阅读说明：本技术 一种大型三通高效自动化模锻装置及其模锻方法 (Large three-way efficient automatic die forging device and die forging method thereof ) 是由 陈慧 周建华 任杰 胡红蕾 刘加亮 刘越 于 2020-05-25 设计创作，主要内容包括：本发明公开了一种大型三通高效自动化模锻装置及其模锻方法,其技术方案要点是：一种大型三通高效自动化模锻装置,包括底座,还包括四辆可相对移动的下模具小车、与四辆下模具小车连接的上模具；底座包括四个分别与下模具小车对应的支撑轨道、位于底座正中间的立柱；四个下模具小车均包括下模具主体、主型腔、两个分支型腔、两个堵板、开设于下模具主体下端面的滑槽、轮子、动力装置；上模具底部设有与四个下模具小车的主型腔、分支型腔相对应的模具型腔。本发明通过可以根据预设轨道进行移动的下模具小车,自动将高温金属原材料从加热炉快速移动到模锻地点,能一次成型多个大型Y型三通产品,生产效率高,具有更高的安全性。(The invention discloses a large three-way efficient automatic die forging device and a die forging method thereof, and the technical scheme is as follows: a large three-way efficient automatic die forging device comprises a base, four relatively movable lower die trolleys and an upper die connected with the four lower die trolleys; the base comprises four supporting rails respectively corresponding to the lower die trolley and an upright post positioned in the middle of the base; each of the four lower die trolleys comprises a lower die main body, a main cavity, two branch cavities, two blocking plates, a sliding chute arranged on the lower end surface of the lower die main body, wheels and a power device; the bottom of the upper die is provided with die cavities corresponding to the main cavities and the branch cavities of the four lower die trolleys. According to the invention, the lower die trolley capable of moving according to the preset track automatically and quickly moves the high-temperature metal raw material from the heating furnace to the die forging place, so that a plurality of large Y-shaped tee products can be formed at one time, the production efficiency is high, and the safety is higher.)

1. The utility model provides a high-efficient automatic die forging device of large-scale tee bend, includes base (100), its characterized in that: the mould is characterized by also comprising four relatively movable lower mould trolleys (200) and an upper mould (600) connected with the four lower mould trolleys (200);

the base (100) comprises four supporting rails (101) which correspond to the lower die trolley (200) respectively and are arranged in a cross shape, and an upright post (110) positioned in the middle of the base (100), wherein the upright post (110) is arranged in a square column shape, and the end surface of the lower die trolley (200) can abut against the side wall of the upright post (110);

the four lower die trolleys (200) respectively comprise a lower die main body (201), a main cavity (202) arranged on the upper end face of the lower die main body (201), two branch cavities (203) arranged on the lower die main body (201) and communicated with the main cavity (202), two blocking plates (205) which are respectively arranged on the lower die main body (201) and block one ends of the branch cavities (203) departing from the main cavity (202), sliding chutes (217) arranged on the lower end face of the lower die main body (201) and corresponding to the supporting rails (101), wheels (209) and a power device (213), the end face of the lower die main body (201) facing the upright columns (110) is set as a stop surface (207), and the stop surface (207) is provided with an electromagnetic sensor (208);

the bottom of the upper die (600) is provided with die cavities corresponding to the main cavities (202) and the branch cavities (203) of the four lower die trolleys (200), the top of the upper die (600) is provided with four pressing planes (601), the center of the upper die (600) is provided with a through hole (605) for the upright post (110) to pass through, and the blocking plate (205) can divide the die cavities into four cavities corresponding to the main cavities (202) and the branch cavities (203) of the lower die trolleys (200).

2. The large-scale three-way efficient automatic die forging device according to claim 1, wherein: four square grooves (111) which are respectively penetrated by corresponding electromagnetic sensors (208) are formed in the side wall of the upright post (110).

3. The large-scale three-way efficient automatic die forging device according to claim 1, wherein: the upper surface of the upright post (110) is flush with the upper surface of the upper die (600).

