CN201603812U - A compound forming mold - Google Patents

Abstract

The utility model relates to a compound forming die, which belongs to the plastic forming die of metal materials, and is used for forward and reverse drawing forming of metal plates with large thickness differences. It solves the problems of complex structure, harsh forming conditions, high cost of processing, assembling and debugging of the die itself, low processing efficiency of parts and single shape of formable parts in the existing sheet metal stamping composite forming die. The utility model comprises a convex and concave die, a convex and concave die fixing plate, an upper mold plate of the inner slider, a blank holder ring, an upper mold plate of the outer slider, a movable concave mold, a spring sleeve, a limit spring, a fixed concave mold, a lower convex mold, and a positioning ring. and the lower formwork; the upper formwork and the lower formwork of the outer slider are connected through four guide posts and guide sleeves, and the guide posts and guide sleeves are slidably matched. The utility model effectively reduces the cost of mold manufacturing, has simple structure, convenient assembly and disassembly, low processing cost, and high efficiency of formed products. Deep drawing to obtain double-layer cylindrical structural parts.

Description

A compound forming mold

technical field

The utility model belongs to a metal material plastic forming die, in particular to a composite forming die, which is used for forward and reverse drawing and forming of metal plates with large thickness differences.

Background technique

At present, many cavity parts with large surface area and wall thickness difference, such as housing parts of electronic products, hollow tooth parts and complex disc parts of automobile drive parts, etc., are usually processed by integral casting; Or the processing method of cutting after warm/hot forging; or the thin-walled part and the thicker part are manufactured by multi-process methods such as welding combination and heat treatment. In this way, not only the overall performance is reduced, but also the cost and energy consumption are high, and there are many processes, resulting in low efficiency, which does not conform to the social development trend of energy saving and green manufacturing.

Patent No. 200520008072.7 "composite mold" utility model patent includes an outer mold and an inner mold, wherein the outer mold is composed of a plane outer mold and a curved outer mold, the outer mold is a hard mold, the inner mold is a soft mold, and the inner mold is attached to the outer mold On the inner wall of the plane outer mold and the curved surface outer mold, a rope is arranged between the inner mold and the outer mold, one end of the rope is fixed with the inner mold, the other end of the rope is fixed with the outer mold, and the outer wall of the outer mold is set With brackets, the mold can only be used to manufacture products using resin as raw material. Patent No. 200810162354.0 "Hot Forging Composite Die Manufacturing Method and Hot Forging Composite Die" invention patent belongs to metal volume forming in hot state, using the insert structure of the outer mold to wrap the inner mold to prevent cracking of the inner mold and improve the service life of the mold. The mold is only used for the protection of forging molds under high temperature conditions; the invention patent of "a composite mold for secondary drawing" with patent number 200810015725.2 has four actions: blanking, primary forward drawing, secondary forward drawing, and material cutting It is completed with a set of molds, which solves the problem that traditional aluminum bottle caps need to be drawn many times. The mold can only form small-sized (such as wine bottle caps) and shallow-depth rotary metal parts; the invention patent of "flange punching double-action composite mold" with patent number 200810147633. The hole process is compounded into a set of molds to realize the one-time forming of flanging and punching; due to the use of more guide rail mechanisms, the mold has complex assembly and debugging problems, and can only complete the flanging and punching process. Patent No. 200720112167.2 "floating mold structure" utility model patent adopts a double-action punch structure. The spring device first pushes the outer upper mold to press down, and then the base pushes the outer upper mold and the inner upper mold to press down simultaneously. The compaction molding of powder materials solves the problem of uneven density distribution of powder material compaction molding; the mold essentially divides the original integral punch into two parts, and uses springs to realize successive movements, and is only used for compaction molding of powder materials .

Contents of the invention

The utility model provides a compound forming die, which solves the problem of complex structure of the existing sheet metal stamping compound forming die (normal and reverse drawing usually requires several sets of dies to complete), harsh forming conditions, high cost of processing, assembling and debugging of the die itself, Low processing efficiency of parts and single shape of formable parts.

