WO2013161464A1 - Die holder for press brake - Google Patents
Die holder for press brake Download PDFInfo
- Publication number
- WO2013161464A1 WO2013161464A1 PCT/JP2013/058218 JP2013058218W WO2013161464A1 WO 2013161464 A1 WO2013161464 A1 WO 2013161464A1 JP 2013058218 W JP2013058218 W JP 2013058218W WO 2013161464 A1 WO2013161464 A1 WO 2013161464A1
- Authority
- WO
- WIPO (PCT)
- Prior art keywords
- mold
- clamp member
- holder
- holder body
- clamping
- Prior art date
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Classifications
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D5/00—Bending sheet metal along straight lines, e.g. to form simple curves
- B21D5/02—Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
- B21D5/0209—Tools therefor
- B21D5/0236—Tool clamping
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D37/00—Tools as parts of machines covered by this subclass
- B21D37/14—Particular arrangements for handling and holding in place complete dies
-
- B—PERFORMING OPERATIONS; TRANSPORTING
- B21—MECHANICAL METAL-WORKING WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D—WORKING OR PROCESSING OF SHEET METAL OR METAL TUBES, RODS OR PROFILES WITHOUT ESSENTIALLY REMOVING MATERIAL; PUNCHING METAL
- B21D5/00—Bending sheet metal along straight lines, e.g. to form simple curves
- B21D5/02—Bending sheet metal along straight lines, e.g. to form simple curves on press brakes without making use of clamping means
- B21D5/0209—Tools therefor
- B21D5/0254—Tool exchanging
Definitions
- This invention relates to a mold holder for a press brake, and more particularly, to a technique that enables the upper mold to be pulled down and removed while preventing the upper mold from dropping when the upper mold is replaced.
- the upper mold of the press brake is attached to the lower part of a mold holder that is detachable from the ram.
- the mold holder is composed of a holder body and a clamp member attached to the front side or the back side of the holder body with a bolt or the like, and the upper mold is sandwiched between the holder body and the clamp member in the front-rear direction. Clamp.
- the clamp member is fastened to the holder body by a fastening member such as a bolt.
- the upper mold when the upper mold is replaced, if the upper mold is released by releasing the clamp of the upper mold by loosening the clamping of the clamping member, the upper mold may fall by its own weight.
- a groove for preventing dropping is provided on the front or back surface of the upper mold, and a protrusion that enters the groove is provided on the holder body or the clamp member. The protrusion is engaged with the wall surface to prevent the fall.
- the upper mold can be reliably prevented from falling, but the upper mold attached to the mold holder cannot be pulled down and removed. Therefore, when exchanging the upper mold, the upper mold is pulled out sideways along the drop-preventing groove and removed.
- the upper mold removal method has the following problems. In other words, when multiple upper molds are mounted side by side on the mold holder, there is no particular problem when replacing all upper molds, but when only the upper molds in the center are to be replaced, they are removed. Even the outer upper molds that are not necessary must be removed, which is cumbersome.
- An object of the present invention is to provide a press brake that can prevent a mold from dropping due to its own weight during normal replacement of the mold, and can be pulled out and removed by simple operation.
- a mold holder is provided.
- a mold holder for a press brake according to the present invention is provided at a lower part of a ram of a press brake to hold a mold, and a holder main body having a vertical mold contact surface with which the mold contacts, A clamp member for clamping the mold between the mold contact surface of the holder main body and the holder main body and the clamp member is provided, and the clamp member can be fastened to the holder main body.
- the stopper member extends from a position located above the mold contact surface in the holder body to the clamp member side, and is inserted into a hole formed in the clamp member, and a tip of the shaft portion And a part of the outer periphery that protrudes to the outer peripheral side of the shaft part, and a form that allows the head to pass through the hole of the clamp member and a form that cannot pass through the hole And can be switched between.
- the mold is brought into contact with the vertical mold contact surface of the holder body, and the clamp member is tightened against the holder body by the fastening member, so that the mold contact surface of the holder body and the clamp member Clamp the mold.
- the head of the stopper member cannot pass through the hole of the clamp member, and is maintained in a state that restricts the clamp member from being separated from the holder body by a certain distance or more. For this reason, even when the clamping member is loosened by the clamping member, for example, when the mold is replaced, the clamping member does not open greatly with respect to the holder body, and the mold is prevented from dropping.
