WO2017025030A1

WO2017025030A1 - Combined forging and stamping device

Info

Publication number: WO2017025030A1
Application number: PCT/CN2016/094329
Authority: WO
Inventors: 曹立新; 曹坤; 吴忠太; 李�浩
Original assignee: 曹立新
Priority date: 2015-08-12
Filing date: 2016-08-10
Publication date: 2017-02-16

Abstract

A combined forging and stamping device, comprising: a frame, a slider (10), a master hydraulic cylinder (6) for driving the slider, and a lower lifter hydraulic cylinder (14), the frame having a left electric screw mechanism (2) and a right electric screw mechanism (12) mounted thereon; a left fixing wedge (5) and a right fixing wedge (9) being provided on the slider (10); wedge mold-locking mechanisms being provided on an upper surface of the slider (10) and a lower surface of an upper beam (7), when operating, the slider (10) moving downwards in position, the wedge mold-locking mechanisms locking the slider (10) against a tension generated at the time of forging and stamping; the left electric screw mechanism (2) and the right electric screw mechanism (12) achieving fast extrusion and forging transversely. During the forging and stamping, the slider (10) is locked by means of the wedge mold-locking mechanisms and then forging and stamping is performed from two sides, and thus fast impact-extrusion is achieved by the electric screw mechanisms. By means of clamping mold first and then impact-extruding, it is possible to achieve non-flash forging of the blank, saving raw materials and lowing the cost of the blank.

Description

Combined forging equipment

Technical field

The invention relates to a combined forging press.

Background technique

At present, all the factories use traditional forging equipment. As shown in Figure 1, since only one set of electric screw pressure mechanism A is arranged in the vertical direction, some parts cannot be forged due to the single function in the production process, and processed in the later stage. The high cost makes the production cost of the product increase.

Summary of the invention

The object of the present invention is to provide a combined forging device capable of eliminating blank burrs, material utilization rate of 100%, and forging parts which cannot be forged by conventional equipment, reducing the weight of the blank, reducing the subsequent processing cost, thereby reducing the product. Cost of production.

To this end, the technical solution of the present invention is: a combined forging equipment, including a left column, a right column, an upper beam, a lower beam, a slider, a main hydraulic cylinder, a lower top hydraulic cylinder, a left column, a right column, and an upper The beam and the lower beam form a frame, and the slider is guided on the left column and the right column through the guide pair, the main hydraulic cylinder is mounted on the upper beam, the main hydraulic cylinder drives the slider; the lower top hydraulic cylinder is installed under the lower beam, Features are:

The left electric screw mechanism and the right electric screw mechanism are respectively installed on the left column and the right column; the left electric screw mechanism and the right electric screw mechanism have the same structure, and the specific structure is: the two motors pass the first gear to transmit the power to the flywheel. The power is transmitted to the spiral pair by the flywheel, and the power is transmitted to the slider by the screw pair, thereby realizing the power output;

The upper part of the slider is respectively provided with a left fixed wedge and a right fixed wedge; the lower part of the upper beam is provided with a wedge clamping mechanism, and the wedge clamping mechanism comprises a left wedge clamping mechanism and a right wedge clamping mechanism, left The wedge clamping mechanism consists of a small hydraulic cylinder on the left side and a left movable wedge. The left small hydraulic cylinder drives the left movable wedge. The right wedge clamping mechanism consists of a right small hydraulic cylinder and a right movable wedge. The small hydraulic cylinder drives the right movable wedge; the upper end surface of the left movable wedge and the upper end surface of the right movable wedge respectively slidably cooperate with the lower end surface of the upper beam;

When in use, the slider is moved down into position, the wedge clamping mechanism locks the slider to overcome the tension generated during forging; the left electric screw mechanism and the right electric screw mechanism realize rapid extrusion forging in the lateral direction.

The lower top hydraulic cylinder can adjust the tilt angle according to different products.

Advantageous Effects: The present invention is a combined forging press device, which locks a slider by a wedge clamping mechanism during forging, and then forges from two side directions, and uses an electric screw mechanism to achieve rapid punching, thereby realizing durability of the punch and avoiding hydraulic pressure. The low speed of the punch solves the low life of the punch; the clamping mechanism of the wedge solves the problem that the upper and lower molds are filled with the blank when the punch is working. The mold opening force is too large, and the general power pressing mechanism can not overcome the huge mold opening force; the first mold clamping and the punching can solve the blank free forging of the blank, saving the raw material to realize the low cost of the forging blank; For forging, multiple equipments can be processed at the same time, which can solve the problems that can not be solved by conventional forging (such as blanks with ear-hole parts), which can reduce the weight of the blank, save material and reduce the processing amount at the same time. At the same time, the equipment has a small tonnage and low investment, which will revolutionize the forging industry.

DRAWINGS

Figure 1 is a conventional single screw mechanism forging equipment.

Figure 2 is a front elevational view of a combined forging apparatus of the present invention.

Figure 3 is a right side elevational view of a combined forging apparatus of the present invention.

