turned on, the driving wheel rotates, drives the transmission belt to move, drives the driven wheel to rotate, makes the rotating shaft to rotate, drives the installation shaft to rotate, makes the installation wheel to rotate, drives the connecting belt to move, drives the connecting plate to move on the placement table, makes the movable block to slide on the placement table, and drives the splint to move in the horizontal direction. Make the movable shaft move in the horizontal direction and drive the feeding block to move in the horizontal direction. When the punching head moves downward, the installation shaft drives the installation wheel to rotate, causing the connecting belt to wind up and drives the connecting plate to move to the right in the horizontal direction, making the feeding block move to the right in the horizontal direction and the No. 1 spring to shrink. At this time, the No. 2 spring drives the connecting plate to move to the left in the horizontal direction, which makes the feeding block move to the left in the horizontal direction. At this time, the No. 1 spring is difficult to extend, so that the feeding block pushes the hardware on the table to the left to complete automatic feeding, avoiding the need for the staff to manually place the hardware under the punching head, and then punch the hardware.

In order to better understand the above-mentioned technical solution, the above-mentioned technical solution will be described in detail below in conjunction with the accompanying drawings and specific implementation methods.

As shown in Figures 1-8, a metal gasket stamping system according to the present invention includes a base 1, a driving mechanism 6, a stamping mechanism 7, a material receiving mechanism 8, a waste collection mechanism 9, a feeding mechanism 10 and a transmission mechanism 12, the driving mechanism 6 is fixedly installed above the base 1, the front of the driving mechanism 6 is fixedly connected to the punching mechanism 7, the right side of the punching mechanism 7 is fixedly connected to the material receiving mechanism 8, the top of the base 1 is slidably connected to the waste collection mechanism 9, and the top of the base 1 is slidably connected to a The feeding mechanism 10 is fixedly connected with the transmission mechanism 12 on the top of the base 1; the driving mechanism 6 can provide power for the stamping mechanism 7 and the transmission mechanism 12; the material receiving mechanism 8 can collect finished parts;

Specifically, the top of the base 1 is fixedly connected with a placement platform 2, the left side of the placement platform 2 is fixedly connected with a discharge slope 3, the front and rear sides of the discharge slope 3 are fixedly connected with a baffle plate 4, the rear side of the top of the base 1 is fixedly connected with a mounting plate 5, the driving mechanism 6 includes a fixed frame 61, and the fixed frame 61 is fixedly connected on the back of the mounting plate 5. The outside of the drive belt 64 is movably connected with a transmission belt 64, the inner side of the right end of the transmission belt 64 is movably connected with a driven wheel 65, the front of the driven wheel 65 is fixedly connected with a rotating shaft 66, and the rotating shaft 66 is fixedly connected with the transmission mechanism 12. The front of the mounting plate 5 is fixedly connected with a mounting rail 74, and the inside of the mounting rail 74 is slidably connected with a slider 75. The top of the slider 75 is rotatably connected with the bottom end of the No. The blocks 79 are all connected to the material receiving mechanism 8 in rotation; the servo motor 62 is turned on, so that the rotating wheel 71 rotates, drives the No. 1 connecting rod 72 to move, makes the No. 2 connecting rod 73 move, drives the slider 75 to slide up and down inside the mounting rail 74, makes the pressure plate 76 move in the vertical direction, and drives the stamping head 77 to move in the vertical direction, which is convenient for stamping hardware materials.

