CN2843651Y - Composite oblique wedging mechanism and punch mould therewith - Google Patents

Abstract

The utility model provides composite oblique wedging mechanism which comprises an upper mould holder, a lower mould holder, a master oblique wedging mechanism, an auxiliary oblique wedging mechanism, a concave mould and a male mould matched with the concave mould, wherein the concave mould is fixed on the auxiliary oblique wedging mechanism, the male mould is fixed on the master oblique wedging mechanism and the direction of motion of the concave mould is the oblique direction. By the adoption of the composite oblique wedging mechanism of the utility model, the direction of motion of the concave mould is the oblique direction, the concave mould can be conveniently separated from a making component without interference after the flanging of the making component is completed according to the shape of the making component and the shape of the flanging. In addition, the utility model also provides a punch mould for using the composite oblique wedging mechanism.

Description

Primary and secondary Wedge mechanism and comprise the diel of this mechanism

Technical field

The utility model relates to mould applications, relates in particular to a kind of primary and secondary Wedge mechanism, and the diel that comprises this primary and secondary Wedge mechanism.

Background technology

Existing primary and secondary Wedge mechanism generally is a level.The primary and secondary Wedge mechanism of this level can't use in some cases, when for example the flange angle is negative angle in flanging process, primary and secondary wedge that just can't usage level because flange finish after product can encase die, die can't be separated with product.

The utility model content

Therefore, the purpose of this utility model provides a kind of primary and secondary Wedge mechanism, and it can be applicable to the incompetent situation of horizontal primary and secondary Wedge mechanism.

This primary and secondary Wedge mechanism comprises upper bolster and die shoe, and, this primary and secondary Wedge mechanism also comprise female Wedge mechanism, sub-Wedge mechanism, die and and the punch that cooperates of die, wherein die is fixed on the sub-Wedge mechanism, punch is fixed on female Wedge mechanism, and by the structure of sub-Wedge mechanism, the direction of motion of die is incline direction.

In addition, this utility model also provides a kind of diel with above-mentioned primary and secondary Wedge mechanism.

Adopt primary and secondary Wedge mechanism of the present utility model, because the direction of motion of die is incline direction, thus can be according to the shape of product and the shape of flange, can be easily after the product flange is finished die be separated and can not disturb from product.Therefore, primary and secondary Wedge mechanism range of application provided by the utility model is more extensive, and easy to use.

In addition, the diel with this primary and secondary Wedge mechanism has equally and has wide range of applications and advantage such as easy to use.

Description of drawings

Fig. 1 carries out the flange state diagram of primary and secondary Wedge mechanism before to product;

Fig. 2 is the state diagram of product being carried out primary and secondary Wedge mechanism in the turn-up process; And

Fig. 3 carries out the flange state diagram of primary and secondary Wedge mechanism afterwards to product.

The specific embodiment

Referring to figs. 1 through Fig. 3, primary and secondary Wedge mechanism of the present utility model comprises upper bolster 7 and die shoe 9, it is characterized in that, this primary and secondary Wedge mechanism also comprise female Wedge mechanism 4, sub-Wedge mechanism 8, die 2 and and the punch 3 that cooperates of die 2, wherein die 2 is fixed on the sub-Wedge mechanism 8, punch 3 is fixed on female Wedge mechanism 4, and the driving by sub-Wedge mechanism 8, and the direction of motion of die 2 is incline direction.

Preferably, sub-Wedge mechanism 8 comprises wedge block 10, be fixed on the driven slide plate 6 on the wedge block 10, be fixed on the driving slide plate 6 ' that matches with driven slide plate 6 on the upper bolster 7, wherein said wedge block 10 is installed on the die shoe on 9 and with respect to the horizontal plane slides on die shoe 9 with angle [alpha].That is to say, by the interaction between wedge guide plate 6 and 6 ', moving both vertically up and down of upper bolster 7 is converted into the horizontal movement of wedge block 10, and because wedge block 10 is installed on the die shoe 9 so that tiltedly slide in die shoe 9 updips with the α that with respect to the horizontal plane has a certain degree, so, make wedge block 10 and the executive component such as the die that are installed on the wedge block 10 slide on die shoe 9 with angle [alpha] finally by the moving both vertically up and down of upper bolster 7.Wherein, described angle [alpha] is: 0 °＜α＜90 °, preferably, angle [alpha] is: 3 °＜α＜15 °

Wherein, die shoe 9 generally maintains static, and upper bolster 7 can move both vertically up and down.Part in female Wedge mechanism 4 is fixed on the upper bolster 9, can move by moving up and down of upper bolster 9.The part of sub-Wedge mechanism 8 (being illustrated driving slide plate 6 ') also is fixed on the upper bolster 9, can move by moving up and down of upper bolster 9.Punch 2 is fixed on the sub-Wedge mechanism 8, can be by the driving of sub-Wedge mechanism banking motion, product is processed processing, as flange, shaping, side cut, punching etc.Die 3 is fixed on female Wedge mechanism 4, can be by the driving of female Wedge mechanism banking motion arrive the Working position of product, handle with punch 2 processing of finishing product that cooperatively interacts.Wedge mechanism herein comprises female Wedge mechanism and sub-Wedge mechanism, all can adopt existing Wedge mechanism, generally comprises drive block, Slave Block and return spring.

