CN116000197A - Automatic riveting structure for multiple material belts of progressive die - Google Patents

Abstract

The invention discloses a continuous die multi-material-belt automatic riveting structure, which comprises a die holder, wherein a main part template and an accessory template are fixedly arranged at the top of the die holder through bolts, and the main part template is positioned at the left side and the right side of the accessory template; the main part template and the accessory template are respectively provided with a main part channel and two accessory channels, the main part channels and the two accessory channels are mutually perpendicular and crossed, two cavity slideways are arranged in the accessory template, two material pulling mechanisms are fixedly arranged in the two cavity slideways, and the two material pulling mechanisms are respectively arranged on the two accessory channels. According to the invention, synchronous production of the hardware main part and the hardware accessory is realized, riveting work is completed, separate production and riveting are avoided, processing steps and time consumption are saved, the processing efficiency of automatic riveting of multiple material belts is improved, the production requirement is met, the occupied area and the use cost of processing equipment are reduced, and the use is more economical.

Description

Automatic riveting structure for multiple material belts of progressive die

Technical Field

The invention relates to the technical field of continuous die riveting processing, in particular to an automatic riveting structure for a plurality of material strips of a continuous die.

Background

At present, the hardware riveting method of the main accessories is to firstly produce the main work and the accessories, then add a riveting die to manually put the main accessories on the main work and the accessories, and rivet the main accessories together by stamping.

The method is obvious in that the labor and equipment are more, the production efficiency is low, particularly the last manual riveting is performed, the main part and the accessory are required to be placed, the main part and the accessory are easy to misplace when placed, and a person can only do about 3000PCS within 10 hours a day.

The existing progressive die is fed by a feeder from left and right, the feeder is inconvenient to mount from front and back, the feeder is inconvenient to mount from front, the feeder is limited in rear space, the feeder is inconvenient to mount, even if the feeder is barely mounted, debugging, overhauling and maintenance are inconvenient, and stamping waste is inconvenient to collect.

In addition, the technical difficulties are technical difficulties, namely, how to rivet together and how to separate the riveting together in addition to the synchronism of feeding, and the automatic riveting cannot be realized without solving the technical difficulties, so that the automatic riveting can only be separately produced and manually riveted.

Disclosure of Invention

Aiming at the problems in the prior art, the invention aims to provide the automatic riveting structure of the continuous die multi-material belt, which can realize synchronous production, avoid separate riveting and improve the production efficiency of the automatic riveting of the multi-material belt.

In order to solve the background technical problem, the invention adopts the following technical scheme;

the automatic riveting structure of the continuous die multi-material belt comprises a die holder, wherein a main part template and an accessory template are fixedly arranged at the top of the die holder through bolts, and the main part template is positioned at the left side and the right side of the accessory template;

the main part template and the accessory template are respectively provided with a main part channel and two accessory channels, the main part channels and the two accessory channels are mutually perpendicular and crossed, two cavity slideways are arranged in the accessory template, two material pulling mechanisms are fixedly arranged in the two cavity slideways, and the two material pulling mechanisms are respectively arranged on the two accessory channels.

As a further description of the above technical solution:

the main part template comprises a lower supporting plate fixedly arranged on a die holder, a lower foot pad, a lower die holder, a lower base plate and a lower template are sequentially arranged above the lower supporting plate, and a stripper plate, a material stopping plate, an upper solid plate, an upper base plate, an upper die holder, an upper foot pad and an upper supporting plate are sequentially arranged at the top of the lower template.

As a further description of the above technical solution:

the main part channel comprises fourteen stamping stations, wherein fourteen stamping stations are sequentially used for punching, twining, punching, embossing, punching, deburring, embossing, riveting accessories, blank, leveling, blank and blanking from left to right.

As a further description of the above technical solution:

nine processing stations are arranged on the two accessory channels, and the nine processing stations are sequentially used for punching, blank forming, shaping, blank and riveting cutting from feeding to discharging.

As a further description of the above technical solution:

the material pulling mechanism comprises a material pulling cylinder fixed on the accessory template, the output end of the material pulling cylinder is fixedly connected with a sliding entering block positioned in the cavity slideway, two pen-type lifting small cylinders are fixedly installed on the sliding entering block, and the output ends of the two pen-type lifting small cylinders are fixedly connected with two pull pins which are inserted in the accessory channel.

As a further description of the above technical solution:

the accessory template is provided with four strip-shaped through grooves respectively positioned on the two accessory channels, and the pull needle is inserted into the inner sides of the strip-shaped through grooves.

