KR101035811B1 - Steel sheet feeder for press hardening process - Google Patents

Abstract

The present invention relates to a steel sheet conveying apparatus for a press hardening process, including a holder member is inserted into the holding steel sheet to be loaded into the heating furnace, and a conveyor for mounting the holder member to orbitally move the holder member up and down, The steel sheet is continuously charged to the upper portion of the heating furnace by the holder member moving in orbit through.

The present invention has the effect of increasing the productivity of the product according to the press hardening process by continuously conveying the steel sheet to the upper end of the heating furnace through the conveyor.

The present invention requires less installation space, so that the available area of the factory can be widened, and the steel sheet is stably transported without being dropped during the transfer, and the safety accident due to the falling of the steel sheet is prevented.

Description

Steel Transfer Apparatus for press hardening process

The present invention relates to a steel sheet conveying apparatus for a press hardening process, and more particularly, to improve productivity by continuously transferring a steel sheet used in a press hardening process to a heating furnace.

In general, a method for manufacturing a press hardened part is obtained by adding a B, Mo, Cr, etc. to improve the hardenability of a steel material at a high temperature of about 900 ° C. above the Ac3 transformation point to completely austenitize the steel sheet, and then It is a method of producing high-strength products by hot forming in one product shape and martensite through rapid cooling.

As is well known, when the steel sheet is heated to a high temperature, the ductility is improved, so the molding is very easy, and thus the steel sheet manufactured through the press hardening process is not only slightly better than the workability of the general steel sheet but also much higher than the high strength steel. .

In addition, since the steel sheet manufactured through the press hardening process has a very high strength (1,400 MPa or more), it is very excellent in terms of specific strength divided by the yield strength by density, which can greatly contribute to the weight reduction of the automobile. It is applied to the ultra high strength demanding parts that are hard to be molded because there is little).

In the press hardening process, in order to transform the steel sheet into full austenite, a condition of heating more than about 900 ° C. or more is required, and automation must be performed for efficiency of the process.

In the press product manufacturing process according to the conventional press hardening process, as shown in FIG. 1, the wound steel sheet coil C is unwound and transported, followed by the blank device B, the heating furnace F, and the press device P. The press will produce a press product.

At this time, the heating furnace (F) is a vertical heating furnace (F) having a high heating efficiency and a small installation space, and vertically raises and lowers the steel plate placed on the upper portion of the steel plate at about 900 ° C. at which the Ac3 transformation point or more is lowered. It is heated uniformly at high temperature.

And between the blank device (B) and the heating furnace (F) is provided with a robot arm (R) for placing a blank steel plate of a predetermined shape to the upper portion of the heating furnace (F), as shown in Figure 2 robot arm ( The steel plate 1 is gripped through R), and the steel plate 1 is moved one by one to the charging opening of the upper end of the heating furnace F, and charged.

However, as described above, moving the steel sheet 1 to the upper end of the heating furnace F using the robot arm R requires moving the steel sheet 1 one by one to charge the steel sheet 1 of the heating furnace F. It takes a long time to move to the top, there was a problem that the productivity is lowered.

In addition, the robot arm (R) has a risk of falling of the steel sheet (1) in the process of holding the steel plate (1) at a low position to move to the upper end of the heating furnace (F) due to the fall of the steel plate (1) There has been a problem that a decrease in productivity and damage to life can occur.

In addition, the robot arm (R) has a hassle to move the steel plate 1 to the upper portion of the heating furnace (F), and then to put the steel plate 1 back into the charging device of the heating furnace (F), the steel sheet (1) Since the movement path of the must be secured, there was a closure that occupies a large space for installation.

SUMMARY OF THE INVENTION An object of the present invention is to provide a steel sheet conveying apparatus for a press hardening process to continuously and stably transfer a steel sheet to an upper end of a heating furnace to increase productivity.

Another object of the present invention is to provide a steel sheet conveying apparatus for a press hardening process that can be installed in a narrow installation space to increase the available area of the factory.

