KR101920660B1 - Heat treatment apparatus for transmission plate - Google Patents

Abstract

Disclosed is a heat treatment apparatus for a transmission plate. According to the present invention, the heat treatment apparatus for a transmission plate comprises: a heating unit covering an upper side and a lower side of the transmission plate and heating the transmission plate at predetermined temperature; a cooling unit receiving the transmission plate heated in the heating unit and cooling the transmission plate by placing the transmission plate in a mold; and an oil pressure supply unit supplying oil pressure to the heating unit and the cooling unit so as to operate the heating unit and the cooling unit.

Description

[0001] HEAT TREATMENT APPARATUS FOR TRANSMISSION PLATE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a heat treatment apparatus for a transmission plate, and more particularly, to a heat treatment apparatus for a transmission plate which can prevent deformation due to springback by heating a plurality of transmission plates by a press method.

Generally, a clutch disk applied to the clutch system is provided with a torque damper between the clutch plate and the clutch hub to absorb the torsional vibration while allowing a certain range of rotational displacement between the clutch plate and the clutch hub.

The transmission plate included in such a local damper is in the form of a plate, and a heat treatment such as quenching and tempering is required. The tempered steel has high hardness but it is tempered by tempering which is reheated to a temperature below the A1 transformation point to lower mainly hardness and increase the viscosity.

Conventionally, the transmission plate is heated through an injector, and the heated transmission plate is subjected to a process of naturally cooling to room temperature. However, there is a problem that deformation due to springback occurs during the process of cooling the transmission plate. Therefore, there is a need for improvement.

The background art of the present invention is disclosed in Korean Patent Registration No. 10-1195941 (Registered on October 23, 2012, entitled: Torque Converter Including a Traction Twin Damper).

It is an object of the present invention to provide a heat treatment apparatus for a transmission plate capable of preventing deformation due to springback by heating a plurality of transmission plates in a pressing manner and forcibly cooling the same, .

A heat treatment apparatus for a transmission plate according to the present invention comprises: a heating unit which surrounds the upper and lower sides of a transmission plate and heats the transmission plate to a predetermined temperature; and a transmission plate heated by the heating unit, And a hydraulic pressure supply unit for supplying hydraulic pressure to the cooling unit, the heating unit and the cooling unit to operate the heating unit and the cooling unit.

The heating portion includes a heating frame portion having a working space for heating the transmission plate inside, a heating fixing portion fixed to the heating frame portion and heated to a set temperature at the upper and lower sides facing the transmission plate, And is operated by the hydraulic pressure supplied through the hydraulic pressure supply unit to heat the transmission plate on the upper side of the heating fixing unit. The first heating transfer unit is located below the heating unit and the heating fixing unit, And a second heating movement part which is operated by the heating and fixing part to heat the transmission plate located below the heating fixing part.

The heating and fixing unit includes a heating and fixing body fixed to the heating frame, a central heating unit fixed to the heating and fixing body and heated to a predetermined temperature, a first heating unit disposed on the upper side of the central heating unit, And a second upper heating mold positioned below the lower heating mold and the central heating section and being heated by receiving heat from the central heating section.

The first heating moving part includes a first driving part fixed to the heating frame part and linearly moved in the up-and-down direction by the hydraulic pressure supplied through the hydraulic pressure supply part, and a second driving part connected to the first rod member, An upper heating part fixed to the first moving body and heated to a predetermined temperature and a first upper heating part positioned below the upper heating part facing the first lower heating mold and heated by receiving heat from the upper heating part, And a heating mold.

The second heating moving part includes a second driving part fixed to the heating frame part and linearly moving the second rod member in the up and down direction by the hydraulic pressure supplied through the hydraulic pressure supply part, A lower heating unit fixed to the second moving body and heated to a predetermined temperature, and a second lower heating unit positioned above the lower heating unit facing the second upper heating mold and heated by receiving heat from the lower heating unit, And a heating mold.

