Press apparatus

Abstract

Provided is a press apparatus which ensures high production efficiency and has less chances of breakdown. Specifically, the press apparatus has a base placed on a floor, and a platform arranged over the base to face the base and move up and down. A lower die, on which a steel plate is to be placed, is fixed to the base. An upper die is fixed to the platform to press the plate against the lower die and turn it into an initially formed product through a downward movement of the platform, and to pressure-hold the initially formed product with the lower die. A machining die is supported on the platform to move up and down to machine the initially formed product and form a final product by moving down while pressure-holding the initially formed product.

Claims

1. A press apparatus comprising: a base placed on a floor; a platform arranged over the base to face the base and move up and down; a lower die, which is fixed to the base and on which a steel plate is to be mounted; an upper die fixed to the platform to press the steel plate against the lower die and turn the plate into an initially formed product through a downward movement of the platform, and to pressure-hold the initially formed product with the lower die; a machining die supported on the platform to move up and down and to machine the initially formed product and form a final product by moving downward while pressure-holding the initially formed product between the upper and lower dies; a plurality of rods, which are provided around and laterally with respect to the machining die, so as to extend vertically, the plurality of rods moving downward synchronously with the downward movement of the machining die; a plurality of shock absorber means, which are fixed on the base at positions corresponding to the plurality of rods, so as to absorb a shock caused when the steel plate is pressed and a shock caused when the initially formed product is machined; and a plurality of hydraulic press machines arranged around and oriented laterally with respect to the upper die, the plurality of hydraulic press machines further being arranged between a portion of the platform and the machining die, such that the plurality of hydraulic press machines move the machining die downward, wherein: the shock absorber means are arranged such that lower ends of the rods contact with the shock absorber means when the steel plate is pressed, and when the initially formed product is machined by the machining die that is moving down, the shock absorber means are compressed by the rods so as to absorb the shock caused by the machining of the initially formed product.

2. The press apparatus of claim 1, wherein: the upper die is provided with a horizontally-extending through hole and a pierce hole vertically extending from the through hole to a die surface, and the machining die comprises: a plurality of trim dies arranged around the upper die to cut off outer peripheral portions of the initially formed product, a pierce die arranged in the pierce hole to move forward and backward and make a hole through the initially formed product, and a coupling member inserted in the through hole to move up and down and connected to an upper end of the pierce die so as to couple at least two of the trim dies facing each other.

3. The press apparatus of claim 1, wherein the hydraulic press machines support the machining die such that the machining die is capable of moving upward and downward.

4. A press apparatus comprising: a base placed on a floor; a platform arranged over the base to face the base and move up and down; a lower die which is fixed to the base and on which a steel plate is to be mounted; an upper die fixed to the platform to press the steel plate against the lower die and turn the plate into an initially formed product through a downward movement of the platform, and to pressure-hold the initially formed product with the lower die; a machining die supported on the platform to move up and down and to machine the initially formed product and form a final product by moving downward while pressure-holding the initially formed product between the upper and lower dies; a plurality of rods, which are provided around and laterally with respect to the machining die, so as to extend vertically, and the plurality of rods moving downward synchronously with the downward movement of the machining die; and a plurality of shock absorber means, which are fixed on the base at positions corresponding to the plurality of rods, so as to absorb a shock caused when the steel plate is pressed and a shock caused when the initially formed product is machined, wherein: the shock absorber means are arranged such that lower ends of the rods contact with the shock absorber means when the steel plate is pressed, the machining die includes a plurality of trim dies which are arranged around, and laterally with respect to, the upper die, and which cut off outer peripheral portions of the initially formed product, each of the plurality of rods is fixed to an outer peripheral surface, in a lateral direction, of an associated one of the trim dies, so as not to make a relative movement with respect to the associated one of the trim dies, and the lower ends of each of the plurality of rods are positioned below a die surface of the upper die.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) FIG. 1 illustrates a press apparatus according to an embodiment of the present invention.

(2) FIG. 2 illustrates a state where an initially formed product has just been formed by pressing a steel plate with an upper die and a lower die with a platform moved down from the position illustrated in FIG. 1.

