CN207549235U - A kind of silica gel mould automatic ejection structure - Google Patents

Abstract

The utility model discloses a kind of silica gel mould automatic ejection structures, including mounting blocks, the mounting groove of opening upwards is equipped in the mounting blocks, the side side wall of the mounting blocks is equipped with the first driving motor, first rotating shaft is rotatably connected in the mounting groove, and one end of first rotating shaft is connect with the output terminal of the first driving motor, the one end of the first rotating shaft far from the first driving motor is connected with flap, side sidewall symmetry of the flap far from first rotating shaft is equipped with mold cavity, side inner wall of the mounting groove far from first rotating shaft is fixedly connected with the first cylinder, and first the output terminal of cylinder be connected with First piston bar, the one end of the First piston bar far from the first cylinder is connected with supports block, and supports block and flap offset setting, the feed inlet connected with mold cavity is equipped in the supports block, push plate is additionally provided in the mold cavity.The utility model can automatic ejection silica gel mould, reduce working strength, improve work efficiency.

Description

A kind of silica gel mould automatic ejection structure

Technical field

The utility model is related to silica gel mould technical field more particularly to a kind of silica gel mould automatic ejection structures.

Background technology

Mold, in industrial production being molded, being blow molded, squeezing out, die casting or the methods of forging forming, smelting, punching press obtain The various moulds and tool of required product, in brief, mold are the tools for making formed article, and this tool is by various Part is formed, and different molds is made of different parts.It needs manually to be demoulded after general silica gel mould molding, labour is strong Degree is big, and working efficiency is low；For this purpose, it is proposed that a kind of silica gel mould automatic ejection structure solves the problems, such as these.

Utility model content

The purpose of this utility model is to be imitated to solve artificial stripping labor intensity in the prior art with work greatly The low shortcoming of rate, and a kind of silica gel mould automatic ejection structure proposed.

To achieve these goals, the utility model employs following technical solution：

A kind of silica gel mould automatic ejection structure including mounting blocks, is equipped with the mounting groove of opening upwards in the mounting blocks, The side side wall of the mounting blocks is equipped with the first driving motor, and first rotating shaft, and first turn are rotatably connected in the mounting groove One end of axis is connect with the output terminal of the first driving motor, and the one end of the first rotating shaft far from the first driving motor, which is connected with, to be turned Plate, side sidewall symmetry of the flap far from first rotating shaft are equipped with mold cavity, side of the mounting groove far from first rotating shaft Inner wall is fixedly connected with the first cylinder, and the output terminal of the first cylinder is connected with First piston bar, and the First piston bar is separate One end of first cylinder is connected with supports block, and supports block and flap offset setting, in the supports block equipped with connected with mold cavity into Material mouth is additionally provided with push plate in the mold cavity, and cavity is additionally provided in the flap, and the side side wall of the cavity, which passes through, rotates dress It puts and is connected with the second cylinder, the output terminal of second cylinder is connected with second piston bar, and the second piston bar is far from second One end of cylinder is also fixedly connected with bull stick, and the side wall of the bull stick is additionally provided with the support rod laterally set, is also set in the flap There is the first sliding groove laterally set, and cavity is connected with mold cavity by the first sliding groove, filled in the first sliding groove by sliding It puts and slidably connects connecting rod, and one end of connecting rod is fixedly connected with push plate.

Preferably, the tumbler includes the second shaft, and the side inner wall of the cavity is fixedly connected with the second driving Motor, and the output terminal of the second driving motor is connect with the second shaft, the described one end of second shaft far from the second driving motor It is fixedly connected with the second cylinder.

Preferably, the carriage includes sliding block, and the both sides inner wall of the first sliding groove is also arranged with second sliding slot, And side inner wall of the second sliding slot far from bull stick is connect by spring with sliding block, the connecting rod is slided by sliding block and second sliding slot Dynamic connection.

Preferably, the junction of the supports block and flap is additionally provided with gasket.

The two symmetrically arranged mold cavities set in the utility model, can while a mold cavity carries out reverse mould Molding silica gel mould in another mold cavity is demoulded, two processes is carried out at the same time, has saved the plenty of time, and not It needs manually to be demoulded, reduces labor intensity, improve work efficiency.