Compared with the prior art, the invention has the advantages that:

(1) According to the scheme, synchronous production of the hardware main part and the hardware accessory is achieved, riveting work is completed, separation production and riveting are avoided, processing steps and time consumption are saved, the processing efficiency of automatic riveting of a plurality of material strips is improved, and production requirements are met.

(2) According to the scheme, the investment of stamping equipment and feeding equipment is reduced, the occupied area and the use cost of processing equipment are reduced, and the use is more economical and practical.

Drawings

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

FIG. 2 is a schematic elevational view of the present invention;

FIG. 3 is a schematic view of the lower die plate structure of the present invention;

fig. 4 is an enlarged schematic view of the portion a in fig. 1 according to the present invention.

The reference numerals in the figures illustrate:

1. a die holder; 2. a master template; 201. a lower support plate; 202. a lower foot pad; 203. a lower die holder; 204. a lower backing plate; 205. a lower template; 206. a stripper plate; 207. a stop plate; 208. a solid plate is arranged; 209. an upper backing plate; 210. an upper die holder; 211. upper foot pads; 212. an upper supporting plate; 3. an accessory template; 4. a material pulling mechanism; 401. a material pulling cylinder; 402. sliding into the block; 403. pen type lifting small cylinder; 404. drawing a needle; 5. and a strip-shaped through groove.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention;

referring to fig. 1-4, an automatic riveting structure for multiple material strips of a progressive die comprises a die holder 1, wherein a main part template 2 and an accessory template 3 are fixedly arranged at the top of the die holder 1 through bolts, the main part template 2 is positioned at the left side and the right side of the accessory template 3, and the installation of the main part template 2 and the accessory template 3 is completed at the top of the die holder 1 to form the progressive die;

the main part template 2 and the accessory template 3 are respectively provided with a main part channel and two accessory channels, the main part channel and the two accessory channels are mutually perpendicular to each other, the main part channel is used for processing hardware main parts, the two accessory channels can respectively process and transmit the two hardware accessories to form a main accessory trinity riveting, a machine table and manpower are saved, the production efficiency is high, the interior of the accessory template 3 is provided with two cavity slideways, two material pulling mechanisms 4 are fixedly arranged in the two cavity slideways, the two material pulling mechanisms 4 are respectively arranged on the two accessory channels, the feeding work of the hardware accessories can be played through the two material pulling mechanisms 4, the additional feeding machine is avoided being increased, and the space is saved.

Can realize automated production hardware master and annex to accomplish the riveting work to master and annex at the in-process of production, conveniently accomplish pay-off, frame mould and later stage's debugging maintenance and maintain the work of maintaining, degree of automation is high, and production efficiency is high, satisfies the demand of master annex hardware riveting work, is fit for using widely.

Please refer to fig. 1-3, wherein: the master template 2 comprises a lower supporting plate 201 fixedly installed on the die holder 1, a lower pad 202, a lower die holder 203, a lower pad 204 and a lower template 205 are sequentially installed above the lower supporting plate 201, and a stripper plate 206, a stop plate 207, an upper solid plate 208, an upper pad 209, an upper die holder 210, an upper pad 211 and an upper supporting plate 212 are sequentially arranged at the top of the lower template 205.

The main part template 2 is simple and convenient to assemble, can be convenient for carry out stamping processing to the hardware, realizes steps such as punching a hole, line ball, accomplishes the processing production work of hardware main part.

Please refer to fig. 3, wherein: the main part channel comprises fourteen stamping stations, and the fourteen stamping stations are sequentially used for punching, pitting, punching, deburring, riveting accessories, blank leveling, trimming and blanking from left to right.

The stamping station is used for stamping the hardware main part passing through the main part channel to form a hardware main part finished product, and the production work is completed.

Please refer to fig. 3, wherein: nine processing stations are arranged on the two accessory channels, and the nine processing stations are sequentially used for punching, blank forming, blank shaping, blank cutting and riveting from feeding to discharging.

The hardware accessories transmitted on the accessory channel are processed and blanked through nine processing stations to form a hardware accessory finished product, the produced hardware accessory finished product is placed on a hardware main part finished product to be riveted, main accessory hardware can be riveted fast, and the processing efficiency is high.

Please refer to fig. 1 and 4, wherein: the material pulling mechanism 4 comprises a material pulling cylinder 401 fixed on the accessory template 3, the output end of the material pulling cylinder 401 is fixedly connected with a sliding block 402 positioned in the cavity slideway, two pen-type lifting small cylinders 403 are fixedly installed on the sliding block 402, and the output ends of the two pen-type lifting small cylinders 403 are fixedly connected with two pull pins 404 which are inserted in the accessory channel.