The object of the present invention is a holder member which is inserted into and hold a steel sheet charged into a heating furnace;

The holder member is to be solved by providing a steel sheet conveying device for a press hardening process including a conveyor for moving the holder member up and down.

The present invention has the effect of increasing the productivity of the product according to the press hardening process by continuously conveying the steel sheet to the upper end of the heating furnace through the conveyor.

The present invention requires less installation space, so that the available area of the factory can be widened, and the steel sheet is stably transported without being dropped during the transfer, and the safety accident due to the falling of the steel sheet is prevented.

When described in detail with reference to the accompanying drawings a preferred embodiment of the present invention.

3 is a schematic view showing the configuration of the present invention, a plurality of holder members are provided on the conveyor and the holder member is orbitally moved up and down along the conveyor, while showing an example of continuously conveying the blanked steel sheet to the top of the heating furnace have.

Figure 4 is an enlarged perspective view of the main portion showing an embodiment of the present invention, it shows an example provided with a guide portion for guiding the entry of the steel plate to the inlet side to enter the steel plate.

Figure 5 is a schematic diagram showing another embodiment of the present invention, the guide block is rolled in contact with one surface of the steel sheet in a holder block provided at intervals between which the steel sheet is inserted and at least one of the guide rolls is connected to the motor The example which moves a steel plate by rotating is shown.

6 is an enlarged perspective view illustrating main parts of another embodiment of the present invention, and illustrates an example in which the steel sheet is moved from the holder member of the present invention to the clamp member on the upper part of the heating furnace.

FIG. 7 is a view illustrating an embodiment of a heating furnace in which the clamping means of FIG. 6 is provided, and illustrates an example in which a spiral conveyor is orbitally moved in the heating furnace.

Hereinafter, as shown in FIG. 3, the holder member 10 of the present invention sandwiches and holds the steel sheet 1 charged into the heating furnace F, and is mounted on the conveyor 20 to move orbitally while moving the track ( It transfers the steel plate 1 to the upper part of F).

The steel sheet 1 is used in a press hardening process and is based on using the steel sheet 1 blanked by the blank device B.

The conveyor 20 includes a belt conveyor including a drive pulley and a driven pulley, a belt with both ends wound on a drive pulley and a driven pulley, a drive sprocket and a driven sprocket, and both ends of a chain wound on a drive sprocket and a driven sprocket, respectively. It is to be understood that the present invention includes any known conveyor structure, including chain conveyors, etc., in addition to conveying objects in orbital movement.

The conveyor 20 is installed vertically at one side of the heating furnace F into which the steel sheet 1 is charged.

On the other hand, the holder member 10 is a belt conveyor in the conveyor 20, in the case of a belt conveyor, in the case of a chain conveyor, the base mounting portion 11 mounted to the moving part 21 to move orbit like a chain,

It includes a first holder block 12 and the second holder block 13 mounted on one surface of the base mounting portion 11 spaced apart.

The holder member 10 is provided in plural to be spaced apart from the moving part 21 of the conveyor 20 to transport the plurality of steel sheets 1 to the upper portion of the heating furnace F in one orbital movement. It is desirable to increase the transfer efficiency.

In addition, the steel sheet 1 is transported and inserted between the first holder block 12 and the second holder block 13. As shown in FIGS. 4 to 5, the first holder block 12 and the first holder block 12 are formed. It is preferable that the guide part 14 is provided in the 2nd holder block 13 in which the steel plate 1 is fitted in the up and down openings, respectively.

The guide portion 14 widens the inlet side into which the steel sheet 1 is fitted to guide the pin holder 14 to be accurately and stably inserted between the first holder block 12 and the second holder block 13.

The steel sheet 1 is blanked through the blank device (B) and then horizontally moved by the horizontal moving device while being inserted into and coupled to the sides of the first holder block 12 and the second holder block 13. .

The first holder block 12 or the second holder block 13 protrudes between the first holder block 12 or the second holder block 13 to protrude between the first holder block 12 and the second holder block 13. It is preferable that at least one or more guide rolls 15 are brought into contact with and rolled between the steel sheets 1 sandwiched between them.