- the clamp member When the head of the stopper member is switched to a state in which the head of the stopper member can pass through the hole of the clamp member, the clamp member can be separated from the holder body by a certain distance or more. In this state, the clamp member can be largely opened with respect to the holder body, and the mold can be pulled out and taken out.
- the hole of the clamp member has a non-circular shape in cross section perpendicular to the axial direction of the hole, and the shaft portion of the stopper member is rotatable about the axis center with respect to the holder body
- the head may be configured to be switchable between a state where it can be inserted into the hole of the clamp member and a state where it cannot be inserted as the shaft portion rotates about the center of the shaft. In this case, the operation of switching between the form in which the head can pass through the hole of the clamp member and the form incapable of passing through is easy, and the configuration is also simple.
- the holder main body is provided with the mold contact surfaces on the front surface and the back surface, respectively, and is clamped with the mold sandwiched between the mold contact surface on the front side of the holder main body as the clamp member.
- a clamp member on the front side and a clamp member on the back side that clamps the mold between the mold contact surface on the back side, and the holder body and the clamp member on the front side as the clamping member A front-side clamping member capable of fastening the front-side clamp member to the holder main body, and a front-side clamping member provided between the holder main body and the rear-side clamp member.
- a clamping member on the back side capable of clamping the clamping member on the side to the holder body, and the stopper member includes a mold contact surface on the front side of the holder body and a clamping member on the front side.
- FIG. 4 is a cross-sectional view taken along the line IV-IV in FIG.
- FIG. 5 is a VV cross-sectional view of FIG. 3.
- FIG. 4 is a sectional view taken along the line IV-IV in FIG. 3 showing a state different from that in FIG. It is explanatory drawing which shows the state which removes the upper metal mold
- FIG. 1 is a front view of a press brake provided with a mold holder according to this embodiment
- FIG. 2 is a partially broken side view thereof.
- the press brake is provided with a table 3 for supporting the lower mold 2 and a ram 6 for supporting the upper mold 4 on the front side of the main body frame 1.
- the table 3 is fixed in position relative to the main body frame 1.
- the ram 6 is supported by a lifting guide mechanism 7 on both left and right sides with respect to the main body frame 1 and is lifted and lowered by a pair of left and right lifting drive mechanisms 8.
- the main body frame 1 is composed of a pair of left and right side plates 1a and a connecting frame portion 1b that connects upper portions of the left and right side plates 1a.
- the left and right lifting drive mechanisms 8 are provided on the connecting frame portion 1b.
- the lower mold 2 has substantially the same left and right length as the table 3, and has a molding recess 2a (FIG. 2) on the upper surface.
- the upper mold 4 is composed of a plurality of upper mold divided bodies 4A, 4B, 4C arranged in the left-right direction, and has a tip portion 4a (FIG. 2) that enters the concave portion 2a of the lower mold 2 at the lower end.
- the upper mold 4 is attached to the ram 6 via a plurality of mold holders 5 arranged in the left-right direction.
- the upper mold divided bodies 4A, 4B, and 4C are attached to the ram 6 via two mold holders 5 respectively.
- a plate work placed on the lower mold 2 by lowering the ram 6 by driving the right and left elevating drive mechanism 8 and causing the tip 4a of the upper mold 4 to enter the recess 2a of the lower mold 2 W is bent into a V shape.
- the elevating guide mechanism 7 includes an elevating guide 7a provided on the side frame 1a of the main body frame 1 along the vertical direction, and a pair of rollers 7b that roll on both front and rear surfaces of the elevating guide 7a.
- the elevating drive mechanism 8 includes a rotation drive source 10 composed of a servo motor or the like, a ball screw mechanism 11, and a belt transmission device 14 that transmits the rotation of the rotation drive source 10 to the ball screw mechanism 11.
- the ball screw mechanism 11 includes a screw shaft 12 extending in the vertical direction and a nut 13 that is screwed into the screw shaft 12 via a ball (not shown) built in.
- the nut 13 is a driving force of the rotary drive source 10. Rotated with. As the nut 13 rotates, the screw shaft 12 moves up and down, and the ram 6 moves up and down along the lifting guide 7a.
- the lift guide mechanism 7 and the lift drive mechanism 8 may have other configurations.