(3) FIG. 3 illustrates a state where a final product has just been obtained by machining the initially formed product with a machining die moved further downward from the position illustrated in FIG. 2.

(4) FIG. 4 illustrates a state where the machining die and the platform have just moved up from their positions illustrated in FIG. 3.

(5) FIG. 5 illustrates a state where the final product has been lifted up by a cushion die from its position on the lower die as illustrated in FIG. 4.

DETAILED DESCRIPTION OF VARIOUS EMBODIMENTS

(6) Various embodiments of the present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which some, but not all embodiments of the inventions are shown. Indeed, these inventions may be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will satisfy applicable legal requirements. The term or is used herein in both the alternative and conjunctive sense, unless otherwise indicated. The terms illustrative and exemplary are used to be examples with no indication of quality level. Like numbers refer to like elements throughout.

(7) FIG. 1 illustrates a press apparatus 1 according to an embodiment of the present invention. The press apparatus 1 is intended to form a pressed product by a hot pressing method, and has a base 2 placed on the floor F, and a platform 3 arranged over the base 2 to move up and down under the control of a servomotor (not shown).

(8) A housing space 20 is formed in a central portion of the base 2. A die cushion 2a is housed in the housing space 20.

(9) A plurality of base pin holes 2b are provided to be open at a central portion of the upper surface of the base 2, and extend vertically to pass through the upper surface of the base 2 and reach the housing space 20.

(10) A lower die 4, on which a steel plate 10 heated to a hardening temperature is to be mounted, is fixed to the central portion of the upper surface of the base 2. The lower die 4 is provided, at its central portion, with a recess 4a which is open upward.

(11) An upper half of the inner peripheral surface of the recess 4a expands horizontally outward with respect to a lower half thereof, thereby creating a step 4b between the upper and lower halves of the recess 4a.

(12) A cushion die 12, of which the shape matches that of the lower half of the recess 4a, is fitted into the lower half of the recess 4a so as to allow the cushion die 12 to move forward and backward vertically. The cushion die 12 is provided with a through hole 12a that has been cut through its central portion to run vertically.

(13) A plurality of lower die pin holes 4c corresponding to the respective base pin holes 2b are provided through the bottom of the recess 4a. A cushion pin 11 is fitted into each of the base pin holes 2b and a corresponding one of the lower die pin holes 4c so as to slide up and down through the holes 2b and 4c.

(14) Each of the cushion pins 11 is interposed between the cushion die 12 and the die cushion 2a. The upward movement of the cushion pins 11 causes the cushion die 12 to move forward (or upward) and reach a position in which the upper end face of the cushion die 12 is flush with the upper end face of the lower die 4. The backward movement of the cushion pins 11 causes the cushion die 12 to move backward (or downward) and reach a position in which the lower end face of the cushion die 12 is in contact with the bottom face of the recess 4a, and the upper end face of the cushion die 12 is flush with the step 4b. This means that a die surface 4d is formed by the upper end face of the cushion die 12 and the step 4b.

(15) An upper die 5 having a die surface 5a of which a cross section has a protrusion approximately in the middle, is fixed to the platform 3 at such a position as to face the lower die 4.

(16) The upper die 5 is provided with an upper die through hole 5b extending horizontally, and a pierce hole 5c extending vertically from a longitudinal middle of the upper die through hole 5b to the machining surface 5a.

(17) As illustrated in FIG. 2, the upper die 5 is configured to press the heated steel plate 10 against the lower die 4 and turn it into an initially formed product 10a through a downward movement of the platform 3 and is also configured to pressure-hold the initially formed product 10a between the upper die 5 and the lower die 4 for hardening the product 10a.

(18) A plurality of hydraulic press machines 6 are fixed to the platform 3 around the upper die 5. Trim dies 7a extending vertically are supported on the hydraulic press machines 6 so as to move up and down.

(19) An elongated round-bar pierce die 7b is inserted in the pierce hole 5c so as to move forward and backward in the upward and downward directions.

(20) Further, a rod-like coupling member 7c is inserted in the upper die through hole 5b so as to move up and down. A longitudinal middle portion of the coupling member 7c is connected to the upper end of the pierce die 7b. Both of the ends of the coupling member 7c are respectively coupled to two of the trim dies 7a facing each other.