Specifically, the material receiving mechanism 8 includes a rotating rod 81, which is rotatably connected to the inside of the No. 1 mounting block 78. The bottom end of the front of the rotating rod 81 is fixedly connected to a fixed shaft 82, and the outside of the fixed shaft 82 is rotatably connected to a material receiving tray 83, and the outside of the fixed shaft 82 is rotatably connected to a combination rod 84. A connection end 842 is connected, the right end of the connection end 842 is threadedly connected with a lower connection end 843, and the right end of the lower connection end 843 is rotatably connected to the outside of the fixed shaft 82. The waste collection mechanism 9 includes a blanking chute 91. The inside of 93 is slidingly connected with collecting box 94, and the front of said collecting box 94 is fixedly connected with handle 95; when the stamping head 77 moves downward, relative movement occurs between the pressing plate 76 and the mounting rail 74, so that the relative movement occurs between the No. 1 mounting block 78 and the No. 77 After stamping the metal material, the waste material of the hardware material falls into the cavity 92 from the blanking chute 91, so that the waste material falls into the collection box 94, and finally pulls the handle 95 to pull out the collection box 94, which is convenient for centralized processing of the waste in the collection box 94. 4 and the rotating rod 81 rotate, driving the material receiving tray 83 to tilt to the left. At this time, after the stamping head 77 punches the hardware material, the finished product is brought to the stamping head 77, the material receiving tray 83 moves to the right below the punching head 77, and finally the finished product falls into the material receiving tray 83, so that the finished product slides in the material receiving tray 83 to the end of the material receiving tray 83, avoiding the flying of metal scrap due to the large impact force generated during the stamping process. It avoids the problem of splashing, and avoids that the finished parts of the hardware materials will fall on the stamping table after stamping, requiring the staff to manually take out the finished parts. In the subsequent stamping of the hardware materials, it is easy to cause danger to the staff. The problem of injury, and effectively improves the working efficiency of the metal gasket stamping system.

Specifically, described feeding mechanism 10 comprises movable block 101, and described movable block 101 is slidably socketed on the outside of placing table 2, and the top of described movable block 101 is fixedly connected with connecting plate 102, and the front and rear sides of described connecting plate 102 left side are fixedly connected with splint 103, and the inner rotation of described splint 103 is connected with movable shaft 104, and the outside of described rotating shaft 104 is fixedly connected with feeding block 105, and the left side of described connecting plate 102 and the right side of feeding block 105 are fixedly connected. Connected with a No. 1 spring 106, the right side of the placement platform 2 is fixedly connected with a mounting frame 11, and the transmission mechanism 12 includes a mounting shaft 121. The belt 123 passes through the middle part of the hollow block 124 and is fixedly connected to the right side of the connecting plate 102. The outer movable sleeve of the connecting belt 123 has a No. 2 spring 125, and the two ends of the No. 2 spring 125 are respectively fixedly connected with the right side of the connecting plate 102 and the left side of the hollow block 124; the servo motor 62 is turned on, so that the driving wheel 63 rotates, drives the transmission belt 64 to move, drives the driven wheel 65 to rotate, makes the rotating shaft 66 to rotate, and drives the installation shaft 121 to rotate , so that the installation wheel 122 rotates, drives the connecting belt 123 to move, drives the connecting plate 102 to move on the placement platform 2, makes the movable block 101 slide on the placement platform 2, drives the splint 103 to move in the horizontal direction, makes the movable shaft 104 to move in the horizontal direction, and drives the feeding block 105 to move in the horizontal direction. The connecting plate 102 moves to the right in the horizontal direction, so that the feeding block 105 moves to the right in the horizontal direction and the No. 1 spring 106 shrinks, and the feeding block 105 is pulled to rotate, so that the metal material on the placing table 2 is stamped by the stamping head 77. When the stamping head 77 moves upward, the installation shaft 121 drives the installation wheel 122 to rotate, so that the connecting belt 123 unwinds. At this time, the second spring 125 drives the connecting plate 102 in the horizontal direction. Movement to the left makes the feeding block 105 move to the left in the horizontal direction. At this time, the No. 1 spring 106 is difficult to extend, so that the feeding block 105 pushes the hardware materials on the placement table 2 to the left to complete automatic feeding, avoiding the need for workers to manually place the hardware materials under the stamping head 77, and then punching the hardware materials.