- FIG. 3 is a front view of the upper mold support portion
- FIGS. 4 and 5 are sectional views taken along lines IV-IV and VV in FIG. 3, respectively.
- the mold holder 5 to which the upper mold 4 is attached includes a holder body 16, front and back side clamp members 17A and 17B, front and back side clamping members 18A and 18B, and a stopper member 19 (see FIG. 3).
- the upper mold 4 used in this embodiment is shifted to the front side (in the case of FIGS. 4 and 5) with respect to the distal end portion 4a and extends upward, and the upper part thereof is connected to the mounted portion 4b of the mold holder 5.
- a shoulder portion 4c is formed in the upper and lower central portion below the attached portion 4b, and is projected right above the tip portion 4a.
- a drop-preventing groove 4d extending in the left-right direction (the direction in which the upper mold divided bodies 4A, 4B, 4C are arranged) is formed on the front surface of the mounted portion 4b.
- the holder body 16 has a pressure receiving surface 20 facing upward at the top, and a ram mounting portion 21 extends upward from the front side (front side) of the pressure receiving surface 20.
- the pressure receiving surface 20 is brought into contact with the lower end surface of the ram 6, and the back surface of the ram mounting portion 21 is brought into contact with the front surface of the ram 6.
- a pressing member 22 having an L-shaped cross section is placed on the front surface of the ram mounting portion 21, and the pressing member 22 is pressed against the front surface of the ram 6 by tightening with a bolt 23, whereby the holder main body 16 is mounted on the ram 6.
- the holder main body 16 from the ram 6 includes an upward step portion 24 extending in the left-right direction provided on the front surface of the ram 6 and a hook portion 25 that protrudes rearward from the upper end of the ram mounting portion 21 and can be hooked on the step portion 24. Prevents falling.
- the lower part 16a of the holder body 16 has substantially the same front-rear width as the pressure receiving surface 20, and a mold attachment part 16b extends downward from the front-rear central part on the lower surface of the lower part 16a. And the perpendicular
- die attaching part 16b are made into metal mold
- the pressure transmission surface 27 is positioned within the front-rear width of the pressure receiving surface 20.
- the clamp members 17A and 17B are members that clamp the upper mold 4 with the mold contact surfaces 26A and 26B of the holder body 16, and are respectively clamped by the front side and the back side fastening members 18A and 18B. Fastened to the holder body 16.
- the fastening members 18A and 18B are hexagon socket head bolts.
- the front-side clamp member 17A is inserted through a countersink hole 28 provided in the clamp member 17A from the front (front side), and the male screw of the tightening member 18A.
- the portion 18 ⁇ / b> Aa is fastened to the holder body 16 by being screwed into a screw hole 29 provided in the mold attachment portion 16 b of the holder body 16.
- the screw hole 29 is located above the mold contact surfaces 26A and 26B.
- a coil spring 30A is interposed between the outer periphery of the tightening member 18A and between the clamp member 17A and the mold mounting portion 16b, and the clamp member 17A is elastically tightened to the holder body 16.
- the clamp member 17B on the back side is inserted into the bolt insertion hole 31 provided in the die mounting portion 16b of the holder body 16 from the front, and the clamping member 18B is inserted into the clamping member 18B.
- the male screw portion 18Ba is screwed into the screw hole 32 provided in the clamp member 17B, thereby being fastened to the holder main body 16.
- the bolt insertion hole 31 is located above the mold contact surfaces 26A and 26B.
- a coil spring 30B is interposed between the outer periphery of the tightening member 18B and between the clamp member 17B and the mold mounting portion 16b, so that the clamp member 17B is elastically tightened to the holder body 16.
- the turning operation of the tightening member 18B is performed by a turning operation tool (not shown) inserted through the through hole 33 provided in the front-side clamp member 17A.
- the clamp members 17A and 17B are provided with a fall prevention mechanism 35 that prevents the upper mold 4 from dropping during replacement or the like.
- the fall prevention mechanism 35 is hooked for fall prevention in a groove 37 that is formed in a surface 36 facing the holder main body 16 at the lower end of the clamp members 17A and 17B in the left and right direction.
- the member 38 is provided so as to be able to protrude and retract with respect to the surface 36.
- the fall-preventing hook member 38 is an elongated member that is substantially the same as the clamp members 17A and 17B, and has a slanting surface 38a that retreats with respect to the holder body 16 as it goes downward.