The cooling section includes a cooling frame section having a working space for cooling the transmission plate inside, a cooling and fixing section fixed to the cooling frame section and cooling the upper and lower sides facing the transmission plate to set temperatures, The first cooling moving part is located below the first cooling moving part and the cooling fixing part and is operated by the hydraulic pressure supplied through the hydraulic pressure supply part to cool the transmission plate on the upper side of the cooling fixing part, And a second cooling moving portion that is operated by the cooling fixing portion to cool the transmission plate located below the cooling fixing portion.

The cooling fixture includes a cooling fixture body fixed to the cooling frame, a first lower cooling metal mold located on the upper side of the cooling fixture body and having a channel through which cooling water flows, and a conduit through which the cooling water flows, And a second upper cooling metal mold.

The first cooling moving part includes a first power unit fixed to the cooling frame part and linearly moved in the up-and-down direction by the hydraulic pressure supplied through the hydraulic pressure supply part, and a second power unit connected to the first operating rod, And a first upper cooling metal mold fixed to the first operation body and the first operation body and having a channel through which the cooling water flows.

The second cooling moving part is connected to the second operating rod and is connected to the second operating rod in the up-and-down direction. The second driving moving part is fixed to the cooling frame part and is linearly moved in the vertical direction by the hydraulic pressure supplied through the hydraulic- And a second lower cooling metal mold fixed to the second operation body and the second operation body, and having a channel through which the cooling water flows.

And the hydraulic pressure supply portion supplies the hydraulic pressure to the first heating transfer portion and the second heating transfer portion and to the first cooling transfer portion and the second cooling transfer portion.

The hydraulic pressure supply unit includes a main control unit receiving a pressure and a flow rate of the fluid to which the first heating transfer unit and the second heating transfer unit and the first cooling transfer unit and the second cooling transfer unit are supplied, A sub-control unit controlled by a control signal of the main control unit, a servo motor operated by a control signal of the sub-control unit, and a servo motor operated by receiving power of the servo motor. And a gear pump for supplying the fluid to the first heating transfer portion and the second heating transfer portion and to the first cooling transfer portion and the second cooling transfer portion.

The servo motor is provided with an encoder, and the measured value of the encoder is transmitted to the sub-controller.

A heat treatment method for a transmission plate according to the present invention includes the steps of: heating a plurality of transmission plates to a predetermined temperature in a heating section; transmitting a transmission plate heated by the heating section to a cooling section; And the cooling section is commonly used as a hydraulic pressure supply section for supplying hydraulic pressure.

In the heat treatment apparatus for a transmission plate according to the present invention, after the transmission plate is heated in the heating section for tempering, the transmission plate is forcedly cooled in the cooling section, so that deformation due to springback can be prevented.

1 is a schematic view of a heat treatment apparatus for a transmission plate according to an embodiment of the present invention.
2 is a view showing a state before the operation of the heating unit according to the embodiment of the present invention.
3 is a view illustrating a state in which a heating unit according to an embodiment of the present invention is operated to heat a transmission plate.
4 is a view showing a first upper heating mold and a first lower heating mold according to an embodiment of the present invention.
5 is a view showing a state before the operation of the cooling unit according to the embodiment of the present invention.
6 is a view illustrating a state in which a heating unit according to an embodiment of the present invention is operated to cool a transmission plate.
7 is a view showing a first upper cooling mold and a first lower cooling mold according to an embodiment of the present invention.
8 is a view showing a hydraulic pressure supply unit according to an embodiment of the present invention.
9 is a flowchart illustrating a heat treatment method for a transmission plate according to an embodiment of the present invention.

Hereinafter, a heat treatment apparatus for a transmission plate according to an embodiment of the present invention will be described with reference to the accompanying drawings. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation.

Further, the terms described below are defined in consideration of the functions of the present invention, which may vary depending on the intention or custom of the user, the operator. Therefore, definitions of these terms should be made based on the contents throughout this specification.

