KR200409896Y1 - High frequency heat treatment apparatus for rocker-arm shaft - Google Patents

Abstract

The present invention relates to a high frequency induction heating type heat treatment apparatus of the rocker arm shaft, the configuration of the main frame member of the rectangular shape; Both ends of the rectangular frame portion disposed inside the main frame member and movable up and down of the main frame member, a pair of support rods installed inside the frame portion, and the pair of support rods are respectively fixed, A movable frame member including a support configured to be movable up and down of the support rod, and a fixing part provided on the frame part and the support, respectively, and configured to fix both ends of the rocker arm shaft; A groove portion formed vertically on one side of the frame portion, a guide portion provided inside the groove portion, and having a plurality of irregularities formed thereon, and fixed to the main frame member, one end of which is guided by irregularities of the guide portion. Sensor member made of; And a main body provided at one side of the main frame member, and installed at one side of the main body to penetrate the rocker arm shaft therein, and a high frequency current is generated by an electrical signal of the main body to generate a high frequency current in the rocker arm shaft. A high frequency coil unit for induction current flowing to heat the high frequency, a coil cooling unit provided inside the high frequency coil unit, and cooling water flows therein to cool the high frequency coil unit, and a plurality of coils along an inner circumference of the high frequency coil unit And a high frequency induction heating member provided with a shaft cooling unit configured to cool the rocker arm shaft penetrated into the high frequency coil unit by spraying cooling water. The rocker arm is continuously formed by one setting. Partial high frequency heat treatment of the shaft allows the process Simplification and speed of work has the effect that the production efficiency can be improved.

High frequency heat treatment, induction heating method, rocker arm shaft, moving

Description

High frequency heat treatment apparatus for rocker-arm shaft

1 is a view showing a high frequency induction heating method of the rocker arm shaft according to a preferred embodiment of the present invention.

2 is a conceptual view schematically showing the operation of the sensor member of FIG.

Figure 3 is an enlarged perspective view of the high frequency induction heating member of Figure 1;

4a and 4b is a state diagram used in the high frequency induction heating method of the rocker arm shaft of Figure 1;

<Explanation of symbols for the main parts of the drawings>

A: rocker arm shaft 10: mainframe member

11: control box 20: moving frame member

21 frame portion 23 support rod

25: support 27: fixed part

30 sensor member 31 groove

33: guide part 35: switch part

40: high frequency induction heating member 41: main body

43: high frequency coil unit 45: coil cooling unit

47: shaft cooling unit

The present invention relates to a high frequency induction heating method of the rocker arm shaft.

In general, a vehicle includes a valve opening and closing mechanism for opening and closing a valve for an intake stroke and an exhaust stroke inside an engine, and in the case of an overhead valve mechanism, an upper end of a push rod which is normally moved up and down by a cam of a cam shaft and One side is in contact with the other end of the rocker arm formed to contact the top cap of the valve rotates around the rocker arm shaft fixed to the upper side of the cylinder block of the engine to form a structure in which the opening of the valve is made. The rocker arm shaft is partially heat treated using a high frequency heat treatment method to harden the surface of the rocker arm to which the rocker arm is coupled.

 High frequency and medium frequency heat treatment is a surface hardening heat treatment which selectively hardens a part of a part, and is a heat treatment method used to obtain heat treatment characteristics of a specific part or to be concerned about deformation. In other words, by heating the surface of the object to be heated to the hardening temperature according to the material properties by using a high frequency induction heating method and rapidly cooling with water or oil, the surface of the mechanical structural component is hardened to improve wear resistance and mechanical properties.

However, the high frequency heat treatment method of the rocker arm shaft described above has the following problems.

As described above, rocker arm shafts applied to all transmissions such as motorcycles and farm equipment as well as rocker arm shafts used in automobiles need to be heat treated after setting one part, and heat treated after setting one part, and thus heat treated by setting them again. The setting should be made.

Therefore, there is a disadvantage that the heat treatment process is not made continuously, the work speed is low, and the production efficiency is lowered.

The present invention was devised to solve the above-mentioned problems, and the rocker arm shaft can be simplified and the process speed can be improved due to the partial high frequency heat treatment of the rocker arm shaft continuously with one setting. The purpose is to provide a high frequency induction heating method of heat treatment apparatus.

High frequency induction heating method of the rocker arm shaft of the present invention for achieving the above object, the main frame member of the rectangular shape; Both ends of the rectangular frame portion disposed inside the main frame member and movable up and down of the main frame member, a pair of support rods installed inside the frame portion, and the pair of support rods are respectively fixed, A movable frame member including a support configured to be movable up and down of the support rod, and a fixing part provided on the frame part and the support, respectively, and configured to fix both ends of the rocker arm shaft; A groove portion formed vertically on one side of the frame portion, a guide portion provided inside the groove portion, and having a plurality of irregularities formed thereon, and fixed to the main frame member, one end of which is guided by irregularities of the guide portion. Sensor member made of; And a main body provided at one side of the main frame member, and installed at one side of the main body to penetrate the rocker arm shaft therein, and a high frequency current is generated by an electrical signal of the main body to generate a high frequency current in the rocker arm shaft. A high frequency coil unit for induction current flowing to heat the high frequency, a coil cooling unit provided inside the high frequency coil unit, and cooling water flows therein to cool the high frequency coil unit, and a plurality of coils along an inner circumference of the high frequency coil unit And a high frequency induction heating member provided and including a shaft cooling unit configured to cool the rocker arm shaft penetrated into the high frequency coil unit by spraying cooling water.