The guide roll 15 reduces the frictional force of the steel sheet 1 between the first holder block 12 and the second holder block 13 to guide the movement of the steel sheet 1 smoothly. 12) and the second holder block 13 is provided on the surface facing each other are provided with a plurality of spaced apart from each other.

In addition, the holder member 10 is provided with a plate moving device 16 for moving the steel sheet 1 sandwiched between the first holder block 12 and the second holder block 13 to the upper side of the heating furnace F. It is preferable to be able to move the steel plate 1 to the clamp member 30 of the heating furnace (F) to be described later.

The plate moving device 16 includes a motor 16a which is connected to at least one of the guide rolls 15 and rotates the guide roll 15 which is connected to at least one of the guide rolls 15. Is connected to 15 to transmit the rotational force of the motor (16a) to the guide roll (15).

The plate moving device 16 rotates the guide roll 15 with the motor 16a to push and move the steel sheet 1 by the frictional force caused by the contact between the guide roll 15 and the steel sheet 1.

On the other hand, the present invention is clamped in a standing state, the steel plate 1 is moved to the upper portion of the heating furnace (F) by the plate moving device 16 as shown in Figure 6, by the lifting device 40 It further includes a clamp member 30 to move up and down in the heating furnace (F).

The clamp member 30 includes a fixed clamp block 31 mounted to protrude on one surface of the base portion 40a included in the elevating device 40;

And a moving clamp block 32 disposed spaced apart from the fixed clamp block 31 and moved by the block moving device 33.

That is, when the steel plate 1 is interposed between the fixed clamp block 31 and the moving clamp block 32 in a standing state, the moving clamp block 32 is moved to the block moving device 33 to clamp the steel plate 1. will be.

The block moving device 33 includes an actuator 33a which is connected to one side of the moving clamp block 32 and moves the moving clamp block 32 by moving the rod forward and backward as an external signal is applied. The actuator 33a may employ a pneumatic cylinder or a motor 16a for applying the external electric signal to move the rod forward and backward, and other known modifications for moving the rod forward and backward may also be applied.

The elevating device 40 which heats the steel sheet 1 while repeatedly lowering the clamp member 30 by raising and lowering the heating element F, and returns the clamp member 30 to its original position while raising and lowering the heating. Spiral conveyor 41 is disposed in the main body of the furnace (F) to spirally move the clamp member (30) from the upper entry port of the heating furnace (F) to the lower outlet side, the clamp member (30) Is fixed to the moving part 21 to move the spiral track in the spiral conveyor (41).

The structure of the spiral conveyor 41 is described in the above-described conveyor 20, the description of the more detailed configuration is omitted.

Steel plate 1 is arranged on the inner wall of the heating furnace (F) while moving in a spiral form from the top of the heating furnace (F) along the spiral conveyor 41 in a fixed state with the clamp member (30) It is heated uniformly due to the flames generated from the fireballs.

The spiral conveyor 41 is designed to make the size of the heating furnace F compact by ensuring a sufficient moving distance for heating the steel sheet 1 to a high temperature of about 900 ° C. which is higher than Ac3 transformation point within a minimum size. Since the installation area occupied by the heating furnace F is reduced compared to the conventional linear heating furnace F method, the available area of the factory can be increased, and the entire area is uniformly heated when the steel sheet 1 is heated. By making the same change the product quality has a beneficial effect.

The process of heating to a high temperature of about 900 ° C., which is equal to or greater than the Ac3 transformation point, inside the heating furnace F using the present invention in a press republication process is as follows.

The steel sheet 1, once released from the coil wound up and blanked by the blank device B, is moved by a horizontal moving device, wherein the first holder block 12 and the second while the holder member 10 is elevated along the conveyor. The holder block 13 is fitted between the first holder block 12 and the second holder block 13 while coinciding with the moving direction of the horizontal moving device.