FIG. 1 is a view schematically showing a heat treatment apparatus for a transmission plate according to an embodiment of the present invention. FIG. 2 is a view showing a state before operation of a heating unit according to an embodiment of the present invention, FIG. 4 is a view showing a first upper heating metal mold and a first lower heating metal mold according to an embodiment of the present invention. FIG. And FIG. 5 is a view showing a state before the operation of the cooling unit according to the embodiment of the present invention, FIG. 6 is a view illustrating a state where the heating unit according to the embodiment of the present invention is operated to cool the transmission plate, FIG. 7 is a view showing a first upper cooling mold and a first lower cooling mold according to an embodiment of the present invention, and FIG. 8 is a view illustrating a hydraulic supply unit according to an embodiment of the present invention.

1 to 8, a heat treatment apparatus 1 for a transmission plate according to an embodiment of the present invention includes a transmission plate 10, which surrounds the upper and lower sides of the transmission plate 10, A cooling unit 70 for receiving the transmission plate 10 heated by the heating unit 20 and placing the cooling plate 70 inside the mold and cooling the heating plate 20 and the cooling unit 70, And a hydraulic pressure supply unit 120 for supplying hydraulic pressure to the heating unit 20 and the cooling unit 70. [

The transmission plate 10 provided in the local damper is in the form of a plate, and heat treatment such as quenching and tempering is required. A plurality of through holes are provided along the circumference of the transmission plate 10, and a hole is also provided in the inner center. Since the structure of the transmission plate 10 is a well-known structure, a detailed description thereof will be omitted.

1 to 4, the heating unit 20 surrounds the upper and lower sides of the transmission plate 10 and heats the transmission plate 10 to a predetermined temperature. The heating section 20 operated in a press mode can heat two or more transmission plates 10 to a set temperature at the same time. The heating unit 20 according to an embodiment includes a heating frame unit 30, a heating fixing unit 40, a first heating movement unit 50 and a second heating movement unit 60, To thereby heat the two transmission plates 10.

The heating frame portion 30 is installed in a fixed state with a working space for heating the transmission plate 10 inside. The heating frame part 30 according to one embodiment is a structure that extends in the vertical direction and supports the heating and fixing part 40 and the first heating and moving part 50 and the second heating and moving part 60.

The heating fixing part 40 is fixed to the heating frame part 30. The upper and lower sides of the heating fixing part 40 facing the transmission plate 10 can be deformed into various shapes within the technical idea of being heated to a predetermined temperature. The heating and fixing unit 40 according to one embodiment includes a heating fixing body 41 fixed to the heating frame unit 30, a central heating unit 42 fixed to the heating fixing body 41 and heated to a predetermined temperature, A first lower heating mold 43 positioned on the upper side of the central heating section 42 and heated by receiving heat from the central heating section 42 and a central heating section 43 located below the central heating section 42, And a second upper heating mold 44 heated by receiving the heat of the second upper heating mold 42.

The heating fixing body 41 is fixed to the heating frame part 30 and installed in a horizontal direction. A central heating section 42 fixed to the upper side of the heating fixing body 41 is in the form of a plate extending in the horizontal direction and a plurality of heater tubes are installed horizontally inside the central heating section 42.

The first lower heating mold 43 is connected to the upper side of the central heating section 42 and receives heat from the central heating section 42 and is heated to a predetermined temperature. The first lower heating mold 43 according to one embodiment is heated to a temperature of 350 to 400 degrees.

The second upper heating metal mold 44 is located below the central heating section 42 and receives heat from the central heating section 42 to be heated to a predetermined temperature. The second upper heating mold 44 according to one embodiment is heated to a temperature of 350 to 400 degrees.

