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CN-224208890-U - Automobile instrument panel framework stamping die of split type female die

CN224208890UCN 224208890 UCN224208890 UCN 224208890UCN-224208890-U

Abstract

The utility model discloses a stamping die for an automobile instrument panel framework of a split type female die, which comprises a split type groove die I, a plurality of micro sensors, a splicing panel, a plurality of positioning circular arc grooves and a plurality of positioning circular arc key blocks, wherein a split type groove die III and a split type groove die II are respectively arranged on the front side and the right side of the split type groove die I, the micro sensors are equidistantly distributed and embedded on the surfaces of the corresponding split type groove die I, the split type groove die III and the split type groove die II.

Inventors

  • XU YINGBIN

Assignees

  • 广东增田盛安汽配制造有限公司

Dates

Publication Date
20260508
Application Date
20250428

Claims (7)

  1. 1. The stamping die for the automobile instrument panel framework of the split female die comprises a split groove die I (1), a plurality of micro sensors (6) and a splicing panel (18), a plurality of positioning circular arc grooves (19) and a plurality of positioning circular arc key blocks (20), and is characterized in that a split groove die III (3) and a split groove die II (2) are respectively arranged on the front side and the right side of the split groove die I (1), the micro sensors (6) are equidistantly distributed and embedded on the surfaces of the corresponding split groove die I (1), the split groove die III (3) and the split groove die II (2), a connecting groove I (4) is arranged on the left side of the contact surface of the split groove die III (3) and the split groove die II (2), a connecting groove II (5) is arranged on the right side of the contact surface of the split groove die II (2), a sealing gasket II (39) is arranged in the connecting groove II (5), the splicing panel (34) is fixedly arranged on the front side of the split groove die I (1) and is fixedly connected with the front side of the split groove die I (20) of the split groove die I, the positioning arc grooves (19) are equidistantly arranged on the rear side of the splicing panel (18), the positioning arc key blocks (20) are respectively clamped with the corresponding positioning arc grooves (19), the left side of the split groove die III (3) is fixedly connected with a groove connecting surface fixing plate II (12) with the contact surface of the split groove die II (1), the front concave part of the split groove die I (1) is fixedly connected with a groove connecting surface fixing plate I (8) with the contact surface of the split groove die III (3), the right side of the groove connecting surface fixing plate I (8) is provided with a positioning groove I (9), the left side of the groove connecting surface fixing plate II (12) is provided with a positive magnetic block I (13), the inside of the positioning groove I (9) is provided with a negative magnetic block I (10), the right side of the split groove die III (3) is fixedly connected with a groove connecting surface fixing plate III (24) with the contact surface of the split groove die II (2), the left side of the split groove die II (2) is fixedly connected with a positive magnetic block II (25), the right side of the split groove die II (2) is fixedly connected with a positive magnetic block II (25), and a second negative magnetic block (28) is arranged on the left side of the second positioning groove (26).
  2. 2. The stamping die for the automobile instrument panel framework of the split female die of claim 1, wherein the right sides of the tops of the positioning circular arc key blocks (20) are fixedly connected with connecting discs (21), the middle parts of the connecting discs (21) are respectively provided with through holes (42), the through holes (42) are respectively detachably connected with adaptive fixing screws (22), the fixing screws (22) are respectively detachably connected with corresponding fixing holes (23), the fixing holes (23) are equidistantly arranged on the tops of the splicing panels (18) and are respectively positioned on the right sides of the positioning circular arc grooves (19), the front sides of the groove connecting surface fixing plates (8) and the groove connecting surface fixing plates (12) are respectively fixedly connected with a first connecting plate (11) and a second connecting plate (14), the first connecting plates (11) and the second connecting plates (14) are respectively provided with a plurality of fastening grooves (15) at equal intervals, the fastening grooves (15) are respectively provided with a first rod (16) which is detachably connected in an adaptive mode, the groove connecting plates (24) are respectively fixedly connected with a third connecting plate (29) and a fourth connecting plate (30) at equal intervals, the front sides of the groove connecting plates (29) are respectively fixedly connected with a fourth connecting plate (30), and the fastening grooves II (31) are respectively provided with a fixing pin II (32) which is suitable for detachable connection.
  3. 3. The stamping die for the automobile instrument panel framework of the split female die of claim 2, wherein a second clamping pad (33) is arranged between the third connecting plate (29) and the fourth connecting plate (30), and a first clamping pad (17) is arranged between the first connecting plate (11) and the second connecting plate (14).
  4. 4. The stamping die for the automobile instrument panel framework of the split female die of claim 1, wherein a first magnetic suction hole (38) is formed in the top of the right rear end of the second groove connecting surface fixing plate (12), a second magnetic suction hole (37) is formed in the top of the left rear end of the third groove connecting surface fixing plate (24), a third magnetic suction hole (43) is formed in the top of the position, in contact with the second sealing gasket (39) and the first sealing gasket (34), of the splicing panel (18), connecting block plates (40) are fixedly connected to the left end and the right end of the top of the second sealing gasket (39), connecting block plates (35) are fixedly connected to the left end and the right end of the top of the first sealing gasket (34), a first penetrating magnetic suction rod (41) is arranged on the connecting block plates (40), a second penetrating magnetic suction rod (36) is arranged on the connecting block plates (35), and the first magnetic suction rod (41) and the second magnetic suction rod (36) are respectively connected with the second magnetic suction holes (37) in a corresponding mode.
  5. 5. The stamping die for the automobile instrument panel framework of the split female die as claimed in claim 1, wherein a cover tape (7) is attached to the outer parts of the micro sensors (6).
  6. 6. The stamping die for the automobile instrument panel framework of the split type female die as claimed in claim 1, wherein the tops and the sides of the positive magnetic blocks I (13) and the positive magnetic blocks II (27) are respectively wrapped with rebound gaskets.
  7. 7. The stamping die for the automobile instrument panel framework of the split female die as claimed in claim 1, wherein a plurality of micro sensors (6) are mutually connected and cooperatively controlled.

