CN207681310U - A kind of bi-directional synchronization bending stamper structure - Google Patents

Abstract

The utility model discloses a kind of bi-directional synchronization bending stamper structures, it will includes link supports block to include mainly, synchronising (connecting) rod, right pin, guide rod limited block, spring, guide rod, synchronous punching pin, adjust bar fixed seat, adjust bar, punching pin fixed block, bending punching pin, cavity plate mode, left pin, synchronising (connecting) rod is set above link supports block, right pin is arranged in synchronising (connecting) rod right end, guide rod is set above right pin, right pin passes through in guide rod insertion synchronising (connecting) rod, spring is set below guide rod, guide rod limited block is set below spring, the synchronous punching pin of setting above guide rod, adjustment bar is equipped with above synchronous punching pin, the root of adjustment bar is connected with adjustment bar fixed seat, left pin is arranged in the left end of synchronising (connecting) rod.The utility model ingenious in designly will be got up cavity plate bending mode and the linkage of upper mold bending punching pin using synchronising (connecting) rod, achieve the purpose that Synchronous Bending, the stability of bending will be greatly improved, and compact-sized, it is laid out ingenious, can be applied to various dog leg requirements.

Description

A kind of bi-directional synchronization bending stamper structure

Technical field

The utility model is related to punching mechanisms, and in particular to a kind of bi-directional synchronization bending stamper structure.

Background technology

The dog leg that product is carried out with traditional pressing and bending structure, due to the limitation of structure, cavity plate mode and bending Punching pin tends not to touch product simultaneously, can seriously affect the stability of bending, to reduce the qualification rate of product.

Utility model content

The purpose of the utility model is to overcome the shortcomings of the prior art, and provide a kind of bi-directional synchronization bending punching press Mechanism.

The purpose of this utility model is completed by following technical solution：This bi-directional synchronization bending stamper structure, Mainly fixed including link supports block, synchronising (connecting) rod, right pin, guide rod limited block, spring, guide rod, synchronous punching pin, adjustment bar Seat adjusts bar, punching pin fixed block, bending punching pin, product, cavity plate mode, left pin, and synchronization is provided with above link supports block Connecting rod, synchronising (connecting) rod right end are provided with right pin, and guide rod is provided with above right pin, and right pin passes through guide rod insertion is synchronous to connect In bar, it is provided with spring below guide rod, guide rod limited block is provided with below spring, synchronous punching pin is provided with above guide rod, The top of synchronous punching pin is equipped with adjustment bar, and the root for adjusting bar is connected with adjustment bar fixed seat, and the left end of synchronising (connecting) rod is also set up There is left pin, cavity plate mode is provided with above left pin, left pin passes through in cavity plate mode insertion synchronising (connecting) rod, cavity plate mould Bending punching pin and product are provided with above benevolence, product is in the centre of bending punching pin and cavity plate mode, and bending punching pin top is solid Surely there is punching pin fixed block.

The synchronising (connecting) rod is swung up and down centered on link supports block, is formed using link supports block as the lever knot of fulcrum Structure.

The guide rod passes through spring and guide rod limited block, moves up and down along the inner wall of guide rod limited block.

The adjustment bar fixed seat is fixed in punch die template, as template moves up and down, is realized and punching pin fixed block Move synchronously.

The beneficial effects of the utility model are：

1, the utility model dexterously will be got up cavity plate bending mode and the linkage of upper mold bending punching pin using synchronising (connecting) rod, Achieve the purpose that Synchronous Bending, the stability of bending will be greatly improved.

2, mechanism is compact-sized, and layout is ingenious, can be applied to various dog leg requirements.

Description of the drawings

Fig. 1 is the die opening state structural schematic diagram of the utility model.

Fig. 2 is the molding status architecture schematic diagram of the utility model.

Reference sign：It is link supports block 1, synchronising (connecting) rod 2, right pin 3, guide rod limited block 4, spring 5, guide rod 6, same Walk punching pin 7, adjustment bar fixed seat 8, adjustment bar 9, punching pin fixed block 10, bending punching pin 11, product 12, cavity plate mode 13, left pin Nail 14.

Specific implementation mode

Detailed introduction is done to the utility model below in conjunction with attached drawing：

As shown in Figure 1, this bi-directional synchronization bending stamper structure, includes mainly link supports block 1, synchronising (connecting) rod 2, right pin Nail 3, guide rod limited block 4, spring 5, guide rod 6, synchronous punching pin 7, adjustment bar fixed seat 8, adjustment bar 9, punching pin fixed block 10, bending The top of punching pin 11, product 12, cavity plate mode 13, left pin 14, link supports block 1 is provided with synchronising (connecting) rod 2, synchronising (connecting) rod 2 Right end is provided with right pin 3, and the top of right pin 3 is provided with guide rod 6, and right pin 3 passes through guide rod 6 to be embedded in synchronising (connecting) rod 2, leads 6 lower section of bar is provided with spring 5, and the lower section of spring 5 is provided with guide rod limited block 4, and the top of guide rod 6 is provided with synchronous punching pin 7, together The top for walking punching pin 7 is equipped with adjustment bar 9, and the root of adjustment bar 9 is connected with adjustment bar fixed seat 8, and the left end of synchronising (connecting) rod 2 is also set It is equipped with left pin 14, the top of left pin 14 is provided with cavity plate mode 13, left pin 14 passes through the insertion of cavity plate mode 13 to synchronize In connecting rod 2, the top of cavity plate mode 13 is provided with bending punching pin 11 and product 12, and product 12 is in bending punching pin 11 and cavity plate mould The centre of benevolence 13, bending punching pin 11 are fixedly arranged above punching pin fixed block 10.