The first heating transfer portion 50 is located above the heating fixing portion 40 and is operated by the hydraulic pressure supplied through the hydraulic pressure supply portion 120 to be engaged with the transmission plate 10 located above the heating fixing portion 40, Or the like. The first heating moving part 50 according to the embodiment is fixed to the heating frame part 30 and the first rod member 52 is linearly moved in the vertical direction by the hydraulic pressure supplied through the hydraulic pressure supply part 120 A first movable body 53 connected to the first rod member 52 and moved in the vertical direction and a second movable body 53 fixed to the first movable body 53 and heated to a predetermined temperature, A first upper heating mold 55 positioned below the upper heating section 54 facing the first lower heating mold 43 and heated by receiving heat from the upper heating section 54, And a first guide bar 56 for guiding the vertical movement of the one moving body.

The first driving unit 51 fixed to the upper side of the heating frame unit 30 is operated by the hydraulic pressure supplied through the hydraulic pressure supply unit 120. The first driving part 51 using the hydraulic cylinder is installed in a standing state and the body of the first driving part 51 is fixed to the heating frame part 30. [ The first rod member 52 protruding from the first driving unit 51 extends downward and is connected to the first moving body 53.

The first movable body 53 is vertically guided along the rod-shaped first guide bar 56 extending in the vertical direction and the upper heating part 54 is connected to the lower side of the first movable body 53 . The upper heating section 54 is fixed to the first moving body 53 and moved up and down together with the first moving body 53. Further, the upper heating section 54 is a plate extending in the horizontal direction, and a plurality of heater tubes are installed in the horizontal direction inside the upper heating section 54.

The first upper heating mold 55 is connected to the lower side of the upper heating part 54 and receives the heat of the upper heating part 54 and is heated to a predetermined temperature.

The second heating moving part 60 is located below the heating fixing part 40 and is operated by the hydraulic pressure supplied through the hydraulic pressure supply part 120 to be engaged with the transmission plate 10 located below the heating fixing part 40. [ Or the like. The second heating movement part 60 according to the embodiment is fixed to the heating frame part 30 and the second rod member 62 is linearly moved in the vertical direction by the hydraulic pressure supplied through the hydraulic pressure supply part 120 A second moving body 63 connected to the second rod member 62 and moved in the vertical direction and a lower heating member 62 fixed to the second moving body 63 and heated to a predetermined temperature, A second lower heating mold 65 positioned above the lower heating section 64 facing the second upper heating mold 44 and heated by receiving heat from the lower heating section 64, And a second guide bar 66 for guiding the up and down movement of the two movable bodies 63.

The second driving part 61 fixed to the lower side of the heating frame part 30 is operated by the hydraulic pressure supplied through the hydraulic pressure supplying part 120. [ The second driving part 61 using the hydraulic cylinder is installed in a raised state and the body of the second driving part 61 is fixed to the heating frame part 30. [ The second rod member 62 protruding from the second driving unit 61 extends upward and is connected to the second moving body 63.

The pair of second guide bars 66 extending to the lower side of the second moving body 63 are rod-shaped and installed through the heating frame part 30 provided below the second moving body 63 . The second guide bar 66 is moved up and down together with the second movable body 63 so that the second movable body 63 can be moved up and down stably.

A lower heating portion 64 is connected to the lower side of the second moving body 63. The lower heating portion 64 is fixed to the second moving body 63 and moved up and down together with the second moving body 63. [ The lower heating portion 64 is in the form of a plate extending in the horizontal direction, and a plurality of heater pipes are installed in the horizontal direction inside the lower heating portion 64.

The second lower heating mold 65 is located on the lower side facing the second upper heating mold 44 and fixed to the lower heating section 64 and moved up and down together with the lower heating section 64.