Description

Automobile instrument panel framework stamping die of split type female die Technical Field The utility model relates to the technical field of automobile part manufacturing, in particular to an automobile instrument panel framework stamping die of a split female die. Background The stamping die for the automobile instrument panel framework is a die for producing the automobile instrument panel framework and is mainly used for processing materials into parts with required shapes and sizes in the cold stamping processing process. The traditional automobile instrument panel framework stamping die adopts an integral female die structure, and because the instrument panel is complicated in modeling (comprising a large number of curved surfaces, hollowed-out parts and thin-wall structures), the integral die is required to adopt a complex multi-shaft machining process during machining, the cost is high, the period is long, the die is required to be replaced integrally when being damaged locally, the maintenance cost is high, the requirement of the market on quick iteration of products cannot be met, and in addition, the traditional die has obvious defects in the aspects of working state monitoring, positioning, fastening and sealing performance. Disclosure of utility model The utility model aims to provide a stamping die for an automobile instrument panel framework of a split type female die, which is used for solving the problems that the traditional large-sized integral die provided in the background art is likely to have large processing difficulty and high cost, the traditional die is likely to need integral replacement once being damaged locally, the integral performance is likely to be affected by the local damage, the damaged part is difficult to repair or replace singly, and the traditional die has obvious defects in the aspects of working state monitoring, positioning fastening and sealing performance. In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a split type concave die's motormeter dish skeleton stamping die, includes split recess mould one, a plurality of microsensor and concatenation panel, a plurality of constant head tank and a plurality of constant head tank key piece, split recess mould one's front side and right side are provided with split recess mould three and split recess mould two respectively, a plurality of microsensor equidistance distributes the surface of embedding in split recess mould one, split recess mould three and split recess mould two that corresponds, split recess mould three and split recess mould one contact surface left side are provided with connecting groove one, split recess mould three and split recess mould two contact surface right side are provided with connecting groove two, be provided with sealed the pad two in the connecting groove one, set up in the connecting groove two because sealed pad one, concatenation panel fixed connection is located split recess mould one's contact surface, and a plurality of constant head tank key pieces equidistance fixed connection are located split recess mould one's front side contact surface, split recess mould one contact surface and a plurality of locating plate fixed connection are located split recess mould one, split recess mould one contact surface is provided with the fixed connection of a plurality of locating plate fixed connection, the locating plate fixed connection is provided with the connecting groove one side of split recess mould one side, the fixed connection is provided with the connecting groove one side of split recess mould one side and the fixed connection is provided with a fixed connection groove one side, fixed connection groove one side is provided with a fixed groove one side of fixed groove has a fixed groove and a fixed groove one side, the right side of the split groove die III and the contact surface of the split groove die II are fixedly connected with a groove connection surface fixing plate III, the left side of the split groove die II and the contact surface of the split groove die III are fixedly connected with a groove connection surface fixing plate IV, the right side of the groove connection surface fixing plate III is provided with a positive magnetic block II, the left side of the groove connection surface fixing plate IV is provided with a positioning groove II, and the left side of the positioning groove II is provided with a negative magnetic block II. As a preferable technical scheme of the utility model, the right sides of the tops of the positioning arc key blocks are fixedly connected with a connecting disc, the middle parts of the connecting discs are respectively provided with a through hole, the through holes are respectively and detachably connected with an adaptive fixing screw, the fixing screws are respectively and detachably connected with corresponding fixing holes, the fixing holes are