When the present invention is in use, the staff first turns on the servo motor 62 to make the rotating wheel 71 rotate, drive the No. 1 connecting rod 72 to move, make the No. 2 connecting rod 73 move, drive the slide block 75 to slide up and down inside the mounting rail 74, make the pressing plate 76 move in the vertical direction, and drive the punching head 77 to move in the vertical direction. Relative movement occurs between 9, so that the combination rod 84 and the rotating rod 81 rotate, and the length of the connecting end 842 can be changed to make the inclination angle of the material receiving tray 83 to drive the material receiving tray 83 to tilt to the upper right. At this time, after the stamping head 77 stamps the hardware material, the waste material of the hardware material falls into the cavity 92 from the blanking groove 91, so that the waste material falls into the collection box 94, and finally the handle 95 is pulled to pull out the collection box 94, which is convenient for collecting materials. The waste materials in the box 94 are processed centrally. When the stamping head 77 moves upward, relative movement occurs between the pressing plate 76 and the mounting rail 74, so that the relative movement occurs between the No. 1 mounting block 78 and the No. 2 mounting block 79, so that the combined rod 84 and the rotating rod 81 rotate, and the material receiving tray 83 is tilted to the left. The finished product falls into the material receiving tray 83, so that the finished product slides out to the end of the material receiving tray 83 in the material receiving tray 83, avoiding the problem of metal waste splashing due to a large impact force during the stamping process, and avoiding the finished parts of the hardware material after stamping. To increase the operating efficiency of the pressing system, when the servo motor 62 is turned on, the driving wheel 63 rotates, drives the transmission belt 64 to move, drives the driven wheel 65 to rotate, makes the rotating shaft 66 to rotate, drives the installation shaft 121 to rotate, makes the installation wheel 122 to rotate, drives the connecting belt 123 to move, drives the connecting plate 102 to move on the placement platform 2, makes the movable block 101 to slide on the placement platform 2, drives the splint 103 to move in the horizontal direction, and makes the movable shaft 104 to move in the horizontal direction. When the stamping head 77 moves downward, the installation shaft 121 drives the installation wheel 122 to rotate, so that the connecting belt 123 takes place in a winding motion, driving the connecting plate 102 to move to the right in the horizontal direction, so that the feeding block 105 moves to the right in the horizontal direction and the No. 1 spring 106 shrinks. Stamping, when the stamping head 77 moves upward, the installation shaft 121 drives the installation wheel 122 to rotate, so that the connecting belt 123 unwinds. At this time, the No. 2 spring 125 drives the connecting plate 102 to move to the left in the horizontal direction, so that the feeding block 105 moves to the left in the horizontal direction. At this time, the No. 1 spring 106 is difficult to extend, so that the feeding block 105 pushes the hardware materials on the placement table 2 to the left to complete automatic feeding, avoiding the need for staff to manually place the hardware materials Under the stamping head 77, the problem of punching the metal material is convenient for continuous stamping of the hardware material, thereby effectively improving the production efficiency of the metal washer stamping system.

The basic principles, main features and advantages of the present invention have been shown and described above. Those skilled in the art should understand that the present invention is not limited by the above-mentioned examples. The above-mentioned embodiments and descriptions in the description only illustrate the principles of the present invention. Without departing from the spirit and scope of the present invention, the present invention also has various changes and improvements, and these changes and improvements all fall within the scope of protection claimed by the present invention. The protection scope of the present invention is defined by the appended claims and their equivalents.

Claims (10)

1. A hardware washer stamping system, characterized in that: including base (1), actuating mechanism (6), punching press mechanism (7), receiving mechanism (8), garbage collection mechanism (9), feeding mechanism (10) and drive mechanism (12), the top fixed mounting of base (1) has actuating mechanism (6), the positive fixedly connected with of actuating mechanism (6) punching press mechanism (7), the right side fixedly connected with of punching press mechanism (7) receiving mechanism (8), the top sliding connection of base (1) has garbage collection mechanism (9), the top sliding connection of base (1) has feeding mechanism (10), the top fixedly connected with of base (1) drive mechanism (12).

2. A hardware gasket stamping system as set forth in claim 1, wherein: the top fixedly connected with of base (1) is placed platform (2), the left side fixedly connected with of placing platform (2) goes out ejection of compact slope (3), both sides all fixedly connected with baffle (4) around ejection of compact slope (3), the rear side fixedly connected with mounting panel (5) at base (1) top.

3. A hardware gasket stamping system as set forth in claim 2 wherein: the driving mechanism (6) comprises a fixing frame (61), the fixing frame (61) is fixedly connected to the back of the mounting plate (5), a servo motor (62) is fixedly arranged in the fixing frame (61), a driving wheel (63) is fixedly sleeved on an output shaft of the servo motor (62), a driving belt (64) is movably connected to the outside of the driving wheel (63), a driven wheel (65) is movably connected to the inner side of the right end of the driving belt (64), a rotating shaft (66) is fixedly connected to the front of the driven wheel (65), and the rotating shaft (66) is fixedly connected with the driving mechanism (12).