Description of the drawings

Fig. 1 be the utility model proposes a kind of silica gel mould automatic ejection structure structure diagram；

Fig. 2 is the structure diagram at A in Fig. 1.

In figure：1 mounting blocks, 2 mounting grooves, 3 first driving motors, 4 first rotating shafts, 5 flaps, 6 mold cavities, 7 first cylinders, 8 First piston bars, 9 supports blocks, 10 feed inlets, 11 push plates, 12 cavitys, 13 second driving motors, 14 second shafts, 15 second gas Cylinder, 16 second piston bars, 17 bull sticks, 18 support rods, 19 the first sliding grooves, 20 connecting rods, 21 second sliding slots, 22 springs, 23 sliding blocks.

Specific embodiment

The following is a combination of the drawings in the embodiments of the present utility model, and the technical scheme in the embodiment of the utility model is carried out It clearly and completely describes, it is clear that the described embodiments are only a part of the embodiments of the utility model rather than whole Embodiment.

With reference to Fig. 1-2, including mounting blocks 1, opening upwards are equipped in mounting blocks 1 for a kind of silica gel mould automatic ejection structure Mounting groove 2, the side side walls of mounting blocks 1 is equipped with the first driving motor 3, first rotating shaft 4 is rotatably connected in mounting groove 2, and One end of first rotating shaft 4 is connect with the output terminal of the first driving motor 3, and the one end of first rotating shaft 4 far from the first driving motor 3 connects Flap 5 is connected to, side sidewall symmetry of the flap 5 far from first rotating shaft 4 is equipped with mold cavity 6, and mounting groove 2 is far from first rotating shaft 4 Side inner wall is fixedly connected with the first cylinder 7, and the output terminal of the first cylinder 7 is connected with First piston bar 8, First piston bar 8 One end far from the first cylinder 7 is connected with supports block 9, and supports block 9 and flap 5 offset setting, and the junction of supports block 9 and flap 5 is also Equipped with gasket, ensure the leakproofness of mold cavity 6, the feed inlet 10 connected with mold cavity 6 is equipped in supports block 9, is gone back in mold cavity 6 Equipped with push plate 11, cavity 12 is additionally provided in flap 5, the side side wall of cavity 12 is connected with the second cylinder 15 by tumbler, Tumbler includes the second shaft 14, and the side inner wall of cavity 12 is fixedly connected with the second driving motor 13, and the second driving electricity The output terminal of machine 13 is connect with the second shaft 14, and the one end of the second shaft 14 far from the second driving motor 13 is solid with the second cylinder 15 Fixed connection, the second driving motor 13 drive the second shaft 14 to rotate, rotate the second cylinder 15, convenient for subsequent work, ensure The integrality of device, the output terminal of the second cylinder 15 are connected with second piston bar 16, and second piston bar 16 is far from the second cylinder 15 One end be also fixedly connected with bull stick 17, the side wall of bull stick 17 is additionally provided with the support rod 18 laterally set, transverse direction is additionally provided in flap 5 The first sliding groove 19 of setting, and cavity 12 is connected with mold cavity 6 by the first sliding groove 19, passes through carriage in the first sliding groove 19 Connecting rod 20 is slidably connected, and one end of connecting rod 20 is fixedly connected with push plate 11, carriage includes sliding block 23, and first slides The both sides inner wall of slot 19 is also arranged with second sliding slot 21, and side inner wall of the second sliding slot 21 far from bull stick 17 passes through spring 22 It is connect with sliding block 23, connecting rod 20 is slidably connected by sliding block 23 and second sliding slot 21, and the elastic force of spring 22 makes connecting rod 20 Inner wall of the push plate 11 of one end always with mold cavity 6 fits closely, and prevents from occurring gap during reverse mould and reverse mould being caused to fail.