(21) The trim dies 7a and the pierce die 7b form a machining die 7 according to the present invention. While the initially formed product 10a is being pressure-held between the upper die 5 and the lower die 4, the trim dies 7a move down to cut off outer peripheral portions of the initially formed product 10a, and the pierce die 7b moves forward to make a hole in the initially formed product 10a, as illustrated in FIG. 3.

(22) That is, the initially formed product 10a is machined through the downward movement of the machining die 7, thereby obtaining a final product 10b.

(23) A rod 8 is fixed to the side surface of each trim die 7a so as to extend vertically. The lower end of each rod 8 is positioned below the die surface 5a of the upper die 5.

(24) On the other hand, a shock absorber 9 (a shock absorber mean) is fixed to the base 2 at a position corresponding to each rod 8. In pressing the heated steel plate 10 between the upper die 5 and the lower die 4 by moving down the platform 3, the lower end of the rod 8 contacts with the shock absorber 9, and the shock is thus absorbed by the shock absorber 9. Also in machining the initially formed product 10a by the machining die 7 that is moving down, the shock absorber 9 is compressed by the rod 8 to absorb the shock.

(25) Now, it will be described how to form the final product 10b from the heated steel plate 10 using this press apparatus 1.

(26) FIG. 1 illustrates a state where the steel plate 10 heated, for example, in a furnace is loaded between the upper die 5 and the lower die 4 that are now open. In this state, the trim dies 7a is moved upward with respect to the upper die 5, and the pierce die 7b is set back in the upward direction with respect to the upper die 5. Further, the upward movement of the cushion pins 11 causes the cushion die 12 to move forward in the upward direction with respect to the lower die 4, so that the upper end face of the cushion die 12 is now flush with the upper end face of the lower die 4.

(27) From this state illustrated in FIG. 1, the platform 3 is moved down first (as indicated by the arrow X1) as shown in FIG. 2. Then, as the upper die 5 and the lower die 4 press the heated steel plate 10, a central portion of the plate 10 is pressed downward by the die surface 5a of the upper die 5, thus causing the cushion die 12 to gradually move back in the downward direction (as indicated by the arrow X2) against the biasing force of the die cushion 2a. The cushion die 12 soon comes in contact with the bottom face of the recess 4a, when an initially formed product 10a is obtained between the upper die 5 and the lower die 4. At this time, the respective lower ends of the rods 8 are brought into contact with the respective shock absorbers 9, thereby absorbing a shock. After that, the initially formed product 10a is hardened by being pressure-held and quenched between the upper die 5 and the lower die 4.

(28) Then, from their positions shown in FIG. 2, the trim dies 7a are moved down, and the pierce die 7b is moved forward. As a result, as illustrated in FIG. 3, the trim dies 7a cut off the outer peripheral portions of the initially formed product 10a, and the pierce die 7b makes a hole in the initially formed product 10a (as indicated by the arrow X3). At this moment, the trim dies 7a and the pierce die 7b are moved down while upward tension is being applied to the hydraulic press machines 6 by the respective shock absorbers 9. This allows the trim dies 7a and the pierce die 7b to move down when the hydraulic press machines 6 have predetermined uniform hydraulic pressure, and hence allows them to move down smoothly. This prevents the press apparatus 1 from causing a breakdown.

(29) When a predetermined period of time passes since the state shown FIG. 3 has been established, the hardening of the initially formed product 10a is finished between the upper die 5 and the lower die 4, and a final product 10b is obtained. Then, the trim dies 7a and the pierce die 7b are moved upward (as indicated by the arrow X5) by the hydraulic press machines 6, and the platform 3 is moved up to separate the die surface 5a of the upper die 5 from the top face of the final product 10b (as indicated by the arrow X4) as illustrated in FIG. 4.

(30) Thereafter, from their positions shown in FIG. 4, the cushion die 12 is moved forward in the upward direction by the die cushion 2a and the cushion pins 11, and the final product 10b is therefore lifted and removed from the lower die 4 as illustrated in FIG. 5. After that, the final product 10b is unloaded from between the upper die 5 and the lower die 4 (as indicated by the arrow X6).