5 to 7, the cooling unit 70 receives a transmission plate 10 heated by the heating unit 20, receives the cooling plate 10, places the cooling plate 10 on the inner side of the mold, Can be used. The cooling unit 70 according to one embodiment includes a cooling frame unit 80, a cooling fixing unit 90, a first cooling moving unit 100, and a second cooling moving unit 110. [

The cooling frame portion 80 is installed in a fixed state with a working space for cooling the transmission plate 10 inside. The cooling frame part 80 according to one embodiment is a structure that extends in the vertical direction and supports the cooling fixing part 90 and the first cooling moving part 100 and the second cooling moving part 110. [

The cooling and fixing unit 90 is fixed to the cooling frame unit 80 and the upper and lower sides facing the transmission plate 10 can be deformed into various shapes within the technical idea of being cooled to a predetermined temperature. The cooling and fixing unit 90 according to one embodiment includes a cooling fixing body 91 fixed to the cooling frame unit 80 and a first fixing member 91 located on the upper side of the cooling fixing body 91 and having a channel through which cooling water flows A lower cooling metal mold 92 and a second upper cooling metal mold 93 located below the cooling fixing body 91 and having a channel through which cooling water flows.

The cooling fixing body 91 is fixed to the cooling frame portion 80 and installed in a horizontal direction. Both sides of the cooling fixing body 91 are fixed to the cooling frame part 80. A first lower cooling metal mold 92 is installed on the upper side of the cooling fixing body 91 and a second upper cooling metal mold 93 is installed on the lower side do.

The first lower cooling metal mold (92) and the second upper cooling metal mold (93) are provided on the inner side with a channel for moving the cooling water. Therefore, the flow of cooling water for cooling the transmission plate 10 can be facilitated.

The first cooling moving part 100 is located on the upper side of the cooling fixing part 90 and is operated by the hydraulic pressure supplied through the hydraulic pressure supplying part 120 so that the transmission plate 10 on the upper side of the cooling fixing part 90, In various shapes within the technical idea of cooling the heat exchanger. The first cooling moving part 100 according to the embodiment is fixed to the cooling frame part 80 and the first operating rod 102 is linearly moved in the vertical direction by the hydraulic pressure supplied through the hydraulic pressure supply part 120 A first actuating body 103 connected to the first actuating rod 102 and moved in the up and down direction and a second actuating body 103 fixed to the first actuating body 103 and having a channel through which the cooling water flows, 1 upper cooling mold 104 as shown in FIG.

The first power section 101 fixed to the upper side of the cooling frame section 80 is operated by the hydraulic pressure supplied through the hydraulic pressure supply section 120. The first power section 101 using the hydraulic cylinder is installed in a raised state, and the body of the first power section 101 is fixed to the cooling frame section 80. The first actuating rod 102 protruding from the first power section 101 extends downward and is connected to the first actuating body 103.

The first operation body 103 is vertically moved along a bar-shaped first guide bar 105 extending in the vertical direction. A first upper cooling metal mold 104 is provided on the lower side of the first operation body 103 Respectively. The first upper cooling mold 104 covers the upper side of the first lower heating mold 43 with the transmission plate 10 interposed therebetween and the cooling water flowing along the first upper cooling scoop cools the transmission plate 10 And then discharged to the outside through the inner channel of the first lower heating mold 43. [

The second cooling moving portion 110 is located below the cooling fixing portion 90 and is operated by the hydraulic pressure supplied through the hydraulic pressure supplying portion 120 to rotate the transmission plate 10 under the cooling fixing portion 90, In various shapes within the technical idea of cooling the heat exchanger. The second cooling moving part 110 according to the embodiment is fixed to the cooling frame part 80 and is moved linearly in the vertical direction by the hydraulic pressure supplied through the hydraulic pressure supply part 120 A second operating body 113 connected to the second operating rod 112 and moved in the up and down direction and a channel fixed to the second operating body 113, And a second guide bar 115 guiding the up and down movement of the second lower cooling metal mold 114 and the second operating body 113.

The second power section 111 fixed to the lower side of the cooling frame section 80 is operated by the hydraulic pressure supplied through the hydraulic pressure supply section 120. The second power section 111 using the hydraulic cylinder is installed in a raised state and the body of the second power section 111 is fixed to the cooling frame section 80. The second actuating rod 112 protruding from the second power section 111 extends upward and is connected to the second actuating body 113.