The figure shows: 1 is the left column; 2 is the left electric screw mechanism; 3 is the left small hydraulic cylinder; 4 is the left movable wedge; 5 is the left fixed wedge; 6 is the main hydraulic cylinder; 7 is the upper beam; 8 is the right movable wedge; 9 is the right fixed wedge; 10 is the slider; 11 is the right small hydraulic cylinder; 12 is the right electric screw mechanism; 13 is the right column; 14 is the lower top hydraulic cylinder; 15 is the lower Beam; 16 is the left extruded mandrel on the mold; 17 is the right extruded mandrel on the mold; 1201 is the spiral pair; 1202 is the slider; 1203 is the flywheel; 1204 is the motor; 1205 is the first gear.

detailed description

The utility model is further described as follows with the combined forging equipment shown in FIG. 2: a combined forging equipment, including a left column 1, a right column 13, an upper beam 7, a lower beam 15, a slider 10, and a main hydraulic cylinder 6 The lower top hydraulic cylinder 14, the left vertical column 1, the right vertical column 13, the upper beam 7, and the lower beam 15 constitute a frame, and the slider 10 is guided on the left vertical column 1 and the right vertical column 13 by the guide pair, and the main hydraulic cylinder 6 is installed at On the upper beam 7, the main hydraulic cylinder 6 drives the slider 10; the lower top hydraulic cylinder 14 is mounted under the lower beam, and the left and right columns are respectively mounted with a left electric screw mechanism 2 and a right electric screw mechanism 12;

The upper side of the slider is respectively provided with a left fixed wedge 5 and a right fixed wedge 9; a lower side of the upper beam is provided with a wedge clamping mechanism, and the wedge clamping mechanism comprises a left wedge clamping mechanism and a right wedge clamping mechanism The left wedge clamping mechanism is composed of a left small hydraulic cylinder 3 and a left movable wedge 4, and the left small hydraulic cylinder 3 drives the left movable wedge 4; the right wedge clamping mechanism is composed of a right small hydraulic cylinder 11 and a right The movable wedge 8 is composed, and the right small hydraulic cylinder 11 drives the right movable wedge 8; the upper end surface of the left movable wedge 4 and the upper end surface of the right movable wedge 8 are respectively slidably engaged with the lower end surface of the upper beam 7;

When in use, the slider 10 is moved down into position, and the wedge clamping mechanism locks the slider to overcome the tension generated during forging; the left electric screw mechanism and the right electric screw mechanism realize rapid extrusion forging in the lateral direction.

As shown in FIG. 2 and FIG. 3, in the present invention, the structure of the left electric screw mechanism and the right electric screw mechanism is the same, and the structure of the right electric screw mechanism is: the two motors 1204 transmit power to the flywheel through the first gear 1205. 1203, by fly The wheel 1203 transmits the power to the screw pair 1201, and the screw pair 1201 transmits the power to the slider 1202, thereby realizing the power output of the electric screw mechanism.

The working principle of the combined forging equipment: the main hydraulic cylinder pushes the slider to clamp the mold, and then the wedge clamping mechanism (the left small hydraulic cylinder pushes the left movable wedge, and the right small hydraulic cylinder pushes the right movable wedge to The slider is clamped between the upper beam and the upper beam to overcome the huge mold opening force generated during the forging. At this time, the left electric screw mechanism and the right electric screw mechanism respectively drive the left extruded mandrel of the die and the right extruded mandrel from the two. Quick extrusion on the side, press the blank into the mold cavity and fill it, then the left electric screw mechanism reverses to drive the left extrusion mandrel, the right electric screw mechanism reverses to drive the right extrusion mandrel to reset, and the wedge clamping mechanism returns Then, the main cylinder drives the slider to return to the position. For the case where the top material is needed, the blank is finally ejected by the lower top material hydraulic cylinder.

Advantages of this equipment: It can be forged without flash because it is squeezed after clamping.

In the present invention, the structures of the left electric screw mechanism and the right electric screw mechanism are prior art, and there are two cases:

The first type may be a screw transmission part of a direct drive type electric screw press, comprising a motor, a flywheel directly driven by the motor, a screw on the flywheel, and a slider driven by the screw through the screw pair;

The second type may be a screw transmission part of the electric screw press transmitted through the first gear, comprising a plurality of motors, wherein the transmission shaft is fixed with a transmission gear, and the transmission gear meshes with the edge of the flywheel to realize power transmission; Fixedly connected to the flywheel, the slider driven by the screw through the screw pair.

Claims

A combined forging equipment comprises a left column, a right column, an upper beam, a lower beam, a slider, a main hydraulic cylinder, a lower top hydraulic cylinder, a left column, a right column, an upper beam and a lower beam to form a frame, and a slider The guide cylinder is guided on the left column and the right column, the main hydraulic cylinder is mounted on the upper beam, and the main hydraulic cylinder drives the slider; the lower top hydraulic cylinder is installed under the lower beam, and is characterized by:

The left electric screw mechanism and the right electric screw mechanism are respectively installed on the left column and the right column; the left electric screw mechanism and the right electric screw mechanism have the same structure, and the specific structure is: the two motors pass the first gear to transmit the power to the flywheel. The power is transmitted to the spiral pair by the flywheel, and the power is transmitted to the slider by the screw pair, thereby realizing the power output;

The upper part of the slider is respectively provided with a left fixed wedge and a right fixed wedge; the lower part of the upper beam is provided with a wedge clamping mechanism, and the wedge clamping mechanism comprises a left wedge clamping mechanism and a right wedge clamping mechanism, left The wedge clamping mechanism consists of a small hydraulic cylinder on the left side and a left movable wedge. The left small hydraulic cylinder drives the left movable wedge. The right wedge clamping mechanism consists of a small hydraulic cylinder on the right side and a right movable wedge. The small hydraulic cylinder drives the right movable wedge; the upper end surface of the left movable wedge and the upper end surface of the right movable wedge respectively slidably cooperate with the lower end surface of the upper beam;

When in use, the slider is moved down into position, the wedge clamping mechanism locks the slider to overcome the tension generated during forging; the left electric screw mechanism and the right electric screw mechanism realize rapid extrusion forging in the lateral direction.