- the partial enlarged view of FIG. 4 shows the fall prevention mechanism 35 of the clamp member 17A on the front side, but the fall prevention mechanism 35 of the clamp member 17B on the back side has the same structure.
- spring members 39 are provided at a plurality of left and right positions between the bottom surface of the groove 37 and the drop-preventing hook member 38, and the drop-preventing catch member 38 jumps out toward the holder body 16. Is biased in the direction.
- flanged bolts 41 are inserted into countersink holes 40 provided at a plurality of left and right positions of the clamp members 17A and 17B from the opposite side of the holder body 16, and the male thread portion of the flanged bolts 41 is inserted. 40a is screwed onto the fall-preventing catch member 38.
- the flange portion 41 b of the flanged bolt 41 is engaged with the stepped surface 40 a of the counterbore 40, so that the drop-preventing hook member 38 does not protrude beyond the surface 36 more than a certain amount.
- a collar 42 is fitted on the outer periphery of the flanged bolt 41, and the collar 42 defines the distance from the flange portion 41b to the drop-preventing catch member 38 to be constant.
- the stopper members 19 are arranged at a plurality of left and right places (two places in this example) at the same height as the fastening members 18A and 18B.
- 7A is a cutaway side view of the lower part of the mold holder 16
- FIG. 7B is a view taken along the arrow VIIB
- FIG. 8 is a rear view of a part of the clamp member on the back side.
- FIG. 7A corresponds to a section taken along the line VIIA-VIIA in FIG.
- the stopper member 19 is a member that restricts the clamp members 17A and 17B from being separated from the holder body 16 by a predetermined distance or more in a state where the clamp members 17A and 17B are released from the tightening members 18A and 18B.
- the position of both the front-side and back-side clamp members 17A and 17B is regulated by one stopper member 19, but the stopper member 19 that regulates the position of the front-side clamp member 17A and the back-side A stopper member 19 that restricts the position of the clamp member 17B may be provided separately.
- the stopper member 19 of this embodiment has a shaft portion 51 extending in the front-rear direction, and heads 52A and 52B formed at the front end and the rear end of the shaft portion 51, respectively.
- the shaft portion 51 is inserted into a through hole 50 formed in the mold attachment portion 16b of the holder body 16, and both ends extend to the front, that is, the front side clamp member 17A and the rear side, ie, the back side clamp member 17B. ing.
- the heads 52 ⁇ / b> A and 52 ⁇ / b> B have a part of the outer periphery that protrudes more outward than the shaft 51.
- the through hole 50 is located above the mold contact surfaces 26A and 26B of the mold attachment portion 16b. The movement of the stopper member 19 in the axial direction is restricted by a pair of front and rear C rings 53 fitted to the outer periphery of the shaft portion 51.
- the heads 52A and 52B have a non-circular shape, for example, an oval shape, as viewed from the direction orthogonal to the axial direction.
- a hexagonal hole 19a for turning operation is formed on the end face of the head 52A on the front side.
- an axial groove 19b that engages with a ball 58a of a ball plunger 58, which will be described later, is formed on the outer peripheral surface of the long diameter portion of the head portion 52B on the back side.
- the front-side clamp member 17A has a circular recess 55A formed on the front surface corresponding to the stopper member 19, and a non-circular hole 56A penetrating rearward from the bottom surface of the recess 55A.
- the non-circular hole 56 ⁇ / b> A is an oval that is slightly larger than the head 52 ⁇ / b> A of the stopper member 19.
- the front end portion of the shaft portion 51 of the stopper member 19 is inserted into the non-circular hole 56A, and the head portion 52A is located in the recess 55A.
- a slight front-rear clearance is provided between the bottom surface of the recess 55A and the head 52A.
- the gap dimension ⁇ is, for example, about 1 mm.
- the stopper member 19 when the stopper member 19 is viewed from the axial direction, the direction of the head 52A intersects the direction of the noncircular hole 56A. Therefore, the head 52A is engaged with the bottom surface of the recess 55A, and the clamp member 17A is restricted from being separated from the holder body 16 by the gap dimension ⁇ or more.
- the stopper member 19 is rotated about 90 ° about the axis center so that the orientation of the head 52A coincides with the orientation of the non-circular hole 56A, the head 52A can be inserted through the non-circular hole 56A, and the clamp member 17A is moved forward. Can be pulled out.