4. The large-scale three-way efficient automatic die forging device according to claim 1, wherein: thin strip-shaped grooves are formed in the upper surface of the supporting track (101) respectively, a lead (105) is buried in the thin strip-shaped grooves, the lead (105) is connected with an extension line (1051), and the extension line (1051) is arranged on the ground.

5. The large-scale three-way efficient automatic die forging device according to claim 4, wherein: the extension lines (1051) are arranged along the moving direction of the lower die trolley (200).

6. The die forging method of the large three-way efficient automatic die forging device is characterized by comprising the following steps of: the method comprises the following steps: step 1, four lower die trolleys (200) are respectively moved to the positions near a heating furnace along corresponding routes; heating a cylindrical metal blank material to be extruded to 1200 ℃ in a heating furnace, clamping and taking out the cylindrical metal blank material by a clamp, and placing the cylindrical metal blank material into a main cavity (202) of a corresponding lower die trolley (200);

step 2, transportation, the extension line (1051) and the lead (105) are electrified, a magnetic field is generated around the lead (105) and the extension line (1051), the electromagnetic sensor (208) detects a magnetic signal and transmits the signal to an upper computer, the upper computer controls a braking force device (213) to work and drives a wheel (209) to rotate, the lower mold trolley (200) obtains power, the power device (213) drives the wheel (209) to perform turning at a differential speed, the wheel continuously moves forwards according to a magnetic path track detected by the electromagnetic sensor (208), finally the wheel moves in front of a supporting track (101), the wheel continuously moves, a sliding groove (217) and the supporting track (101) relatively move until a stop surface (207) contacts the side surface of the upright post (110), the electromagnetic sensor (208) enters a square groove (111) to indicate that a preset position is reached, and the lower mold trolley (200) stops moving, simultaneously carrying the heated metal blank material to a preset position;

step 3, closing the dies, namely covering the upper die (600) on the four lower die trolleys (200), and enabling the upright posts (110) to penetrate through the through holes (605), so that the upper die (600) is matched with the four lower die trolleys (200), and the upper die (600) and the four lower die trolleys (200) are combined into four complete Y-shaped three-way die cavities;

step 4, compacting and extruding, wherein four compacting planes (601) are compacted through an external compacting device, under the action of a supporting track (101), other parts such as wheels (209) of a lower die trolley (200) are prevented from being damaged, then four external presses work simultaneously, a push plate and a punch of each press are stretched into four main cavities (202), and contact with a cylindrical high-temperature metal material to be continuously extruded to deform the cylindrical high-temperature metal material, the material continuously flows to a branch cavity (203) to fill the space of the branch cavity (203) until the push plate/punch is forwards pushed to a preset position, the main cavity (202) and the branch cavity (203) are filled with the extruded metal material, and the pushing is stopped;

and 5, after the metal is cooled, withdrawing a push plate and a punch of the press to the outside of the die, removing a pressing device at the top of the upper die (600), removing the upper die (600), taking out the four extruded Y-shaped tee joints, transferring the Y-shaped tee joints to a machining area for further machining operations such as drilling, reaming, finishing and the like, and finally completely forming the product.

Technical Field

The invention relates to the field of die forging of large-scale tee joints, in particular to a high-efficiency automatic die forging device for large-scale tee joints and a die forging method thereof.

Background

The large Y-tee is one of the most important core components in the current thermal power generation and nuclear power generation systems, and its functions are used for transferring and shunting high-temperature and high-pressure steam, etc. With the continuous development of the power generation industry in China, the demand of large-scale tee joints is larger and larger, the requirements on the tee joints are high, and besides excellent performance is guaranteed, the requirements on the processing period, the production cost and the like are also high.

The current large Y-shaped three-way products mainly comprise two production modes of free forging and die forging. The free forging is generally performed by using a large hydraulic press, drilling holes in combination with machining, trimming and finally forming. The die forging method is generally manufactured by using a die having a "Y" shaped cavity, and then drilling, trimming, etc. are performed by machining.