4. A hardware gasket stamping system as set forth in claim 3, wherein: the stamping mechanism (7) comprises a rotating wheel (71), the rotating wheel (71) is fixedly connected to an output shaft of a servo motor (62), a first connecting rod (72) is fixedly connected to the front side of the rotating wheel (71), a second connecting rod (73) is rotatably connected to the bottom end of the first connecting rod (72), a mounting rail (74) is fixedly connected to the front side of the mounting plate (5), a sliding block (75) is slidably connected to the inside of the mounting rail (74), the top of the sliding block (75) is rotatably connected with the bottom end of the second connecting rod (73), a pressing plate (76) is fixedly connected to the front side of the sliding block (75), a stamping head (77) is fixedly mounted at the bottom of the pressing plate (76), a second mounting block (79) is fixedly connected to the right side of the pressing plate (76), and both the first mounting block (78) and the second mounting block (79) are rotatably connected with a receiving mechanism (8).

5. A hardware gasket stamping system as set forth in claim 4, wherein: the material receiving mechanism (8) comprises a rotating rod (81), the rotating rod (81) is rotationally connected to the inside of a first mounting block (78), a fixed shaft (82) is fixedly connected to the front bottom end of the rotating rod (81), a material receiving disc (83) is rotationally connected to the outside of the fixed shaft (82), and a combined rod (84) is rotationally connected to the outside of the fixed shaft (82).

6. A hardware gasket stamping system as set forth in claim 5, wherein: the combined rod (84) comprises an upper connecting end (841), the upper connecting end (841) is rotationally connected to the inside of a second mounting block (79), the right end of the upper connecting end (841) is in threaded connection with a connecting end (842), the right end of the connecting end (842) is in threaded connection with a lower connecting end (843), and the right end of the lower connecting end (843) is rotationally connected to the outside of the fixed shaft (82).

7. A hardware gasket stamping system as set forth in claim 6, wherein: the waste collection mechanism (9) comprises a blanking groove (91), the blanking groove (91) is formed in the top of the placing table (2), the blanking groove (91) is located under the stamping head (77), a cavity (92) is formed in the front face of the placing table (2), a sliding rail (93) is fixedly connected to the bottom of the cavity (92) inner cavity, a collecting box (94) is connected to the sliding rail (93) in a sliding mode, and a handle (95) is fixedly connected to the front face of the collecting box (94).

8. A hardware gasket stamping system as set forth in claim 7 wherein: feeding mechanism (10) are including movable block (101), the outside at placing platform (2) is cup jointed in the movable block (101) slip, the top fixedly connected with connecting plate (102) of movable block (101), both sides fixedly connected with splint (103) around connecting plate (102) left side, the inside rotation of splint (103) is connected with loose axle (104), the outside fixedly connected with feeding block (105) of axis of rotation (104), fixedly connected with spring (106) between the left side of connecting plate (102) and the right side of feeding block (105).

9. A hardware gasket stamping system as set forth in claim 8 wherein: the right side of the placing table (2) is fixedly connected with a mounting frame (11).

10. A hardware gasket stamping system as set forth in claim 9 wherein: the transmission mechanism (12) comprises a mounting shaft (121), the mounting shaft (121) is rotationally connected to the inner side of the mounting frame (11), the rear end of the mounting shaft (121) is fixedly connected with the rotating shaft (66), a mounting wheel (122) is fixedly sleeved on the outer portion of the mounting shaft (121), a connecting belt (123) is movably sleeved on the outer portion of the mounting wheel (122), a hollow block (124) is fixedly connected to the inner side top of the mounting frame (11), the connecting belt (123) penetrates through the middle of the hollow block (124) and is fixedly connected to the right side of the connecting plate (102), a second spring (125) is movably sleeved on the outer portion of the connecting belt (123), and two ends of the second spring (125) are respectively fixedly connected to the right side of the connecting plate (102) and the left side of the hollow block (124).