The synchronising (connecting) rod 2 is swung up and down centered on link supports block 1, and it is the thick stick of fulcrum to be formed with link supports block 1 Rod structure.

The guide rod 6 passes through spring 5 and guide rod limited block 4, moves up and down along the inner wall of guide rod limited block 4.

The adjustment bar fixed seat 8 is fixed in punch die template, as template moves up and down, is realized and punching pin fixed block 10 move synchronously.

When punch die molds down, under the drive of punch die template, punching pin fixed block 10 and adjustment bar fixed seat 8 simultaneously to Lower movement, and then moved downward simultaneously with synchronous punching pin 7 with bending punching pin 11, touch guide rod 6 in the lower surface of synchronous punching pin 7 Upper surface after, synchronous punching pin 7 pushes guide rod 6 that bending punching pin 11 is followed to synchronize and moves downward.Then, the guide rod 6 moved downward Compressed spring 5 pushes right pin 3 to synchronize and moves downward, and then pushes 2 right end of synchronising (connecting) rod to lower swing, in link supports block 1 Under the action of, the left end of synchronising (connecting) rod 2 syncs up swing, drives left pin 14 to sync up movement, and then push cavity plate mould Benevolence 13, which synchronizes, to be moved upwards, and when bending punching pin 11 and cavity plate mode 13 touch product 12 simultaneously, completes mould assembling action.

When punch die up molds, under the drive of punch die template, punching pin fixed block 10 and adjustment bar fixed seat 8 simultaneously to Upper movement, and then moved upwards simultaneously with synchronous punching pin 7 with bending punching pin 11, under the action of spring 5, guide rod 6 follows synchronization Punching pin 7 syncs up movement, and then pulls right pin 3 to synchronize and move upwards, and the right pin 3 moved upwards pulls synchronising (connecting) rod 2 Right end is swung up, under the action of link supports block 1, the downward synchronous hunting of left end of synchronising (connecting) rod 2, drive left pin 14 to Under move synchronously, and then pull cavity plate mode 13 to synchronize and move downward, at this point, bending punching pin 11 and cavity plate mode 11 will simultaneously from Product 12 is opened, when the upper surface of guide rod 6 is left in the lower surface of synchronous punching pin 7, stop motion is synchronized punching pin by cavity plate mode 13 7 and bending punching pin 11 continue up, until die sinking terminates, wait for next mould assembling action.

It is understood that it will be understood by those skilled in the art that the technical solution of the utility model and utility model structure Think of, which is subject to equivalent substitution or change all, should belong to the protection domain of the utility model the attached claims.

Claims (4)

1. a kind of bi-directional synchronization bending stamper structure, it is characterised in that：Mainly include link supports block (1), synchronising (connecting) rod (2), Right pin (3), guide rod limited block (4), spring (5), guide rod (6), synchronous punching pin (7), adjustment bar fixed seat (8), adjustment bar (9), punching pin fixed block (10), bending punching pin (11), product (12), cavity plate mode (13), left pin (14), link supports block (1) synchronising (connecting) rod (2) is provided with above, synchronising (connecting) rod (2) right end is provided with right pin (3), the top setting of right pin (3) There are guide rod (6), right pin (3) to pass through in the embedded synchronising (connecting) rod (2) of guide rod (6), spring (5), spring are provided with below guide rod (6) (5) it is provided with guide rod limited block (4) below, synchronous punching pin (7), the top of synchronous punching pin (7) are provided with above guide rod (6) Equipped with adjustment bar (9), the root of adjustment bar (9) is connected with adjustment bar fixed seat (8), and the left end of synchronising (connecting) rod (2) is additionally provided with Left pin (14), is provided with cavity plate mode (13) above left pin (14), and left pin (14) passes through cavity plate mode (13) embedding Enter in synchronising (connecting) rod (2), bending punching pin (11) and product (12) are provided with above cavity plate mode (13), product (12) is in folding The centre of curved punching pin (11) and cavity plate mode (13), bending punching pin (11) are fixedly arranged above punching pin fixed block (10).

2. bi-directional synchronization bending stamper structure according to claim 1, it is characterised in that：The synchronising (connecting) rod (2) is with even Bar supporting block is swung up and down centered on (1).

3. bi-directional synchronization bending stamper structure according to claim 1, it is characterised in that：The guide rod (6) passes through spring (5) and guide rod limited block (4) it, moves up and down along the inner wall of guide rod limited block (4).

4. bi-directional synchronization bending stamper structure according to claim 1, it is characterised in that：The adjustment bar fixed seat (8) it is fixed in punch die template, as template moves up and down.