CN209792425U - Improved die erecting mechanism - Google Patents

Abstract

The utility model provides a frame mould mechanism of improvement, includes movable mould board, frame mould crossbeam and more than one frame mould hydro-cylinder, and the frame mould crossbeam is located the top of movable mould board, and every frame mould hydro-cylinder symmetry sets up on the corner of movable mould board, and the piston rod of frame mould hydro-cylinder and the cooperation of frame mould crossbeam are connected, and every frame mould hydro-cylinder one side is provided with supports the mobile device, and every frame mould hydro-cylinder, support the mobile device respectively with movable mould board interconnect, and the frame mould hydro-cylinder passes through the piston rod and drives a frame mould crossbeam. The utility model discloses respectively be provided with a frame mould hydro-cylinder on four corners of movable mould board, reserve four big faces all around of movable mould board to arrange other major structure, have compact structure's characteristics.

Description

Improved die erecting mechanism

Technical Field

The utility model relates to the technical field of mold, specifically a frame mould mechanism of improvement.

Background

Most of the existing die erecting mechanisms adopt two oil cylinders to directly drive a die erecting cross beam or indirectly drive the die erecting cross beam through a connecting piece. The two die erecting oil cylinders of the structure are respectively arranged at the middle positions of the front and the back of the movable die plate, and the two die erecting oil cylinders respectively drive a die erecting cross beam through a connecting piece; or the two die erecting oil cylinders are respectively arranged in the middle positions of the left side and the back side of the movable die plate, and the two die erecting oil cylinders are directly connected in the middle of the die erecting cross beam and driven. This arrangement affects the front ejection and the rear mold transfer, as well as the three-step clamping mechanism cushion block removal. For heavy dies, the oil cylinder is arranged in the middle, and a thick cross beam is needed to overcome corresponding bending moment deformation. And thus, is in need of further improvement.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a structure sets up rationally, and the cost of manufacture is lower, and it is less to occupy the space, effectively solves the file that a mould mechanism structure is complicated, saves the frame mould mechanism of the improvement that a mould mechanism occupied the space to overcome the weak point among the prior art.

The improved mold erecting mechanism comprises a movable mold plate, a mold erecting cross beam and more than one mold erecting oil cylinder, wherein the mold erecting cross beam is positioned above the movable mold plate, each mold erecting oil cylinder is symmetrically arranged on the corner of the movable mold plate, a piston rod of each mold erecting oil cylinder is connected with the mold erecting cross beam in a matched mode, a supporting and moving device is arranged on one side of each mold erecting oil cylinder, and each mold erecting oil cylinder and the supporting and moving device are respectively connected with the movable mold plate. The four corners of the movable template are respectively provided with a template erecting oil cylinder, four large-area spaces, namely the front, the rear, the left and the right of the movable template are reserved for arranging other main mechanisms, the movable template has the characteristic of compact structure, and meanwhile, the supporting and moving device and the movable template are mutually connected, so that a large-scale mold can be supported, and the installation space of the movable template is effectively utilized; the arrangement structure that two oil cylinders directly drive the frame die cross beam or indirectly drive the frame die cross beam through a connecting piece is omitted.

The supporting and moving device comprises a supporting column and a sliding seat assembly; the support column penetrates through the movable template and is positioned on one side of the template erecting oil cylinder, and the sliding seat assembly is connected with the movable template; the support column is provided with more than one, and every support column and sliding seat subassembly are each other swing joint, and the sliding seat subassembly reciprocates on every support column.

Each support column penetrates through four corners of the movable mould plate respectively so as to support the large mould in a conforming manner. Four-point support is generally adopted for a large-scale die, so that the die is close to a support surface and is small in bending stress, the size of a part can be reduced, and the production cost is reduced.

The sliding seat assembly comprises a longitudinal installation seat, the longitudinal installation seat is arranged on one side of each supporting column, a coupling connection fitting piece is arranged between the longitudinal installation seat and each supporting column, and the longitudinal installation seat moves up and down on one side of each supporting column through the coupling connection fitting piece. The longitudinal installation seat is fixed on the movable template through bolts. When the movable template moves, the movable template moves up and down on the supporting column through the longitudinal mounting seat, and the template erecting oil cylinder moves up and down along with the movable template.