In addition, the holder member 10 is elevated along the conveyor while the steel sheet 1 is sandwiched between the first holder block 12 and the second holder block 13 so that the steel sheet 1 at the pulley or the sprocket portion, that is, the portion that is pivoted. Will be placed vertically.

As described above, when the steel sheet 1 is vertically positioned at the point where the holder member 10 is pivoted, the steel sheet 1 is clamped 30 positioned above the heating furnace F by the plate moving device 16. Is moved to.

The clamp member 30 is to be moved in a spiral along the lifting device, that is, the spiral conveyor 41 to the lower outlet side of the heating furnace (F) by clamping the moved steel plate (1) in the vertical standing state.

Then, the steel sheet 1 is uniformly heated to a high temperature of about 900 ° C., which is equal to or more than the Ac3 transformation point while moving helically in the heating furnace F while being fixed to the clamp.

Since the above-described process is repeated sequentially while the plurality of holder members 10 orbitally move through the conveyor, the transfer time of the steel sheet 1 charged into the heating furnace F is shortened, so that the productivity of the product manufactured by the press republication process is reduced. It is increased.

The present invention is not limited to the above-described embodiments, but can be modified and practiced in various ways within the scope not departing from the gist of the present invention, which is understood to be included in the configuration of the present invention.

1 is a schematic view showing a conventional press hardening process

Figure 2 is a schematic diagram showing a steel sheet charging process in the conventional press hardening process

3 is a schematic diagram showing a configuration of the present invention;

Figure 4 is an enlarged perspective view of the main portion showing an embodiment of the present invention

5 is a schematic view showing another embodiment of the present invention

Figure 6 is an enlarged perspective view of the main portion showing another embodiment of the present invention

7 is a view showing an embodiment of a heating furnace provided with the clamping means of FIG.

* Description of the major symbols in the drawings *

10: holder member 11: base mounting portion

12: first holder block 13: second holder block

14: guide portion 15: guide roll

16: plate moving machine 20: conveyor

21: moving part 30: clamp member

40: lifting device

Claims (9)

A holder member to which the steel sheet charged into the heating furnace is inserted and held; The holder member is mounted to include a conveyor for moving the holder member up and down, The holder member is a base mounting portion mounted to the moving portion to move the track in the conveyor; And a first holder block and a second holder block mounted spaced apart from one surface of the base mounting portion. delete The method according to claim 1, The steel sheet transfer apparatus for the press hardening process, characterized in that the guide portion is provided to open up and down, respectively, on the inlet side into which the steel sheet is fitted in the first holder block and the second holder block. The method according to claim 1, The first holder block or the second holder block is provided with at least one guide roll protruding between the first holder block or the second holder block in contact with the steel sheet sandwiched between the first holder block and the second holder block. Steel sheet conveying apparatus for the press hardening process, characterized in that. The method according to claim 1, The holder member is provided with a plate moving device for moving the steel sheet sandwiched between the first holder block and the second holder block to the upper side of the heating furnace, characterized in that the steel sheet transfer device for a press hardening process. The method according to claim 5, The plate moving device may include: a guide roll protruding between a first holder block or a second holder block, the guide roll being in contact with the steel sheet sandwiched between the first holder block and the second holder block, and provided with at least one roll; And a motor for rotating a guide roll connected to at least one of the guide rolls. The method according to claim 5, And clamping the steel sheet moved to the upper portion of the heating furnace by the plate moving device in a standing state at the upper portion of the heating furnace, and further including a clamp member which is operated up and down in the heating furnace by the lifting device. Steel plate feeder for press hardening process. The method of claim 7, The clamp member includes a fixed clamp block protruded on one surface of the base portion included in the elevating device; And a moving clamp block disposed spaced apart from the fixed clamp block and moved by a block moving device. The method according to claim 7 or 8, The elevating device is a steel sheet conveying apparatus for a press hardening process, characterized in that it uses a spiral conveyor disposed in a spiral structure inside the main body of the heating furnace to move the clamp member in a spiral orbit from the upper entrance to the lower outlet of the heating furnace.

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