When the integral Y-shaped tee joint is forged in a free forging mode, the material utilization rate is low, the material is greatly wasted, the production cost is improved, the production period is long, and the method is not suitable for mass production.

When the die forging mode is adopted to forge the integral Y-shaped tee joint, a special die is generally needed, each die can forge 1 tee joint every time, and the efficiency is relatively low. In addition, the metal raw material heated to about 1200 ℃ is moved from the heating furnace to the die forging die, the distance is usually large, a special lifting tool is needed, and once the metal raw material falls off in the process, the loss is huge and the danger is high.

Therefore, there is a need for an improved solution to overcome the above-mentioned drawbacks.

Disclosure of Invention

The invention aims to provide a large tee joint efficient automatic die forging device and a die forging method thereof.

The technical purpose of the invention is realized by the following technical scheme: a large three-way efficient automatic die forging device comprises a base, four relatively movable lower die trolleys and an upper die connected with the four lower die trolleys;

the base comprises four supporting rails which correspond to the lower die trolley respectively and are arranged in a cross shape, and an upright post which is positioned in the middle of the base, the upright post is arranged in a square column shape, and the end surface of the lower die trolley can be abutted against the side wall of the upright post;

the four lower die trolleys comprise lower die main bodies, main cavities arranged on the upper end faces of the lower die main bodies, two branch cavities arranged on the lower die main bodies and communicated with the main cavities, two blocking plates respectively arranged on the lower die main bodies and blocking one ends of the branch cavities departing from the main cavities, sliding chutes arranged on the lower end faces of the lower die main bodies and corresponding to the supporting rails, wheels and a power device, wherein the end faces, facing the stand columns, of the lower die main bodies are set to be stop faces, and the stop faces are provided with electromagnetic sensors;

the bottom of the upper die is provided with die cavities corresponding to the main cavities and the branch cavities of the four lower die trolleys, the top of the upper die is provided with four pressing planes, the central position of the upper die is provided with a through hole for the upright post to pass through, and the blocking plate can divide the die cavities into four cavities corresponding to the main cavities and the branch cavities of the lower die trolleys.

The invention is further provided with: four square grooves for corresponding electromagnetic sensors to penetrate are formed in the side wall of the upright post.

The invention is further provided with: the upper surface of the upright post is flush with the upper surface of the upper die.

The invention is further provided with: the support track upper surface has seted up thin strip groove respectively and has buried the wire, the wire is connected with the extension line, the extension line is arranged in ground.

The invention is further provided with: the extension lines are arranged along the moving direction of the lower die trolley.

The invention is further provided with: a die forging method of a large three-way efficient automatic die forging device comprises the following steps: step 1, respectively moving four lower die trolleys to the vicinity of a heating furnace along corresponding routes; heating the cylindrical metal blank material to be extruded to 1200 ℃ in a heating furnace, clamping and taking out the cylindrical metal blank material by a clamp, and placing the cylindrical metal blank material into a main cavity of a corresponding lower die trolley;

step 2, transporting, electrifying the extension line and the lead, generating a magnetic field around the lead and the extension line, detecting a magnetic signal by the electromagnetic sensor, transmitting the signal to an upper computer, controlling the power device to start working by the upper computer, driving the wheels to rotate, obtaining power by the lower die trolley, driving the wheels to turn by the power device in a differential speed manner, continuously moving forwards according to a magnetic path track detected by the electromagnetic sensor, finally moving to the front of the supporting track, continuously moving, relatively moving the sliding chute and the supporting track until the stop surface contacts the side surface of the upright post, enabling the electromagnetic sensor to enter the square groove to indicate that the preset position is reached, stopping the lower die trolley, and simultaneously carrying the heated metal blank material to the preset position;

