阅读说明：本技术 一种模压成型机中下芯连杆的制造及强化方法 (Manufacturing and strengthening method of lower core connecting rod in compression molding machine ) 是由 魏祥 陈志国 顾娆 于 2020-08-10 设计创作，主要内容包括：本发明公开了一种模压成型机中下芯连杆的制造及强化方法,属于模压成型机制造领域。本发明选用35CrMo合金钢作为下芯连杆的用材,下芯连杆的制造和强化过程主要包括：对下芯连杆毛坯进行调质处理、对下芯连杆有径向通孔的一端进行感应加热,随后油冷；对感应加热并冷却后的下芯连杆进行最终整体热处理。本发明采用上述方法对模压成型机中的下芯连杆进行制造与强化,不但能简化其制造工序,降低制造难度,而且还能较大幅度的提高下芯连杆的整体强度以及极大的提高其易失效部位的综合力学性能。(The invention discloses a manufacturing and strengthening method of a lower core connecting rod in a compression molding machine, belonging to the field of compression molding machine manufacturing. The invention selects 35CrMo alloy steel as the material of the lower core connecting rod, and the manufacturing and strengthening process of the lower core connecting rod mainly comprises the following steps: quenching and tempering the lower core connecting rod blank, induction heating one end of the lower core connecting rod with a radial through hole, and then cooling with oil; and carrying out final integral heat treatment on the lower core connecting rod after induction heating and cooling. The invention adopts the method to manufacture and strengthen the lower core connecting rod in the compression molding machine, not only can simplify the manufacturing process and reduce the manufacturing difficulty, but also can greatly improve the overall strength of the lower core connecting rod and greatly improve the comprehensive mechanical property of the volatile part of the lower core connecting rod.)

1. A manufacturing and strengthening method of a lower core connecting rod in a compression molding machine is characterized in that the structure of the lower core connecting rod comprises an axial through hole (1), a radial through hole (2) and a thread (3): the radial through hole (2) and the thread (3) are respectively positioned at two ends of the lower core connecting rod, and the lower core connecting rod is manufactured and strengthened by adopting the following steps:

(1) quenching and tempering the lower core connecting rod blank;

(2) after quenching and tempering, machining the lower core connecting rod blank into a designed size;

(3) the method comprises the following steps of carrying out induction heating on one end, provided with a radial through hole, of a lower core connecting rod, then carrying out oil cooling, wherein the heating temperature of the induction heating is 200-890 ℃, and an induction heating area is divided into two parts: a uniform heating zone and a heating zone having a temperature gradient;

(4) and (4) carrying out final integral heat treatment on the lower core connecting rod subjected to induction heating and cooling in the step (3).

2. The method of claim 1, wherein the connecting rod is made of a material selected from the group consisting of: the heating area for induction heating of the end with the radial through hole of the lower core connecting rod is from the end with the radial through hole to 80mm below the end.

3. The method for manufacturing and reinforcing a lower core link in a compression molding machine as claimed in claim 1 or 2, wherein: the heating temperature for induction heating of the end, provided with the radial through hole, of the lower core connecting rod is 250-880 ℃.

4. The method for manufacturing and reinforcing a lower core connecting rod in an injection molding machine as claimed in claim 3, wherein: the uniform heating area for induction heating of the end, provided with the radial through hole, of the lower core connecting rod is in a range from the end part, provided with the radial through hole, to 15mm below the end part, and the heating temperature range is 850-890 ℃.

5. The method for manufacturing and reinforcing a lower core connecting rod in an injection molding machine as claimed in claim 4, wherein: the heating area with the temperature gradient for induction heating of the end with the radial through hole of the lower core connecting rod is in the range of 15mm to 80mm below the end part of the end with the radial through hole, wherein the temperature of the part 80mm below the end part of the end with the radial through hole is the lowest and is 200 ℃, and the temperature of the part 15mm below the end part of the end with the radial through hole is the highest and is 850 ℃ to 890 ℃.

6. The method of claim 1, wherein the connecting rod is made of a material selected from the group consisting of: in the oil cooling process, one end of the lower core connecting rod, which is provided with the radial through hole, vertically enters quenching oil along the axial direction of the connecting rod until the quenching oil submerges the whole lower core connecting rod and keeps the quenching oil for 5-10s, and then the lower core connecting rod is lifted to keep the quenching oil in the air for 5-10s and the circulation is performed for 2-5 times.

7. The method of claim 1, wherein the connecting rod is made of a material selected from the group consisting of: the final integral heat treatment of the lower core connecting rod subjected to induction heating and cooling in the step (3) is to heat and preserve heat of the lower core connecting rod, wherein the heating atmosphere is vacuum or inert gas atmosphere, the heating temperature is 50-450 ℃, and the heat preservation time is 5-120 min.

8. The method of claim 1, wherein the connecting rod is made of a material selected from the group consisting of: the 35CrMo alloy structural steel is selected as a manufacturing material of the lower core connecting rod.

9. The method of claim 1, wherein the connecting rod is made of a material selected from the group consisting of: the temperature gradient field is 100-106.2 ℃/cm.

Technical Field

The invention relates to a method for manufacturing and strengthening a connecting rod, in particular to a method for manufacturing and strengthening a lower core connecting rod made of 35CrMo in a compression molding machine.

Background

Compression molding is widely used in the fields of powder metallurgy product blanks, plastic product molding and the like, as is well known. The compression molding machine is one of the most important equipments in the compression molding process, and the equipments include more connecting mechanisms, such as a lower core link. In the process of mould pressing, the lower core connecting rod plays a role in transferring force, and on the other hand, due to the technological characteristics of mould pressing mass production, the lower core connecting rod continuously bears large cyclic load in production, so that the lower core connecting rod is required to have high strength and good plasticity and toughness.