The coupling connection fitting comprises a longitudinal synchronizing rod, and the longitudinal installation seats of each supporting column are connected with each other through the longitudinal synchronizing rod, so that each longitudinal installation seat can synchronously move through the longitudinal synchronizing rod. One longitudinal synchronizing rod is connected with two longitudinal mounting seats and two gears A.

The coupling connection fitting piece further comprises a rack and a gear A which are meshed with each other to provide the function of vertical guiding, the rack is arranged on the surface of the supporting column, the gear A is arranged on one side of the longitudinal installation seat and is connected with the longitudinal installation seat through a longitudinal synchronizing rod, the gear A drives the longitudinal installation seat to move vertically on one side of the rack through the longitudinal synchronizing rod, and the synchronous movement of the frame mold mechanism is ensured.

The sliding seat assembly further comprises a transverse mounting seat, the transverse mounting seat is arranged on the other side of each supporting column, a coupling connection fitting piece is arranged between the transverse mounting seat and each supporting column, and the transverse mounting seat moves up and down on the other side of each supporting column through the coupling connection fitting piece. The transverse mounting seat is fixed on the movable template through bolts. When the movable template moves, the movable template moves up and down on the supporting column through the transverse mounting seat, and the template erecting oil cylinder moves up and down along with the movable template.

The coupling connection fitting comprises transverse synchronizing rods, and the transverse installation seats of each supporting column are connected with each other through the transverse synchronizing rods, so that each transverse installation seat can synchronously move through the transverse synchronizing rods. Ensuring the synchronous movement of the die-erecting mechanism. One transverse synchronizing rod is connected with two transverse mounting seats and two gears B.

The coupling connection fitting piece also comprises a gear B, and the gear B is meshed with the rack of the supporting column; the gear B is arranged on one side of the transverse mounting seat and is connected with the transverse mounting seat through a transverse synchronizing rod, and the gear B drives the transverse mounting seat to move up and down on the other side of the rack through the transverse synchronizing rod.

The utility model discloses respectively be provided with a frame mould hydro-cylinder on four corners of movable mould board, reserve four big faces all around of movable mould board to arrange other major structure, have compact structure's characteristics. In addition, the movable mould plate is provided with a supporting and moving device on one side of each mould erecting oil cylinder, so that the mould erecting mechanism is ensured to run stably, and meanwhile, the occupied space is small.

Drawings

Fig. 1 is a schematic perspective view of a mold erecting mechanism according to an embodiment of the present invention.

Fig. 2 is an enlarged view at C in fig. 1.

Fig. 3 is a schematic perspective view of a supporting and moving device of a mold erecting mechanism according to an embodiment of the present invention.

Fig. 4 is a schematic plan view of a supporting and moving device of a mold erecting mechanism according to an embodiment of the present invention.

Fig. 5 is a cross-sectional view of D-D in fig. 4.

In the figure, 1 is a movable template, 2 is a formwork cross beam, 3 is a formwork oil cylinder, 4 is a support column, 4.1 is a rack, 5 is a longitudinal installation seat, 6 is a transverse installation seat, 7 is a gear A, 8 is a gear B, 9 is a longitudinal synchronizing rod, and 10 is a transverse synchronizing rod.

Detailed Description

The present invention will be further described with reference to the accompanying drawings and examples.

Referring to fig. 1-5, an improved formwork erecting mechanism comprises a movable formwork 1, a formwork erecting beam 2 and more than one formwork erecting oil cylinder 3, wherein the formwork erecting beam 2 is located above the movable formwork 1, each formwork erecting oil cylinder 3 is symmetrically arranged on a corner of the movable formwork 1, a piston rod of each formwork erecting oil cylinder 3 is connected with the formwork erecting beam 2 in a matched mode, a supporting and moving device is arranged on one side of each formwork erecting oil cylinder 3, each formwork erecting oil cylinder 3 and each supporting and moving device are respectively connected with the movable formwork 1, and the formwork erecting oil cylinders 3 drive the formwork erecting beam 2 to move up and down through the piston rods. In the embodiment, the die erecting oil cylinders 3 are respectively arranged on four corners of the movable die plate 1, and the die erecting oil cylinders 3 are in driving connection with the die erecting cross beams 2 through piston rods so as to increase the bearing strength of the die erecting cross beams 2. In the embodiment, four mold erecting oil cylinders 3 are used for providing power required by mold erecting, and four support columns 4, a rack 4.1, a transverse synchronizing rod 10, a longitudinal synchronizing rod 9 and a gear are coupled together to drive a mold erecting cross beam 2 to act.