The pair of second guide bars 115 extending in a lower direction of the second operation body 113 are rod-shaped and installed through the cooling frame part 80 provided below the second operation body 113 . The second guide bar 115 is moved up and down together with the second operation body 113 so that the second operation body 113 can be moved up and down stably.

The second lower cooling metal mold 114 provided on the upper side of the second operating body 113 is positioned on the lower side facing the second upper cooling metal mold 93 and fixed on the second operation body 113 to be cooled on the lower cooling part 70).

8, the hydraulic pressure supply unit 120 may supply various types of hydraulic pressure to the heating unit 20 and the cooling unit 70 by supplying hydraulic pressure to the heating unit 20 and the cooling unit 70, Hydraulic devices can be used. The hydraulic pressure supply unit 120 according to an embodiment of the present invention may supply hydraulic pressure to the first heating transfer unit 50 and the second heating transfer unit 60 and the first cooling transfer unit 100 and the second cooling transfer unit 110, .

The hydraulic pressure supply unit 120 according to an embodiment of the present invention can supply the first heating transfer unit 50 and the second heating transfer unit 60 and the first cooling transfer unit 100 and the second cooling transfer unit 110 A pressure sensor 122 for measuring the pressure value of the fluid flowing through the pipe and delivering the measured value to the main controller 121, a main controller 121 for measuring the pressure of the fluid flowing through the pipe, A servomotor 124 operated by a control signal of the sub control unit 123 and a first heating transfer unit 130 which is operated by receiving the power of the servo motor 124, And a gear pump 126 for supplying a fluid to the second heating moving part 60 and the first cooling moving part 100 and the second cooling moving part 110. The servomotor 124 is provided with an encoder 125, and the measured value of the encoder 125 is transmitted to the sub-controller 123.

The pressure and flow rate of the oil that is supplied to the heating unit 20 and the cooling unit 70 are input to the main control unit 121. The main control unit 121 is connected to the sub control unit 123, . A pressure sensor 122 is installed in each pipe connected to the heating unit 20 and the cooling unit 70 in the main control unit 121 and the measured value of the pressure sensor 122 is transmitted to the main control unit 121 .

The measured value of the encoder 125 measuring the operation of the servo motor 124 is transmitted to the sub control unit 123. The sub control unit 123 determines whether the pressure value of the current fluid is lower than the set pressure value, 124 are operated. The servo motor 124 is connected to the gear pump 126 and the gear pump 126 for receiving the rotational power of the servo motor 124 raises the pressure and the flow rate of the fluid which is oil.

The servomotor 124 of the hydraulic pressure supply unit 120 is driven only at the command signal of the pressure and the flow rate of the sub control unit 123 and is driven at a very low RPM in the standby state and the holding pressure, . Since the servo motor 124 is driven only at the command signal of the sub control unit 123 and performs the feedback control by the operation of the sub control unit 123, the power loss can be minimized and the heat generation can be minimized.

Accordingly, the hydraulic pressure supply unit 120 according to the embodiment can reduce the installation cost by not installing a separate cooler due to reduced heat generation, or by mounting only a small size fan cooler. In addition, since the hydraulic tank is reduced by about 1/2 to 1/3 of the conventional one, the external shape of the hydraulic pressure supply unit 120 is reduced, and the maintenance cost and environmental pollution can be prevented by reducing the amount of oil used as the hydraulic oil.

Since the fluid pressure and flow rate are precisely controlled by the servomotor, the noise is very low and it is possible to maintain the pressure less than 60 decibels when the pressure is maintained at high pressure. Further, the feedback control by the pressure sensor 122 and the encoder 125 enables fine control to a pressure of 1% and a flow rate of 1%. In addition, it provides linearity in comparison with the command signal. It has excellent reproducibility. It is convenient to set the fluid pressure and flow rate by digital control method, and it is possible to store or copy the set parameter value.

In addition, the hydraulic pressure supply unit 120 has a linearity in comparison with the command signal, has a function of compensating the pressure and temperature, and has excellent reproducibility. Therefore, the hydraulic pressure supply unit 120 has characteristics of fine control, high response, reproducibility, linearity and low noise.