In the above, it is preferable that the cross section of the concave portion of the unevenness of the guide portion is formed to be inclined so as to narrow toward the bottom surface.

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the present invention in detail as follows.

1 is a view showing a high frequency induction heating method heat treatment apparatus of a rocker arm shaft according to a preferred embodiment of the present invention, Figure 2 is a schematic diagram schematically showing the operation of the sensor member of Figure 1, 3 is an enlarged perspective view of the high frequency induction heating member of FIG. 1, and FIGS. 4A and 4B are diagrams illustrating a state of use of the high frequency induction heating type heat treatment apparatus of the rocker arm shaft of FIG. 1.

As shown in Figure 1, the high frequency induction heating method heat treatment apparatus of the rocker arm shaft according to a preferred embodiment of the present invention is the main frame member 10 and the moving frame member 20 and the sensor member 30 and high frequency induction heating It comprises a member 40.

The main frame member 10 has a quadrangular shape, and a control box 11 capable of operating the movement of the moving frame member 20 to be described below is installed at one side.

The moving frame member 20 includes a frame portion 21, a pair of support rods 23, a support stand 25, and a fixing portion 27.

The frame portion 21 has a quadrangular shape, is disposed inside the main frame member 10, and is installed to be movable upward and downward of the main frame member 10. In the present specification, the rope 21a is connected to the upper surface of the frame portion 21, and the rope 21a is wound around the pulley 13 provided on the upper surface of the main frame member 10, so that the frame portion 21 is The rail 21a moves up and down the main frame member 10, and wheels 21b are provided on the outside of the frame portion 21, and rails on which the wheels 21b move on the inside of the main frame portion. (15) is provided and is comprised so that movement is easy. The movement of the frame portion 21 can be controlled by the operation of the switch provided in the control box 11 described above.

The pair of support rods 23 are respectively installed inside the frame portion 21.

Both ends of the support stand 25 are fixed to the pair of support bars 23, respectively, and are configured to be movable up and down of the support bars 23.

The fixing part 27 is provided in the middle part of the frame part 21 and the support stand 25, respectively, and is comprised so that both ends of a rocker arm shaft can be fixed.

The sensor member 30 includes a groove portion 31, a guide portion 33, and a switch portion 35.

The groove portion 31 is formed long on the side of the frame portion 21 vertically.

The guide part 33 is provided inside the groove part 31, and as shown in FIG. 2, a plurality of irregularities are formed, and the surface on which the irregularities are formed is disposed to face the open surface of the groove part 31. have. Although the side surface of the guide part 33 is illustrated in FIG. 2 of the present specification, it is to be noted that when the inside of the groove part 31 is provided, the uneven surface is disposed to face the open surface of the groove part 31.

In the drawings of the present specification, the rocker arm shaft is a rocker arm shaft used for six cylinders of an automobile, and since six portions are to be subjected to high frequency heat treatment, six convex portions of the guide portion 33 are formed. It is merely an example, and the number of irregularities of the guide part 33 may also vary depending on the portion to be heat treated of the rocker arm shaft. For example, in the case of a rocker arm shaft used for eight cylinders, the convex portion of the guide portion 33 will be composed of eight, and the guide portion according to the heat treatment portion of the rocker arm shaft applied to all transmissions such as motorcycles and farm equipment as well as automobiles. The number of uneven parts of (33) will vary.

The switch unit 35 is fixed to the main frame member 10, one end of which is guided by the unevenness of the guide unit 33.

In the drawings of the present specification, the switch unit 35 is shown as a roll switch, but this is only one embodiment, and of course, may vary depending on the embodiment such as a proximity switch.

In the above, it is preferable that the cross section of the concave portion of the unevenness of the guide portion 33 is formed to be inclined so as to narrow toward the bottom surface. The reason for this is to facilitate the movement of the switch unit 35 guided by the unevenness of the guide unit 33.

As shown in FIG. 3, the high frequency induction heating member 40 includes a main body portion 41, a high frequency coil portion 43, a coil cooling portion 45, and a shaft cooling portion 47.

The main body portion 41 is provided on one side of the main frame member 10.

The high frequency coil part 43 is installed at one side of the main body part 41 and is disposed to penetrate the rocker arm shaft therein, and the high frequency current is generated by the electrical signal of the main body part 41 to induce the induction current to the rocker arm shaft. Flow to ensure high frequency heating.