(31) As can be seen from the foregoing description, according to an embodiment of the present invention, the upper die 5 is fixed to the platform 3, and the trim dies 7a and the pierce die 7b are moved up and down with respect to the platform 3. This thus allows for machining the initially formed product 10a with the trim dies 7a and the pierce die 7b while the initially formed product 10a is being pressure-held between the upper die 5 and the lower die 4, without any need to temporarily move up the platform 3 as in Patent Document 1 in pressure-holding the product. Consequently, the production efficiency is improvable.

(32) Further, unlike Patent Document 1 having a complicated structure in which a support rod, a contact member, and a block are combined together, the structure of the above embodiment is a simple one with no such complicated structure. This prevents an excessive load from being applied to any specific part of the structure during the pressure holding of the product. As a result, breakdowns of the press apparatus 1 are avoidable, and therefore, the frequency of maintenance is reducible.

(33) Furthermore, the shock absorber 9 reduces the swing of the upper die 5, lower die 4, trim dies 7a, and pierce die 7b to be caused when pressing and machining the product. Thus, the load on the press apparatus 1 is further reduced, thereby preventing breakdowns of the press apparatus 1.

(34) In addition, while the outer peripheral portions of the initially formed product 10a are being cut off by the trim dies 7a moving down, the pierce die 7b is simultaneously moved forward, thereby making a hole at an inner portion of the initially formed product 10a. This means that the trimming and the piercing do not have to be performed independently of each other, and the production time is therefore further reducible. Further, there is no need to provide any drive source for moving the pierce die 7b forward or backward. Thus, a low-cost press apparatus 1 is provided.

(35) In the embodiment of the present invention described above, the steel plate 10 is heated to a hardening temperature. However, this is only a non-limiting example. Alternatively, the steel plate 10 may be heated to such a temperature that does not cause hardening when the steel plate 10 is being pressure-held, and such a softened steel plate 10 may be pressed and turned into an initially formed product. Thereafter, this initially formed product may be pressure-held so that it is cooled and hardened, and then be machined during this pressure holding, thereby obtaining a final product.

(36) The press apparatus 1 of the present invention may also be used for pressing a high tensile strength steel plate. That is, a high tensile strength steel plate may be pressed and turned into an initially formed product. Then, this initially formed product may be machined while being pressure-held to obtain a final product. This allows for a reduction in springback of the final product, and the accuracy of the parts is improvable.

(37) Furthermore, in the embodiment of the present invention described above, the coupling member 7c couples two of the trim dies 7a facing each other. However, the coupling member 7c may couple at least two trim dies facing each other among the plurality of trim dies 7a.

(38) Furthermore, the embodiment of the present invention described above has a single pierce die 7b. However, a plurality of pierce dies 7b may be provided as well.

(39) Also, in the embodiment of the present invention described above, the trim dies 7a and the pierce die 7b respectively cut off the outer peripheral portions of the initially formed product 10a and make a hole at the same time. Alternatively, the trim dies 7a alone may be provided to cut off the outer peripheral portions of the initially formed product 10a, with the pierce die 7b omitted. Still alternatively, the pierce die 7b alone may be provided to form a hole in the initially formed product 10a with the trim dies 7a omitted.

(40) Further, in the embodiment of the present invention described above, the rods 8 are fixed to the sides of the trim dies 7a, but may be provided on the platform 3 as long as the rods 8 move downward synchronously with the downward movement of the trim dies 7a.

(41) The present invention is suitable for a press apparatus which presses a steel plate into an initially formed product and machines the initially formed product while pressure-holding the product in order to obtain a final product.

(42) Many modifications and other embodiments of the inventions set forth herein will come to mind to one skilled in the art to which these inventions pertain having the benefit of the teachings presented in the foregoing descriptions and the associated drawings. Therefore, it is to be understood that the inventions are not to be limited to the specific embodiments disclosed and that modifications and other embodiments are intended to be included within the scope of the appended claims. Although specific terms are employed herein, they are used in a generic and descriptive sense only and not for purposes of limitation.