CN-224224430-U - Two inwards take out slider structure and mould

Abstract

The utility model discloses a first aspect of a two-in-one sliding block structure, which comprises a first sliding block, a second sliding block and a second sliding block, wherein the first sliding block is connected with a first driving piece, a plurality of positioning groups are arranged on the first sliding block, the first driving piece can drive the first sliding block to move from a first travel position to a second travel position along a first direction, a stop part is arranged on the first sliding block, the second sliding block is connected with a second driving piece, a positioning part is arranged on the second sliding block, the second driving piece can drive the second sliding block to move from a third travel position to a fourth travel position along a second direction, and the second direction is intersected with the first direction. The second aspect of the utility model provides a die which comprises the two inward-drawing sliding block structures. The utility model aims to overcome the problems in the prior art and provides a two-inward sliding block structure which is simple in structure and convenient to separate from a sliding block. The utility model also provides a die which is simple in structure and convenient to withdraw from the sliding block.

Inventors

• LAI RUICHAO
• CHEN XIANXUAN
• LU YUEBO

Assignees

• 中山吉锐精密模具科技有限公司

Dates

Publication Date

20260512

Application Date

20250516

Claims (10)

1. 1. A two-way inward drawer slide structure, comprising: The first sliding block (1) is connected with a first driving piece (2), a plurality of positioning groups (11) are arranged on the first sliding block (1), the first driving piece (2) can drive the first sliding block (1) to move from a first travel position to a second travel position along a first direction, and a stop part (12) is arranged on the first sliding block (1); The second sliding block (3) is connected with a second driving piece (4), a positioning part (31) is arranged on the second sliding block (3), and the second driving piece (4) can drive the second sliding block (3) to move from a third stroke position to a fourth stroke position along a second direction; The second direction is intersected with the first direction, and when the first sliding block (1) is located at a first travel position and the second sliding block (3) is located at a third travel position, the stop part (12) of the first sliding block (1) abuts against the second sliding block (3) to prevent the first sliding block (1) from moving from the first travel position to the second travel position along the first direction.
2. 2. The two inward sliding block structures according to claim 1, wherein the first sliding block (1) comprises a first sliding body (13), a first clamping groove (131) into which an output shaft of the first driving piece (2) can be clamped is formed in the first sliding body (13), a stop part (12) is arranged at one end, far away from the first clamping groove (131), of the first sliding body (13), and the positioning group (11) is arranged on the stop part (12).
3. 3. The two inward sliding block structures according to claim 2, wherein the positioning group (11) comprises a first positioning column (111) and a plurality of second positioning blocks (112) arranged on the stop portion (12), the first positioning column (111) and the plurality of second positioning blocks (112) are arranged in a protruding manner relative to the stop portion (12), the plurality of second positioning blocks (112) and the first positioning column (111) are arranged at an upper-lower interval, and a gap is formed between two adjacent second positioning blocks (112).
4. 4. A two-in-one slider structure according to claim 2 or 3, wherein the stop portion (12) is a plurality of stop blocks disposed on the first slider body (13) and extending upward relative to the first slider body (13).
5. 5. The two inward sliding block structures according to claim 1, wherein the second sliding block (3) comprises a connecting block body (32), a supporting block body (33) extending along the second direction is arranged on the connecting block body (32), a stop surface (331) capable of propping against the stop part (12) is arranged on the supporting block body (33), the positioning part (31) is a positioning groove arranged on the second sliding block (3), and a second clamping groove (321) capable of clamping the second driving part (4) is arranged on the connecting block body (32).
6. 6. The structure of two inward sliding blocks according to claim 5, wherein the supporting block body (33) is provided with a supporting surface (332), the second sliding block (3) is further provided with a bent first arc surface (333), one end of the first arc surface (333) is connected with the supporting surface (332), a second arc surface (334) is further provided between the corresponding side wall surfaces of the first arc surface (333) and the second sliding block (3) stop surface (331), and the positioning groove is arranged between the first arc surface (333) and the second arc surface (334).
7. 7. The two inward sliding block structures according to claim 1, further comprising a base (5) and a connecting plate (6) obliquely arranged relative to the base (5), wherein the first driving piece (2) is arranged on the base (5), and the first sliding block (1) slides on the connecting plate (6) and can slide relative to the connecting plate (6).
8. 8. The two inward sliding block structure according to claim 7, wherein the first sliding block (1) is connected with a sliding rod (7) capable of sliding along with the first sliding block, and the base (5) is further provided with a propping component (8) capable of propping against the sliding rod (7) to prevent the sliding rod (7) from moving continuously.
9. 9. The two inward sliding block structures according to claim 8, wherein the propping component (8) comprises a first top block (81) and a second top block (82) which are connected to the base (5), the first top block (81) and the second top block (82) are arranged at intervals to form a sliding space (83) for the sliding rod (7) to slide in, the first top block (81) and the second top block (82) are further provided with protrusions (84) protruding into the sliding space (83), the base (5) is further provided with a first movable groove (41) for the output shaft of the first driving piece (2) to move in, and the base (5) is further provided with a second movable groove (42) for the sliding rod (7) to slide in.
10. 10. A mould, characterized in that it comprises a two-inward-drawing slide structure (9) according to any one of claims 1 to 9.