The coil cooling unit 45 is provided inside the high frequency coil unit 43, and both ends of the coil cooling unit 45 are each connected with a hose, and the coolant is supplied to the coil cooling unit 45 through the hose. Cooling water flows through the furnace to cool the high frequency coil unit 43 and is discharged through the opposite hose.

A plurality of shaft cooling parts 47 are provided along the inner circumference of the high frequency coil part 43, and cooling water is sprayed at about 45 ° through the shaft cooling part 47 to the inner side of the high frequency coil part 43. The rocker arm shaft which penetrates into the high frequency coil part 43 is cooled.

Hereinafter, the heat treatment method of the high frequency induction heating type heat treatment apparatus of the rocker arm shaft of the present invention having the above-described configuration will be described.

1 to 4b, in particular, FIG. 4a is a view showing a state in which the moving frame member 20 starts to move below the main frame member 10, and FIG. 4b is a moving frame Note that the drawing shows a state in which the movement of the member 20 is finally stopped.

First, the support 25 of the moving frame member 20 is properly moved to allow the rocker arm shaft A to penetrate into the high frequency coil part 43 of the high frequency induction heating member 40, and then the support 25 is Both ends of the rocker arm shaft are fixed to the frame part 21, the support 25, and the fixing part 27 by moving. (Step 1)

When the switch of the control box 11 is operated in the first step, as shown in FIG. 4A, the moving frame member 20 starts to move to the lower portion of the main frame member 10, and at the same time, the main The switch part 35 of the sensor member 30 fixed to the frame member 10 starts to move along the unevenness of the guide part 33 provided on one side of the frame part 21 of the moving frame member 20. (Step 2)

Next, in the second step, cooling water is injected downward along the inner circumference of the high frequency coil part 43 to cool the rocker arm shaft A. FIG. (Step 3)

After the third step, the movement of the movable frame member 20 is stopped for 1 to 5 seconds when the switch 35 has just reached the upper surface of the convex portion of the guide portion 33. (Step 4)

As in the fourth step, the lowering delay timer is installed to stop the movement of the moving frame member 20 when the switch unit 35 first reaches the upper surface of the convex portion. By stopping for a few seconds at the portion where the first high frequency heat treatment is started, it can be sufficiently heat treated at the portion where the first high frequency heat treatment is started.

After the fourth step, a current is generated in the high frequency coil unit 43, and an induction current flows through the rocker arm shaft A so that the rocker arm shaft A is heated at a high frequency. (Step 5)

After the fifth step, the movement of the movable frame member 20 is started again, and at the same time, the switch 35 is moved along the upper surface of the convex portion of the unevenness of the guide 33. (Step 6)

After the sixth step, the switch part 35 is moved along the concave portion of the unevenness of the guide part 33, and the current is cut off by the high frequency coil part 43. (Step 7)

When the switch unit 35 reaches the end of the guide unit 33 after sequentially repeating the fourth to sixth steps, as shown in FIG. 4B, the movement of the movable frame member 20 is finally stopped. The cooling water injection is stopped. (Step 8)

The heat treatment of the rocker arm shaft A partially heat treated by the above steps is completed, and the supporter 25 is moved upward to separate the rocker arm shaft A fixed to the fixing part 27.

According to the high frequency induction heating method heat treatment apparatus of the rocker arm shaft of the present invention as described above, has the following effects.

Partial high-frequency heat treatment of the rocker arm shaft is possible in one setting, which simplifies the process and speeds up the work, thus improving production efficiency.

As described above, although described with reference to a preferred embodiment of the present invention, those skilled in the art will vary the present invention without departing from the spirit and scope of the present invention described in the utility model registration claims below Can be modified or modified.

Claims (2)

In the high frequency induction heating method of the rocker arm shaft, Square main frame member; Both ends of the rectangular frame portion disposed inside the main frame member and movable up and down of the main frame member, a pair of support rods installed inside the frame portion, and the pair of support rods are respectively fixed, A movable frame member including a support configured to be movable up and down of the support rod, and a fixing part provided on the frame part and the support, respectively, and configured to fix both ends of the rocker arm shaft; A groove portion formed vertically on one side of the frame portion, a guide portion provided inside the groove portion, and having a plurality of irregularities formed thereon, and fixed to the main frame member, one end of which is guided by irregularities of the guide portion. Sensor member made of; And The main body is provided on one side of the main frame member, and installed on one side of the main body portion and the rocker arm shaft penetrates therein, and a high frequency current is generated by an electrical signal of the main body to guide the rocker arm shaft. A high frequency coil part for allowing current to flow at high frequency, a coil cooling part provided inside the high frequency coil part, and cooling water flowing therein to cool the high frequency coil part, and a plurality of coils are provided along an inner circumference of the high frequency coil part. And a high frequency induction heating member including a shaft cooling unit configured to cool the rocker arm shaft penetrating into the high frequency coil unit through the injection of coolant. 2. The method of claim 1, High frequency induction heating type heat treatment apparatus of the rocker arm shaft, characterized in that the inclined end surface of the concave portion of the concave-convex portion is narrowed toward the bottom surface.

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