Hereinafter, a heat treatment method for a transmission plate 10 according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

9 is a flowchart illustrating a heat treatment method for a transmission plate according to an embodiment of the present invention.

2 and 9, a heat treatment method for a transmission plate 10 according to an embodiment of the present invention includes a step of heating a plurality of transmission plates 10 to a predetermined temperature in a heating unit 20 .

The two transmission plates 10 are located between the first upper heating mold 55 and the first lower heating mold 43 and between the second upper heating mold 44 and the second lower heating mold 65 Respectively. 3, the first driving portion 51 is operated by the hydraulic pressure supplied from the hydraulic pressure supply portion 120 to press the first upper heating metal mold 55 downward to thereby drive the transmission plate 10 to the first lower portion And pressurized in the direction toward the heating metal mold 43 and heated.

The second drive unit 61 is operated by the hydraulic pressure supplied from the hydraulic pressure supply unit 120 so as to press the second lower heating metal mold 65 upward so as to move the transmission plate 10 toward the second upper heating metal mold 44 Direction.

At this time, the first lower heating mold 43 and the second upper heating mold 44 are heated to a predetermined temperature by the heating operation of the central heating section 42, The heating mold 55 is heated to the set temperature and the second lower heating mold 65 is heated to the set temperature by the heating operation of the lower heating section 64. [

And transferring the transmission plate 10 heated by the heating unit 20 to the cooling unit 70, as shown in Figs. 5, 7, and 9. Fig. One of the two pressurized and heated two transmission plates 10 is fed between the first upper cooling mold 104 and the first lower cooling mold 92 of the cooling section 70, And is supplied to the space between the second upper cooling metal mold 93 and the second lower cooling metal mold 114.

6 and 9, the steps of cooling the upper and lower sides of the transmission plate 10 after the mold is wrapped. The cooling water supplied through the first upper cooling metal mold 104 is discharged to the outside of the first lower mold through the inner pipe of the first lower cooling metal mold 92 after cooling the transmission plate 10. The cooling water supplied through the second upper cooling metal mold 93 cools the transmission plate 10 and is discharged to the outside of the second lower mold through the inner pipe of the second lower cooling metal mold 114. This causes forced cooling of the transmission plate 10 from high temperature to room temperature.

As described above, according to the present invention, after the transmission plate 10 is heated in the heating unit 20 for tempering, the transmission plate 10 is forcedly cooled by the cooling unit 70, can do. Further, after the carburizing and nitriding of the transmission plate 10, press-tempering is performed once in the heating unit 20, and the cooling press proceeds in the cooling unit 70, so that the defect rate due to springback can be remarkably reduced. In addition, the automation of the production process can increase the production to 2 ~ 4 times compared with the conventional production, and can reduce the production cost.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it will be understood by those skilled in the art that various changes and modifications may be made without departing from the scope of the invention as defined by the appended claims. will be. Accordingly, the true scope of the present invention should be determined by the following claims.

1: Heat treatment device for transmission plate
10: Transmission plate 20: 30: Heating frame part
40: heating fixing part 41: heating fixing body 42: central heating part 43: first lower heating mold 44: second upper heating mold
50: first heating moving part 51: first driving part 52: first rod member 53: first moving body 54: upper heating part 55: first upper heating mold 56: first guide bar
60: second heating moving part 61: second driving part 62: second rod member 63: second moving body 64: lower heating part 65: second lower heating mold 66: second guide bar
70: 80: cooling frame part
90: cooling fixing part 91: cooling fixing body 92: first lower cooling mold 93: second upper cooling mold
100: first cooling moving part 101: first driving part 102: first working rod 103: first operating body 104: first upper cooling mold 105: first guide bar
110: second cooling moving part 111: second power section 112: second working rod 113: second operating body 114: second lower cooling mold 115: second guide bar
[0001] The present invention relates to a hydraulic pump,

Claims (11)