When the hardware accessory is fed manually at first to the position of the pull needle 404 above the sliding block 402 during initial production, the pull material cylinder 401 stretches out to drive the sliding block 402 to the position of the guide hole on the front material belt before the sliding block, the pen type lifting small cylinder 403 drives the pull needle 404 to rise into the guide hole, then the pull material cylinder 401 retracts to pull the material belt back to a step distance, the pen type lifting small cylinder 403 retracts to drive the pull needle 404 to retract into the guide hole of the material belt, the punching machine is started to start punching, the action is automatically repeated during automatic production, and the electromagnetic valve is used for controlling the node time of punching and pulling the material, so that an automatic feeding function is achieved.

Please refer to fig. 1 and 4, wherein: the accessory template 3 is provided with four strip-shaped through grooves 5 respectively positioned on the two accessory channels, and the pull pins 404 are inserted into the inner sides of the strip-shaped through grooves 5.

The two strip-shaped through grooves 5 facilitate the guide control of the pull needle 404 which extends out to be punched out through the material belt to carry out feeding work.

Specifically, the main part template 2 and the accessory template 3 are installed on the die holder 1 in a cross mode, the material strips of the hardware main part are placed on the main part channels of the main part template 2, then the material strips of the hardware accessories are manually placed on the two accessory channels of the accessory template 3, the pull pins 404 on the sliding block 402 are utilized to align with the guide holes on the material strips of the hardware accessories, the material strips of the hardware accessories are pulled back to be positioned by the material pulling cylinder 401, the punching machine is started to start punching work until the riveting work of the hardware main part and the hardware accessories on the material strips of the hardware main part is completed, and compared with the traditional continuous die, the feeding processing work of the accessories can be automatically completed, the accessories are riveted on the main part, so that the investment of a punching machine and manpower is reduced, the processing is more convenient and rapid, and the occupied space of equipment is saved.

The above description is only of the preferred embodiments of the present invention; the scope of the invention is not limited in this respect. Any person skilled in the art, within the technical scope of the present disclosure, may apply to the present invention, and the technical solution and the improvement thereof are all covered by the protection scope of the present invention.

Claims (6)

1. The utility model provides an automatic riveting structure in many material areas of progressive die, includes die holder (1), its characterized in that: the top of the die holder (1) is fixedly provided with a main part die plate (2) and an accessory die plate (3) through bolts, and the main part die plate (2) is positioned at the left side and the right side of the accessory die plate (3);

the novel accessory template is characterized in that a main part channel and two accessory channels are respectively arranged on the main part template (2) and the accessory template (3), the main part channel and the two accessory channels are mutually perpendicular to be crossed, two cavity slideways are arranged in the accessory template (3), two material pulling mechanisms (4) are fixedly arranged in the two cavity slideways, and the two material pulling mechanisms (4) are respectively arranged on the two accessory channels.

2. The automatic riveting structure of a progressive die multi-material strip according to claim 1, characterized in that: the main part template (2) comprises a lower supporting plate (201) fixedly installed on a die holder (1), a lower pad leg (202), a lower die holder (203), a lower base plate (204) and a lower template (205) are sequentially installed above the lower supporting plate (201), and a stripper plate (206), a material stopping plate (207), an upper solid plate (208), an upper base plate (209), an upper die holder (210), an upper pad leg (211) and an upper supporting plate (212) are sequentially arranged at the top of the lower template (205).

3. The automatic riveting structure of a progressive die multi-material strip according to claim 1, characterized in that: the main part channel comprises fourteen stamping stations, wherein fourteen stamping stations are sequentially used for punching, twining, punching, embossing, punching, deburring, embossing, riveting accessories, blank, leveling, blank and blanking from left to right.

4. The automatic riveting structure of a progressive die multi-material strip according to claim 1, characterized in that: nine processing stations are arranged on the two accessory channels, and the nine processing stations are sequentially used for punching, blank forming, shaping, blank and riveting cutting from feeding to discharging.

5. The automatic riveting structure of a progressive die multi-material strip according to claim 1, characterized in that: the material pulling mechanism (4) comprises a material pulling cylinder (401) fixed on the accessory template (3), the output end of the material pulling cylinder (401) is fixedly connected with a sliding block (402) positioned in the cavity slideway, two pen-type lifting small cylinders (403) are fixedly installed on the sliding block (402), and the output ends of the two pen-type lifting small cylinders (403) are fixedly connected with two pull pins (404) which are inserted in the accessory channel.

6. The automatic riveting structure for a plurality of continuous die strips according to claim 5, wherein: four strip-shaped through grooves (5) which are respectively positioned on the two accessory channels are formed in the accessory template (3), and the pull pins (404) are inserted into the inner sides of the strip-shaped through grooves (5).

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