A composite forming die of the present utility model comprises a convex and concave mold, a convex and concave mold fixing plate, an inner slider upper template, a blank holder ring, an outer slider upper template, a movable concave mold, a spring sleeve, a limit spring, and a fixed concave mold. , the lower punch, the positioning ring and the lower template; the upper template and the lower template of the outer slider are connected by four guide posts and guide sleeves, and the guide posts and guide sleeves are slidingly fitted; it is characterized in that:

The convex and concave molds are cylindrical, and are connected with the convex and concave mold fixing plates by screws, and the convex and concave mold fixing plates are connected with the upper template of the inner slider by screws; the blank holder is set on the convex and concave molds, and connected with the upper template of the outer slider by screws;

When working, the upper template of the inner slider is connected with the inner slider of the press through screws, and the upper template of the outer slider is connected with the outer slider of the press through screws;

The fixed die is located on the lower template, coaxial with the punch and die, the fixed die is cylindrical, and its inner hole diameter is the same as that of the punch and die; the positioning ring is located at the center step hole of the lower template and the fixed die Position the fixed die in the step hole at the bottom of the mold; the lower punch is located in the space formed by the central step hole of the lower template, the inner hole of the fixed die and the inner hole of the punch and die; the spring sleeve is sleeved outside the fixed die and fixed by screws On the lower template, there are evenly distributed limit springs inside the spring sleeve; the movable die is located in the spring sleeve, and is set outside the convex and concave dies and the fixed die. The movable die is cylindrical, and the bottom end of the die is The wall has an annular groove, and the limit spring is embedded in the annular groove;

Evenly distributed pressure plates are set on the upper edge of the spring sleeve to limit the movable die;

When working, the lower formwork is connected with the press table through screws, and the connecting rod of the lower punch and the press is connected through threads.

The utility model adopts a movable die and a limit spring structure, which can realize forward and reverse compound deep drawing, and, in the reverse deep drawing process for the purpose of obtaining the inner cylindrical structure, through the edge-holding part The downward movement of the outer tube wall can make the metal of the outer tube wall flow into the inner layer actively, that is to say, realize reverse strong drawing, which can greatly improve the forming ability of the inner tube wall. Due to the use of the limit spring structure, the common movable die, spring sleeve and other devices can be used for forward and reverse strong drawing, which effectively reduces the cost of mold manufacturing. The structure is simple, easy to assemble and disassemble, and the processing cost is low. The forming product has high efficiency and is installed on an ordinary double-action drawing press, which can realize the forward and reverse drawing forming of a plate blank with a certain diameter and thickness difference, and obtain double-layer cylindrical structural parts.

Description of drawings

Fig. 1 is the utility model mold main structure schematic diagram;

Fig. 2 is a schematic diagram of installation of the utility model on a double-action forming press.

Detailed ways

As shown in Fig. 1 and Fig. 2, a kind of composite forming mold of the present utility model comprises convex and concave mold 7, convex and concave mold fixing plate 5, inner slider upper template 3, blank holder ring 8, outer slider upper template 10, can The movable die 11, the spring sleeve 14, the limit spring 15, the fixed die 16, the lower punch 18, the positioning ring 19 and the lower template 20; Connection, guide post and guide sleeve sliding fit; characterized by:

The convex and concave mold 7 is cylindrical, and is connected with the convex and concave mold fixing plate 5 by screws, and the convex and concave mold fixing plate 5 is connected with the upper template 3 of the inner slider by screws; Template 10 is connected by screws;

When working, the inner slider upper template 3 is connected with the press inner slider 4 through screws, and the outer slider upper template 10 is connected with the press outer slider 1 through screws;