- the back side clamp member 17B has a circular recess 55B formed on the back surface corresponding to the stopper member 19, and a non-circular hole 56B penetrating forward from the bottom surface of the recess 55B.
- the non-circular hole 56 ⁇ / b> B is an oval that is slightly larger than the head 52 ⁇ / b> B of the stopper member 19.
- the rear end portion of the shaft portion 51 of the stopper member 19 is inserted into the non-circular hole 56B, and the head portion 52B is located in the recess 55B.
- a slight front-rear direction gap is provided between the bottom surface of the recess 55B and the head portion 52B.
- the gap dimension ⁇ is, for example, about 1 mm.
- the stopper member 19 when the stopper member 19 is viewed from the axial direction, the direction of the head 52B of the stopper member 19 intersects the direction of the non-circular hole 56B. Therefore, the head 52B is engaged with the bottom surface of the recess 55B, and the clamp member 17B is restricted from being separated from the main body holder 16 by the gap dimension ⁇ or more.
- the stopper member 19 is rotated about 90 ° about the axis center so that the orientation of the head 52B coincides with the orientation of the non-circular hole 56B, the head 52B can be inserted through the non-circular hole 56B, and the clamp member 17B is moved backward. Can be pulled out.
- the ball plunger 58 is attached to the upper part of the clamp member 17B on the back side by a nut 47.
- the tip of the ball plunger 58 protrudes into the recess 55B, and the ball 58a at the tip engages with the axial groove 19b of the head 52B of the stopper member 19.
- the direction of the heads 52A and 52B of the stopper member 19 is stably maintained in a state intersecting with the direction of the non-circular holes 56A and 56B.
- a turning operation tool (not shown) is inserted into the hexagonal hole 19a in which the head portion 52A on the front side is formed and turned, the ball 58a gets over the axial groove 19b and the stopper member 19 can be rotated.
- the attached portion 4b of the upper mold 4 is applied to the front mold contact surface 26A, and With the upper end surface of the shoulder 4c in contact with the pressure transmission surface 27, the upper mold 4 is pressed against the mold contact surface 26A by the front-side clamp member 17A and clamped.
- the clamp member 17A is fastened and fixed to the holder body 16 by the fastening member 18A.
- the catching member 38 for preventing the fall of the clamp member 17A protrudes from the surface 36 of the clamp member 17A facing the holder body 16 by the biasing force of the spring member 39 (FIG. 6A), and the upper die 4 is dropped. It enters the prevention groove 4d.
- the clamping member 18 ⁇ / b> A is loosened and the clamp of the upper mold 4 by the clamp member 17 ⁇ / b> A is released. Then, the upper mold 4 is removed from the mold holder 5 by sliding the upper mold 4 left or right along the length direction of the drop preventing groove 4 d. Even if the tightening member 18A is loosened, the engagement between the head 52A of the stopper member 19 and the bottom surface of the recess 55A of the clamp member 17A prevents the clamp member 17A from moving away from the holder body 16 beyond the clearance dimension ⁇ . The fall prevention catch member 38 of the clamp member 17A is not detached from the fall prevention groove 4d of the mold 4. Therefore, the upper mold 4 can be reliably prevented from falling.
- the method for removing the upper mold 4 is to replace all of the plurality of upper mold divided bodies 4A, 4B, 4C arranged in the left-right direction or to replace the upper mold divided bodies 4A, 4C located on both sides of the arrangement. Performed when replacing.
- the upper mold part 4B may be removed as follows.
- the stopper member 19 is rotated about 90 ° around the axis center, and the orientation of the head 52A of the stopper member 19 is set to the non-circular shape of the clamp member 18A.
- the direction of the hole 56A is matched.
- the head 52A can be inserted through the non-circular hole 56A.
- the clamp member 18A Pull forward.
- the head 52A is fitted into the non-circular hole 56A.
- the upper mold divided body 4 ⁇ / b> B is pulled downward and removed from the mold holder 5.
- the mounted portion 4b of the upper mold divided body 4B is inserted between the mold mounting section 16b of the main body holder 16 and the clamp member 17A, and the clamp member 17A is inserted by the tightening member 18A.
- the holder body 16 is tightened, and the upper mold divided body 4B is pressed against the mold contact surface 26A of the holder body 16 by the clamp member 17A and clamped.