When the utility model is used, starting the first cylinder 7, make First piston bar 8 that supports block 9 be driven to offset with flap 5, it will Silica gel after the silica gel in mold cavity 6 is cooled and shaped, is closed from the mold cavity 6 that feed inlet 10 pours that supports block 9 offsets into after thawing First cylinder 7,8 retraction home position of First piston bar, the first driving motor 3 drive first rotating shaft 4 to rotate, rotate flap 5 180 degree is located above another mold cavity 6, and the second driving motor 13 drives the second shaft 14 to rotate, and makes 17 side wall of bull stick Support rod 18 rotates 180 degree, it is made to start the first cylinder 7 and the second gas always situated in 19 corresponding position of lower section the first sliding groove Cylinder 15, the first cylinder 7 make supports block 9 that the mold cavity 6 of top is sealed carry out reverse mould, and the second cylinder 15 drives second piston bar 16 to stretch It is long, bar 20 is press-connected, the push plate 11 of 20 other end of connecting rod is driven to release mold from mold cavity 6, makes reverse mould and demoulding It is carried out at the same time.The present apparatus is carried out at the same time reverse mould and demoulding, has saved the plenty of time, and does not need to manually be demoulded, and reduces Labor intensity, improves work efficiency.

The preferable specific embodiment of the above, only the utility model, but the scope of protection of the utility model is not This is confined to, in the technical scope that any one skilled in the art discloses in the utility model, according to this practicality Novel technical solution and its utility model design are subject to equivalent substitution or change, should all cover the protection model in the utility model Within enclosing.

Claims (4)

1. a kind of silica gel mould automatic ejection structure, including mounting blocks (1), which is characterized in that be equipped with and open in the mounting blocks (1) Mouthful upward mounting groove (2), the side side walls of the mounting blocks (1) are equipped with the first driving motor (3), in the mounting groove (2) First rotating shaft (4) is rotatably connected to, and one end of first rotating shaft (4) is connect with the output terminal of the first driving motor (3), described The one end of one shaft (4) far from the first driving motor (3) is connected with flap (5), the separate first rotating shaft (4) of the flap (5) Side sidewall symmetry is equipped with mold cavity (6), and side inner wall of the mounting groove (2) far from first rotating shaft (4) is fixedly connected with the One cylinder (7), and the output terminal of the first cylinder (7) is connected with First piston bar (8), the First piston bar (8) is far from first One end of cylinder (7) is connected with supports block (9), and supports block (9) and flap (5) offset setting, is equipped in the supports block (9) and mold The feed inlet (10) of chamber (6) connection, is additionally provided with push plate (11) in the mold cavity (6), cavity is additionally provided in the flap (5) (12), the side side wall of the cavity (12) is connected with the second cylinder (15) by tumbler, second cylinder (15) Output terminal is connected with second piston bar (16), and the one end of the second piston bar (16) far from the second cylinder (15) is also fixedly connected There is bull stick (17), the side wall of the bull stick (17) is additionally provided with the support rod (18) laterally set, transverse direction is additionally provided in the flap (5) The first sliding groove (19) of setting, and cavity (12) is connected with mold cavity (6) by the first sliding groove (19), the first sliding groove (19) In connecting rod (20) slidably connected, and one end of connecting rod (20) is fixedly connected with push plate (11) by carriage.

2. a kind of silica gel mould automatic ejection structure according to claim 1, which is characterized in that the tumbler includes Second shaft (14), the side inner wall of the cavity (12) are fixedly connected with the second driving motor (13), and the second driving motor (13) output terminal is connect with the second shaft (14), the one end of second shaft (14) far from the second driving motor (13) and the Two cylinders (15) are fixedly connected.

3. a kind of silica gel mould automatic ejection structure according to claim 1, which is characterized in that the carriage includes Sliding block (23), the both sides inner wall of the first sliding groove (19) are also arranged with second sliding slot (21), and second sliding slot (21) is separate The side inner wall of bull stick (17) is connect by spring (22) with sliding block (23), and the connecting rod (20) passes through sliding block (23) and second Sliding slot (21) is slidably connected.

4. a kind of silica gel mould automatic ejection structure according to claim 1, which is characterized in that the supports block (9) is with turning The junction of plate (5) is additionally provided with gasket.