The fixed die 16 is located on the lower template 20, coaxial with the punch and die 7, the fixed die 16 is cylindrical, and its inner hole diameter is the same as that of the punch and die 7; the positioning ring 19 is located at the center of the lower template 20 Position the fixed die in the step hole and the bottom step hole of the fixed die; the lower punch 18 is located in the space formed by the central step hole of the lower template 20, the inner hole of the fixed die and the inner hole of the punch and die; 14 sets of spring sleeves Outside the fixed die 16 and fixed on the lower template 20 by screws, there are 8 evenly distributed limit springs 15 inside the spring sleeve 14; In addition to the die 16, the movable die 11 is cylindrical, and the bottom wall of the die has an annular groove, and the limit spring 15 is embedded in the annular groove;

10 pressure plates 12 evenly distributed are arranged on the upper edge of the spring sleeve 14 to limit the position of the movable die 11;

During work, the lower template 20 is connected with the press workbench 21 by screws, and the lower punch 18 and the connecting rod 17 of the press are connected by threads.

The working process of the present utility model is:

The first step: forward drawing process, when the punch and die 7 and the movable die 11 are separated, the blank holder 8 is at the upper limit position, the lower punch 18 is at the lower limit position, and the plate blank is placed on the movable die 11 On the limit step of the inner hole of the upper end face, firstly, the outer slider 1 of the double-acting hydraulic press moves downward through the upper template 10 of the outer slider to push the blank holder 8 down, so that the blank is pressed tightly on the movable die 11, and then the double-acting hydraulic press The inner slider 4 descends to drive the punch and die 7 to descend to complete the forward drawing;

Step 2: Reverse powerful deep drawing process, followed by the previous forward deep drawing, the double-acting hydraulic press ejects the cylinder upward, pushes the lower punch 18 upward through the connecting rod 17, and at the same time, the outer slider 1 continues downward to press the movable concave The die 11 moves downward, and the two work together to complete the reverse strong drawing of the blank to obtain a double-layer cylindrical part. Then the inner slider 4 and the outer slider 1 return to the upper limit position in turn, and finally the ejector cylinder goes up again. The connecting rod 17 pushes the lower punch 18 to go up, and the double-layer cylinder is ejected; so far it is a complete working cycle.

Claims (1)

1. composite forming die comprises punch-die (7), punch-die fixed head (5), inner slide cope match-plate pattern (3), blank holder (8), outer slide cope match-plate pattern (10), movable die (11), spring housing (14), limit spring (15), fixedly die (16), lower punch (18), centring ring (19) and lower bolster (20); Described outer slide cope match-plate pattern (10) is connected by four guide pillar guide pin bushings (22) with lower bolster (20), and guide pillars and bushes is slidingly matched; It is characterized in that:

Described punch-die (7) is a cylindrical shape, is connected by screw with punch-die fixed head (5), and punch-die fixed head (5) is connected by screw with inner slide cope match-plate pattern (3); Blank holder (8) is enclosed within on the punch-die (7), is connected by screw with outer slide cope match-plate pattern (10);

During work, described inner slide cope match-plate pattern (3) is connected with forcing press inner slide (4) by screw, and outer slide cope match-plate pattern (10) is connected with forcing press outer slide (1) by screw;

Described fixedly die (16) is positioned on the lower bolster (20), and is coaxial with described punch-die (7), and fixedly die (16) is a cylindrical shape, and its endoporus aperture is identical with described punch-die (7) aperture; Centring ring (19) is positioned at the central stepped of lower bolster (20) and fixing die bottom stepped hole, fixedly the die location; Lower punch (18) is positioned at the central stepped of lower bolster (20), the fixing space that constitutes of die endoporus and punch-die endoporus; It is outer and be fixed on the lower bolster (20) by screw that spring housing (14) is placed in fixedly die (16), and spring housing (14) inside is placed with equally distributed limit spring (15); Movable die (11) is positioned at spring housing (14), is placed in punch-die (7) and fixedly outside the die (16), movable die (11) is a cylindrical shape, and its bottom barrel has annular groove, limit spring (15) embedding annular groove;

Spring housing (14) top edge is provided with equally distributed pressing plate (12), and is spacing to movable die (11);

During work, lower bolster (20) is connected with press bench (21) by screw, and the connecting rod (17) of lower punch (18) and forcing press is by being threaded.

Images