- the stopper member 19 is rotated so that the direction of the head 52A of the stopper member 19 intersects the direction of the non-circular hole 56A of the clamp member 17A. Thereby, the clamp member 17A is not separated from the holder body 16 by a certain distance or more.
- Insertion of the mounted portion 4b of the upper mold divided body 4B between the mold mounting portion 16b and the clamp member 17A may be performed while the clamp member 17A is pulled out forward, but the stopper member 19 moves the clamp member 17A. It may be performed after the position is regulated. In this case, the attached portion 4b of the upper mold divided body 4B pushes the inclined surface 38a of the fall-preventing catch member 38 from below, so that the fall-preventing catch is resisted against the urging force of the spring member 39 (FIG. 6A). The member 38 is pushed into the groove 37.
- the mold holder 5 holding the upper mold divided body 4B to be replaced is temporarily released from the function of the stopper member 19 by human operation, so that only the upper mold divided body 4B is moved downward. Can be removed and removed. Therefore, the replacement work is easy.
- the mold holder 5 can also mount the upper mold 4 on the back side of the mold mounting portion 16 b.
- the clamp member on the back side is placed in a state where the mounted portion 4b of the upper mold 4 is brought into contact with the mold contact surface 26B on the back side and the upper end surface of the shoulder portion 4c is in contact with the pressure transmission surface 27.
- the upper mold 4 is pressed against the mold contact surface 26B by 17B and clamped.
- the clamp member 17B is fastened and fixed to the holder body 16 by the fastening member 18B. In this attached state, the drop-preventing hook member 38 of the clamp member 17B has entered the drop-preventing groove 4d of the upper mold 4.
- the replacement of the upper mold 4 is performed in the same manner as when the upper mold 4 is mounted on the front side of the mold mounting portion 16b. That is, by simply loosening the tightening member 18B, the upper mold 4 is slid to the left or right to be removed from the mold holder 5, and the function of the stopper member 19 is temporarily released by an artificial operation, so that an arbitrary There is a method (FIG. 10B) in which only the upper mold divided bodies 4A, 4B, 4C are removed downward and removed from the mold holder 5. Since the operation sequence and operation are the same as described above, description thereof is omitted to avoid repetition.
- the mold holder 5 is configured such that the upper mold 4 is brought into contact with the vertical mold contact surfaces 26A and 26B of the holder body 16 and the holder body 16 is fixed to the holder body 16 by the fastening members 18A and 18B.
- the upper mold 4 is clamped between the mold contact surfaces 26A and 26B of the holder body 16 and the clamp members 17A and 17B.
- the heads 52A and 52B of the stopper member 19 cannot pass through the non-circular holes 56A and 56B of the clamp members 17A and 17B, and the clamp members 17A and 17B are fixed with respect to the holder body 16. It is maintained in a state that regulates the separation beyond the distance.
- the clamping members 17A and 17B are not greatly opened with respect to the holder main body 16.
- the mold 4 is prevented from falling.
- the heads 52A and 52B of the stopper member 19 are switched to a state where they can pass through the non-circular holes 56A and 56B of the clamp members 17A and 17B, the clamp members 17A and 17B are separated from the holder body 16 by a certain distance or more. Will be able to. In this state, the clamp members 17A and 17B can be opened widely with respect to the holder body 16, and the upper mold 4 can be pulled out and taken out.
- the upper mold 4 is prevented from dropping due to its own weight when the upper mold 4 is replaced.
- the upper mold 4 can be simply operated by switching the form of the stopper members 17A and 17B.
- the mold 4 can be removed by removing it downward.
- exchange are carried out. It can be pulled out and removed.
- the stopper member 19 can not pass through a form in which the head portions 52A and 52B can pass through the non-circular holes 56A and 46B of the clamp members 17A and 17B only by rotating the shaft portion 51 around the axis center. Since it can be switched to the form, the switching operation is simple. Also, the configuration for switching is simple.
- This mold holder 5 can selectively mount the upper mold 4 on either the front side or the back side of the mold mounting portion 16b.
- the stopper member 19 is shared for both the case where the upper die 4 is attached to the front side and the case where the upper die 4 is attached to the back side, so that the number of parts can be reduced.
- the operation of switching the form of the stopper member 19 is the same for the case where the upper mold 4 is attached to the front side and the case where the upper mold 4 is attached to the rear side, so that the operation is easy.