At present, the lower core connecting rod of the compression molding machine is mainly made of 45 steel subjected to quenching and tempering, but in use, the pin holes in the lower core connecting rod are gradually elongated and even broken under continuous large cyclic load, which shows that the strength of the lower core connecting rod is obviously insufficient and needs to be further improved. Because the failed lower core connecting rod needs to be frequently replaced, the labor intensity of workers is greatly increased, the production progress of products is seriously influenced, and the economic benefit of enterprises is reduced.

Disclosure of Invention

The invention aims to provide a method for manufacturing and strengthening a lower core connecting rod with high performance and long service life for a molding press.

In order to achieve the above purpose, the invention adopts the following technical scheme:

the manufacturing method is characterized in that 35CrMo alloy structural steel is selected as a manufacturing material of the lower core connecting rod, and the lower core connecting rod is manufactured and strengthened by the following steps:

(1) quenching and tempering the lower core connecting rod blank;

(2) after quenching and tempering, machining the lower core connecting rod blank into a designed size;

(3) induction heating one end of the lower core connecting rod with the radial through hole, then carrying out oil cooling, wherein in the oil cooling process, the end of the lower core connecting rod with the radial through hole firstly vertically enters quenching oil along the axial direction of the connecting rod until the quenching oil submerges the whole lower core connecting rod and keeps for 5-10s, then lifting the lower core connecting rod and keeping for 5-10s in the air, and the process is circulated for 2-5 times;

(4) and (4) carrying out final integral heat treatment on the lower core connecting rod subjected to induction heating and cooling in the step (3).

Wherein, the regulation of the induction heating of the end of the lower core connecting rod with the radial through hole is that the temperature distribution after heating is uniform within the range from the end part of the end with the radial through hole to 15mm below the end part, the heating temperature range is 850-890 ℃, and the temperature after heating is in gradient distribution within the range from 15mm below the end part of the end with the radial through hole to 80mm below the end part, wherein the temperature at the position 80mm below the end part of the end with the radial through hole is the lowest and is 200 ℃, the temperature at the position 15mm below the end part of the end with the radial through hole is the highest, and the temperature value is the same as the temperature of the lower core connecting rod which is induction heated to constant temperature within the range from the end part of the end with the radial through hole to 15mm below the end part; the temperature gradient field of the heating zone with the temperature gradient is 100-106.2 ℃/cm. And performing final integral heat treatment on the lower core connecting rod after induction heating and cooling, namely heating and insulating the lower core connecting rod, wherein the heating atmosphere is vacuum or inert gas atmosphere, the heating temperature is 50-450 ℃, and the insulating time is 5-120 min.

Due to the adoption of the technical scheme, the manufacturing and strengthening method of the lower core connecting rod in the compression molding machine has the beneficial effects that 35CrMo alloy structural steel is selected to replace 45 steel of common carbon structural steel, the yield strength of the quenched and tempered state of the connecting rod is improved from more than 400 MPa to more than 800 MPa, and the integral mechanical property of the connecting rod is obviously improved; in the induction heating process, the local part of the connecting rod is uniformly heated (850-890 ℃) and heated with temperature gradient (200-890 ℃) at the same time, so that a smaller temperature gradient is formed in the connecting rod, the connecting rod after induction heating and cooling does not have deformation, and subsequent machining or straightening is not needed; finally, the lower core connecting rod after induction heating is subjected to final integral heat treatment, because the heat treatment is carried out in vacuum or inert gas atmosphere, the decarburization and oxidation of the surface of the connecting rod can be effectively avoided, and because the adopted heat treatment temperature is lower than the high-temperature tempering temperature in the 35CrMo steel quenching and tempering treatment and the temperature is lower, in the heat treatment process, the structure change of the part of the connecting rod which is not heated or the heating temperature is lower than the austenitizing temperature of 35CrMo steel is extremely small, only a fine martensite region formed near the pin hole is subjected to phase transformation, so that a higher-strength tissue structure is formed, and the strength of the connecting rod material near the pin hole is obviously enhanced; after the 35CrMo steel is subjected to integral quenching and tempering, the lower core connecting rod is machined into the design size of the lower core connecting rod, then subjected to induction heating and oil cooling, and subjected to subsequent final integral heat treatment to obtain the lower core connecting rod with high mechanical property. When the quenching oil is cooled, one end of the lower core connecting rod, which is provided with the radial through hole, firstly vertically enters the quenching oil along the axial direction of the connecting rod, the whole lower core connecting rod is sequentially kept in the oil for 5-10s, and kept in the air for 5-10s, the process is circulated for 2-5 times, the generation of thermal stress in the lower core connecting rod is effectively reduced in the whole treatment process, and the generated thermal stress can be partially released.

Therefore, the 35CrMo steel is selected as the material of the lower core connecting rod, the quenched and tempered 35CrMo steel is processed into the lower core connecting rod, and then the lower core connecting rod is subjected to local induction heating, oil cooling and final overall heat treatment, so that the manufacturing process is simplified, the manufacturing difficulty is reduced, the overall strength of the lower core connecting rod is greatly improved, and the comprehensive mechanical property of an effective part of the lower core connecting rod is greatly improved.

Drawings

FIG. 1 is a schematic view of a lower core link of the present invention.

Detailed Description

The present invention will be further described with reference to the following examples.