step 3, closing the dies, namely covering the upper die on the four lower die trolleys, and enabling the stand columns to penetrate through the through holes so that the upper die is matched with the four lower die trolleys, and the upper die and the four lower die trolleys are combined into four complete Y-shaped tee die cavities;

step 4, compacting and extruding, wherein four compacting planes are compacted through an external compacting device, under the action of a supporting track, other parts such as wheels of a lower die trolley are prevented from being damaged, then four external presses work simultaneously, push plates and punches of the presses extend into four main cavities, contact with cylindrical high-temperature metal materials and continuously extrude the cylindrical high-temperature metal materials to deform the cylindrical high-temperature metal materials, the materials continuously flow to the branch cavities to fill the spaces of the branch cavities until the push plates/punches are pushed forwards to a preset position, the main cavities and the branch cavities are filled with the extruded metal materials, and the continuous pushing is stopped;

and 5, after the metal is cooled, withdrawing a push plate and a punch of the press to the outside of the die, removing a pressing device at the top of the upper die, removing the upper die, taking out the four extruded Y-shaped tee joints, transferring the Y-shaped tee joints to a machining area for further machining operations such as drilling, reaming, finishing and the like, and finally completely forming the product.

In conclusion, the invention has the following beneficial effects:

when the corresponding lower die trolley is controlled to move, after the extension line and the guide line are electrified, a magnetic field is generated around the extension line and the guide line, the electromagnetic sensor senses the magnetic field and outputs a signal, the upper computer controls the lower die trolley to move, and meanwhile, a magnetic path track detected by the magnetic sensor continuously moves forwards and finally moves to the front of the supporting track.

The electromagnetic sensor is inserted into the square groove, so that the electromagnetic sensor can be effectively protected, the stop surface is abutted against the side wall of the upright column, and the moving and positioning precision is improved.

When the mold is used, when the four lower mold trolleys move and abut against the side walls of the upright posts, the upper mold moves downwards, the upper mold abuts against and is matched with the four lower mold trolleys, and due to the effect of separation of the blocking plates, four mold cavities for molding large tee pieces are formed; then, the four pressing planes are pressed by an external pressing device; and the four corresponding press machines work simultaneously, and the press machines correspondingly extend into the four main cavities through the push plates and the punches to extrude and forge metal materials.

The method is used for die forging the large tee joint, the lower die trolley which can move according to the preset track can automatically and quickly move the high-temperature metal raw material from the heating furnace to the die forging place, and the formed tee joint product can also be quickly moved to the specified storage point. The die forging device has the advantages that a plurality of large Y-shaped tee products can be formed at one time, the production efficiency is high, the risk that metal raw materials generated due to large distance between the heating furnace and a die forging place fall off in the midway of transportation of a lifting appliance is avoided, and the die forging device has higher safety.

Drawings

FIG. 1 is a schematic structural view of example 1;

FIG. 2 is a schematic view of example 1 for opening the upper mold;

FIG. 3 is an exploded view of example 1;

FIG. 4 is a schematic view showing the abutment of the lower mold cart with the pillar in example 1;

FIG. 5 is a schematic view of the structure of the base;

FIG. 6 is a first schematic structural view of a lower mold cart;

FIG. 7 is a second schematic structural view of a lower mold cart;

FIG. 8 is a third schematic structural view of the lower mold cart;

FIG. 9 is a schematic structural view of an upper mold;

FIG. 10 is a schematic view of a large tee fabricated in example 1.

The corresponding part names indicated by the numbers in the figures: 100. a base; 101. a support rail; 105. a wire; 1051. an extension line; 110. a column; 111. a square groove; 200. a lower die trolley; 201. a lower mold body; 202. a main cavity; 203. a branch cavity; 205. a blocking plate; 207. a stop surface; 208. an electromagnetic sensor; 209. a wheel; 213. a power plant; 217. a chute; 600. an upper die; 601. pressing the plane; 605. and a through hole.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the invention is further described with reference to the figures and the specific embodiments.