- the stopper member 19 can pass the head portions 52A and 52B through the non-circular holes (holes) 56A and 56B of the clamp members 17A and 17B by rotating the shaft portion 51 around the axis center.
- the structure of the mechanism which switches a form is not limited to this.
- the heads 52A and 52B have a structure that expands and contracts or folds, and the heads 52A and 52B can pass through the holes 56A and 56B when the heads 52A and 52B are contracted. It is good also as a structure which cannot pass.
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- Engineering & Computer Science (AREA)
- Mechanical Engineering (AREA)
- Bending Of Plates, Rods, And Pipes (AREA)
- Mounting, Exchange, And Manufacturing Of Dies (AREA)
- Moulds For Moulding Plastics Or The Like (AREA)
- Fittings On The Vehicle Exterior For Carrying Loads, And Devices For Holding Or Mounting Articles (AREA)
Abstract
Description
この場合、頭部がクランプ部材の孔を通ることが可能な形態と通ることが不可能な形態とに切り換える操作が簡単であり、構成も簡単である。 In this invention, the hole of the clamp member has a non-circular shape in cross section perpendicular to the axial direction of the hole, and the shaft portion of the stopper member is rotatable about the axis center with respect to the holder body The head may be configured to be switchable between a state where it can be inserted into the hole of the clamp member and a state where it cannot be inserted as the shaft portion rotates about the center of the shaft.
In this case, the operation of switching between the form in which the head can pass through the hole of the clamp member and the form incapable of passing through is easy, and the configuration is also simple.
図1はこの一実施形態にかかる金型ホルダを備えたプレスブレーキの正面図、図2はその一部破断側面図である。このプレスブレーキは、本体フレーム1の正面側に、下金型2を支持するテーブル3と、上金型4を支持するラム6とが設けられている。テーブル3は、本体フレーム1に対し位置固定である。ラム6は、本体フレーム1に対して左右両側部で昇降ガイド機構7により昇降可能に支持され、左右一対の昇降駆動機構8により昇降駆動される。本体フレーム1は、左右一対の側板1aと、これら左右の側板1aの上部同士を連結する連結フレーム部1bとで構成され、連結フレーム部1bに前記左右の昇降駆動機構8が設けられている。 An embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a front view of a press brake provided with a mold holder according to this embodiment, and FIG. 2 is a partially broken side view thereof. The press brake is provided with a table 3 for supporting the
4 上金型
4A,4B,4C 上金型分割体
5 金型ホルダ
6 ラム
16 ホルダ本体
17A 正面側のクランプ部材
17B 背面側のクランプ部材
18A 正面側の締付部材
18B 背面側の締付部材
19 ストッパ部材
26A 正面側の金型接触面
26B 背面側の金型接触面
51 軸部
52A,52B 頭部
56A,56B 非円形孔 2
Claims (3)
- プレスブレーキのラムの下部に設けられて金型を保持する金型ホルダであって、
前記金型が接触する垂直な金型接触面を有するホルダ本体と、
このホルダ本体の前記金型接触面との間で金型を挟んでクランプするクランプ部材と、
前記ホルダ本体と前記クランプ部材との間に設けられ、前記クランプ部材を前記ホルダ本体に対して締付け可能な締付部材と、
この締付部材による締付けが解除された状態で、前記ホルダ本体に対して前記クランプ部材が一定距離以上離れることを規制するストッパ部材とを備え、
このストッパ部材は、前記ホルダ本体における前記金型接触面よりも上方に位置する箇所から前記クランプ部材側へ延び、前記クランプ部材に形成された孔に挿通される軸部と、この軸部の先端に形成されて外周の一部分が軸部よりも外周側に張り出した頭部とを有し、この頭部が、前記クランプ部材の前記孔を通ることが可能な形態と通ることが不可能な形態とに切換自在である、
ブレスブレーキの金型ホルダ。 A mold holder provided at the lower part of the ram of the press brake to hold the mold,
A holder body having a vertical mold contact surface with which the mold comes into contact;
A clamp member for clamping the mold between the holder main body and the mold contact surface;
A clamping member provided between the holder body and the clamp member, the clamping member being capable of clamping the clamp member to the holder body;
A stopper member that restricts the clamp member from being separated from the holder body by a predetermined distance or more in a state where the tightening by the tightening member is released,
The stopper member extends from a position above the mold contact surface in the holder body to the clamp member side, and is inserted into a hole formed in the clamp member, and a tip of the shaft portion And a part of the outer periphery that protrudes to the outer peripheral side of the shaft part, and a form that allows the head to pass through the hole of the clamp member and a form that cannot pass through the hole Can be switched to
Mold holder for breath brakes. - 前記クランプ部材の前記孔は、この孔の軸方向と直交する断面の形状が非円形であり、前記ストッパ部材の前記軸部は、前記ホルダ本体に対して軸中心回りに回転自在とされ、前記頭部は、前記軸部が軸中心回りに回転することで、前記クランプ部材の前記孔に挿通可能な状態と挿通不可能な状態とに切換自在である請求項1記載のプレスブレーキの金型ホルダ。 The hole of the clamp member has a non-circular shape in a cross section perpendicular to the axial direction of the hole, and the shaft portion of the stopper member is rotatable about an axis center with respect to the holder body, The press brake mold according to claim 1, wherein the head is switchable between a state in which the head portion can be inserted into the hole of the clamp member and a state in which the head portion cannot be inserted, by rotating the shaft portion around the center of the shaft. holder.