A heating unit surrounding the upper and lower sides of the transmission plate and heating the transmission plate to a predetermined temperature;
A cooling unit that receives the transmission plate heated by the heating unit and places the transmission plate inside the mold and then cools the cooling plate; And
And a hydraulic pressure supply unit for supplying hydraulic pressure to the heating unit and the cooling unit to operate the heating unit and the cooling unit,
The heating unit includes:
A heating frame part having a working space for heating the transmission plate inside;
A heating fixing part fixed to the heating frame part and heating the upper and lower sides facing the transmission plate to a set temperature;
A first heating moving part positioned above the heating fixing part and operated by an oil pressure supplied through the oil pressure supplying part to heat the transmission plate on the heating fixing part; And
And a second heating unit which is located below the heating fixing unit and is operated by the hydraulic pressure supplied through the hydraulic pressure supply unit to heat the transmission plate below the heating fixing unit. Heat treatment apparatus for plates.
delete The apparatus of claim 1,
A heating fixing body fixed to the heating frame part;
A central heating unit fixed to the heating fixing body and heated to a predetermined temperature;
A first lower heating mold positioned above the central heating unit and heated by receiving heat from the central heating unit; And
And a second upper heating die located below the central heating section and being heated by receiving heat from the central heating section.
4. The apparatus according to claim 3, wherein the first heating-
A first driving unit fixed to the heating frame unit and linearly moving the first rod member in a vertical direction by the hydraulic pressure supplied through the hydraulic pressure supply unit;
A first moving body connected to the first rod member and moved in the vertical direction;
An upper heating unit fixed to the first moving body and heated to a predetermined temperature; And
And a first upper heating mold located below the upper heating section facing the first lower heating mold and heated by receiving heat from the upper heating section.
5. The apparatus according to claim 4, wherein the second heating-
A second driving unit fixed to the heating frame unit and linearly moving the second rod member in a vertical direction by the hydraulic pressure supplied through the hydraulic pressure supply unit;
A second moving body connected to the second rod member and moved in the vertical direction;
A lower heating unit fixed to the second moving body and heated to a predetermined temperature; And
And a second lower heating mold positioned above the lower heating section facing the second upper heating mold and heated by receiving heat from the lower heating section.
The refrigerator according to claim 1,
A cooling frame part having a working space inside the transmission plate for cooling the transmission plate;
A cooling and fixing unit which is fixed to the cooling frame unit and whose upper and lower sides facing the transmission plate are cooled to predetermined temperatures;
A first cooling moving part located above the cooling fixing part and operated by an oil pressure supplied through the oil pressure supplying part to cool the transmission plate above the cooling fixing part; And
And a second cooling moving part located below the cooling fixing part and operated by the hydraulic pressure supplied through the hydraulic pressure supply part to cool the transmission plate located below the cooling fixing part, Heat treatment apparatus for plates.
7. The cooling device according to claim 6,
A cooling fixing body fixed to the cooling frame part;
A first lower cooling metal mold located on the upper side of the cooling fixing body and having a channel through which cooling water flows; And
And a second upper cooling metal located below the cooling fixing body and having a channel through which cooling water flows.
8. The cooling device according to claim 7,
A first power section fixed to the cooling frame section and linearly moved in a vertical direction by a hydraulic pressure supplied through the hydraulic pressure supply section;
A first actuating body connected to the first actuating rod and moved up and down; And
And a first upper cooling metal fixed to the first operating body and having a channel through which cooling water flows.
9. The cooling device according to claim 8,
A second power section fixed to the cooling frame section and linearly moved in a vertical direction by a hydraulic pressure supplied through the hydraulic pressure supply section;
A second actuating body connected to the second actuating rod and moved up and down; And
And a second lower cooling metal fixed to the second operating body and having a channel through which cooling water flows.
The method according to claim 6,
And the hydraulic pressure supply part supplies the hydraulic pressure to the first heating and moving part and the first cooling and moving part and the second cooling and moving part.
delete

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