Description

Two inwards take out slider structure and mould Technical Field The utility model relates to the technical field of dies, in particular to a two-way inward drawing sliding block structure. Background When the outer cover plate is subjected to injection molding, core pulling needs to be carried out on a molding hole and the front edge respectively, the distance between the two core pulling positions is relatively short, mutual interference can occur when core pulling operation is carried out, and the existing solution mode is to adopt an independent driving mechanism to complete core pulling operation, so that the mold structure is complex, and the mold cost and the maintenance cost are increased. Disclosure of utility model The utility model aims to overcome the problems in the prior art and provides a two-inward sliding block structure which is simple in structure and convenient to separate from a sliding block. The utility model also provides a die which is simple in structure and convenient to withdraw from the sliding block. In order to achieve the above purpose, the present utility model adopts the following scheme: The first aspect of the present utility model provides a two-way inward-drawing slider structure, comprising: The first sliding block is connected with a first driving piece, a plurality of positioning groups are arranged on the first sliding block, the first driving piece can drive the first sliding block to move from a first travel position to a second travel position along a first direction, and a stop part is arranged on the first sliding block; the second sliding block is connected with a second driving piece, a positioning part is arranged on the second sliding block, and the second driving piece can drive the second sliding block to move from a third stroke position to a fourth stroke position along a second direction; The second direction is intersected with the first direction, and when the first sliding block is located at the first travel position and the second sliding block is located at the third travel position, the stop part of the first sliding block abuts against the second sliding block to prevent the first sliding block from moving from the first travel position to the second travel position along the first direction. The first sliding block comprises a first sliding body, a first clamping groove which can be used for the output shaft of the first driving piece to clamp in is formed in the first sliding body, one end, far away from the first clamping groove, of the first sliding body is provided with a stopping portion, and the stopping portion is provided with a positioning group. The positioning group comprises a first positioning column and a plurality of second positioning blocks which are arranged on the stop part, the first positioning column and the plurality of second positioning blocks are arranged in a protruding mode relative to the stop part, the plurality of second positioning blocks are arranged at intervals from top to bottom with the first positioning column, and a gap is formed between every two adjacent second positioning blocks. The stop parts are a plurality of stop blocks which are arranged on the first sliding body and extend upwards relative to the first sliding body. The second slider include the connection block, the connection block on be provided with the support block that extends along the second direction, the support block be provided with the backstop face that can push up with backstop portion, location portion for setting up the constant head tank on the second slider, the connection block on be provided with the second draw-in groove that can supply the second driving piece card to go into. The support block on be provided with the holding surface, the second slider on still be provided with the first arcwall face of buckling, first arcwall face one end be connected with the holding surface, just first arcwall face and the lateral wall face that the second slider backstop face corresponds between still be provided with the second arcwall face, the constant head tank set up between first arcwall face and second arcwall face. The two inward sliding block structures further comprise a base and a connecting plate obliquely arranged relative to the base, the first driving piece is arranged on the base, and the first sliding block slides on the connecting plate and can slide relative to the connecting plate. The first sliding block is connected with a sliding rod capable of sliding along the first sliding block, and the base is also provided with a propping assembly capable of propping against the sliding rod to prevent the sliding rod from continuously moving. The pushing assembly comprises a first pushing block and a second pushing block which are connected to a base, wherein the first pushing block and the second pushing block are arranged at intervals to form a sliding space for a sliding rod to slide in, protrusions protruding into the s