- 前記ホルダ本体は、前面および背面に前記金型接触面がそれぞれ設けられ、
前記クランプ部材として、前記ホルダ本体の正面側の金型接触面との間で金型を挟んでクランプする正面側のクランプ部材と、背面側の金型接触面との間で金型を挟んでクランプする背面側のクランプ部材とを備え、
前記締付部材として、前記ホルダ本体と前記正面側のクランプ部材との間に設けられ、前記正面側のクランプ部材を前記ホルダ本体に対して締付け可能な正面側の締付部材と、前記ホルダ本体と前記背面側のクランプ部材との間に設けられ、前記背面側のクランプ部材を前記ホルダ本体に対して締付け可能な背面側の締付部材とを備え、
前記ストッパ部材は、前記ホルダ本体の正面側の金型接触面と前記正面側のクランプ部材との間で金型を挟んでクランプする場合に、前記正面側の締付部材による締付けが解除された状態で、前記ホルダ本体に対して前記正面側のクランプ部材が一定距離以上離れることを規制し、かつ前記ホルダ本体の背面側の金型接触面と前記背面側のクランプ部材との間で金型を挟んでクランプする場合に、前記背面側の締付部材による締付けが解除された状態で、前記ホルダ本体に対して前記背面側のクランプ部材が一定距離以上離れることを規制する、
請求項1または請求項2記載のプレスブレーキの金型ホルダ。 The holder main body is provided with the mold contact surfaces on the front surface and the back surface,
As the clamp member, a mold is sandwiched between a front-side clamp member that clamps the mold between the front-side mold contact surface of the holder body and a back-side mold-contact surface. A clamping member on the back side to be clamped,
A front-side clamping member provided between the holder body and the front-side clamp member as the fastening member, and capable of fastening the front-side clamp member to the holder body; and the holder body And a back-side clamping member that is provided between the back-side clamp member and capable of fastening the back-side clamp member to the holder body,
When the stopper member is clamped with the mold sandwiched between the mold contact surface on the front side of the holder body and the clamp member on the front side, the clamping by the clamping member on the front side is released. In the state, the front side clamp member is controlled to be separated from the holder body by a certain distance or more, and the mold is between the back side mold contact surface of the holder body and the back side clamp member. When the clamping by the back side tightening member is released, the back side clamping member is restricted from being separated from the holder body by a certain distance or more.
A mold holder for a press brake according to claim 1 or 2.
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WO2017183514A1 (en) * | 2016-04-19 | 2017-10-26 | 株式会社アマダホールディングス | Mold holder device and pipe member |
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DE102014116386A1 (en) | 2014-11-10 | 2016-05-12 | Trumpf Maschinen Austria Gmbh & Co.Kg. | Bending press and feeding device for a bending press |
AT516043B1 (en) | 2014-11-12 | 2016-02-15 | Trumpf Maschinen Austria Gmbh | Bending press and feeding device for a bending press |
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CN104105555A (en) | 2014-10-15 |
CN104105555B (en) | 2016-02-24 |
JP5850141B2 (en) | 2016-02-03 |
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