Mode by embodiment describes the course of work of primary and secondary Wedge mechanism of the present utility model with reference to the accompanying drawings.Wherein in this embodiment, expression is that product is carried out the flange operation.But should be appreciated that this primary and secondary Wedge mechanism is not limited to flanging process, also be fit to for example punching, side cut, shaping or the like for other Sheet Metal Forming Technologies.

Fig. 1 carries out the flange state diagram of primary and secondary Wedge mechanism before to product.Before product 1 is handled, at first product 1 is placed in the mould, this moment, upper bolster 7 was positioned at the top, female Wedge mechanism 4 and sub-Wedge mechanism 8 all are in separated position and do not interact, that is to say, still do not work in coordination between drive block in the Wedge mechanism and the Slave Block or between the slide plate.

Fig. 2 is the state diagram of product being carried out primary and secondary Wedge mechanism in the turn-up process.Wherein, along with the descending motion of upper bolster 7, move downward simultaneously with Slave Block in female Wedge mechanism 4 that upper bolster 7 is fixed together and the Slave Block in the sub-Wedge mechanism 8 (driving slide plate 6 ') so that match with separately drive block or slide plate.As can be seen from Figure 2, punch 3 begins to do banking motion under the effect of female Wedge mechanism 4, and die 2 also begins to do banking motion under the effect of sub-Wedge mechanism 8 simultaneously, and the position is just fixing after moving to a certain degree.Thus, by the interaction between die 2 and the punch 3, product 1 is carried out flange handle.

Fig. 3 carries out the flange state diagram of primary and secondary Wedge mechanism afterwards to product.As shown in Figure 3, by the interaction between die 2 and the punch 3, finished the flange of product 1 has been handled.Wherein, the flange of product 1 encases the moulding section of die 2.Therefore, if the primary and secondary Wedge mechanism of usage level, then die 2 can't withdraw from from product 1.Therefore, adopt primary and secondary Wedge mechanism of the present utility model, die 2 can be selected suitable angle according to the shape of product 1, and for example 5 degree are to 15 degree, withdraws from from product 1 under the effect of return spring 5 and can any interference not take place with product 1.

Above with reference to accompanying drawing 1 to 3, example by flange is illustrated the duty of primary and secondary Wedge mechanism of the present utility model, but should be appreciated that this primary and secondary Wedge mechanism can be applied to various Sheet Metal Forming Technologies, as long as correspondingly change the kind of die and punch.

In addition, the utility model also provides a kind of diel with above-mentioned primary and secondary Wedge mechanism, for example flanging die, punching die, shaving die or assembling die or the like.

Claims (5)

1, a kind of primary and secondary Wedge mechanism, comprise upper bolster (7) and die shoe (9), it is characterized in that, this primary and secondary Wedge mechanism also comprise female Wedge mechanism (4), sub-Wedge mechanism (8), die (2) and and the punch (3) that cooperates of die (2), wherein die (2) is fixed on the sub-Wedge mechanism (8), punch (3) is fixed on female Wedge mechanism (4), and the driving by sub-Wedge mechanism (8), and the direction of motion of die (2) is incline direction.

2, primary and secondary Wedge mechanism according to claim 1, it is characterized in that, sub-Wedge mechanism (8) comprises wedge block (10), be fixed on the driven slide plate (6) on the wedge block (10), be fixed on the driving slide plate (6 ') that matches with driven slide plate (6) on the upper bolster (7), wherein said wedge block (10) is installed on the die shoe (9) and with respect to the horizontal plane goes up at die shoe (9) with angle [alpha] and slide.

3, primary and secondary Wedge mechanism according to claim 2 is characterized in that, described angle [alpha] is: 0 °＜α＜90 °.

4, primary and secondary Wedge mechanism according to claim 3 is characterized in that, described angle [alpha] is: 3 °＜α＜15 °.

5, a kind of diel is characterized in that, this diel comprises the described primary and secondary Wedge mechanism of claim 1.