Further, the supporting and moving device comprises a supporting column 4 and a sliding seat assembly; the support column 4 penetrates through the movable template 1 and is positioned on one side of the template erecting oil cylinder 3, and the sliding seat assembly and the movable template 1 are connected with each other; more than one supporting column 4 is arranged, each supporting column 4 is movably connected with the sliding seat assembly, and the sliding seat assembly moves up and down on each supporting column 4.

Further, the sliding seat assembly comprises a longitudinal installation seat 5, the longitudinal installation seat 5 is arranged on one side of each supporting column 4, a coupling connection fitting piece is arranged between the longitudinal installation seat 5 and each supporting column 4, and the longitudinal installation seat 5 moves up and down on one side of each supporting column 4 through the coupling connection fitting piece.

Further, the coupling connection fitting includes a longitudinal synchronizing bar 9, and the longitudinal mounting seats 5 of each supporting column 4 are connected to each other by the longitudinal synchronizing bar 9, so that each longitudinal mounting seat 5 is synchronously moved by the longitudinal synchronizing bar 9.

Further, the coupling connection fitting piece further comprises a rack 4.1 and a gear A7 which are meshed with each other, the rack 4.1 is arranged on the surface of the supporting column 4, the gear A7 is arranged on one side of the longitudinal installation seat 5 and is connected with the longitudinal installation seat 5 through a longitudinal synchronizing rod 9, and the gear A7 drives the longitudinal installation seat 5 to move up and down on one side of the rack 4.1 through the longitudinal synchronizing rod 9.

Further, the sliding seat assembly further comprises a transverse installation seat 6, the transverse installation seat 6 is arranged on the other side of each supporting column 4, a coupling connection fitting piece is arranged between the transverse installation seat 6 and each supporting column 4, and the transverse installation seat 6 moves up and down on the other side of each supporting column 4 through the coupling connection fitting piece.

Further, the coupling connection fitting includes a transverse synchronizing bar 10, and the transverse mounting seats 6 of each supporting column 4 are connected to each other by the transverse synchronizing bar 10, so that each transverse mounting seat 6 is synchronously moved by the transverse synchronizing bar 10.

Furthermore, the coupling connection fitting piece also comprises a gear B8, and the gear B8 is meshed with the rack 4.1 of the support column 4; the gear B8 is arranged on one side of the transverse mounting seat 6 and is connected with the transverse mounting seat through a transverse synchronizing rod 10, and the gear B8 drives the transverse mounting seat 6 to move up and down on the other side of the rack 4.1 through the transverse synchronizing rod 10.

The foregoing is a preferred embodiment of the present invention showing and describing the basic principles, main features and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are intended to illustrate the principles of the invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention, and the scope of the invention is to be protected. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (8)

1. The utility model provides a frame mould mechanism of improvement, including movable mould board (1), frame mould crossbeam (2) and more than one frame mould hydro-cylinder (3), frame mould crossbeam (2) are located the top of movable mould board (1), characterized by every frame mould hydro-cylinder (3) symmetry sets up on the corner of movable mould board (1), and the piston rod of frame mould hydro-cylinder (3) and frame mould crossbeam (2) cooperation are connected, every frame mould hydro-cylinder (3) one side is provided with supports the mobile device, every frame mould hydro-cylinder (3), support the mobile device respectively with movable mould board (1) interconnect, frame mould hydro-cylinder (3) drive frame mould crossbeam (2) through the piston rod and reciprocate.

2. An improved form erecting mechanism as claimed in claim 1 wherein said support and movement means comprises a support post (4), and a slide base assembly; the supporting column (4) penetrates through the movable template (1) and is positioned on one side of the template erecting oil cylinder (3), and the sliding seat assembly is connected with the movable template (1); more than one supporting column (4) is arranged, each supporting column (4) is movably connected with the sliding seat assembly, and the sliding seat assembly moves up and down on each supporting column (4).

3. An improved formwork mechanism as claimed in claim 2, wherein the sliding seat assembly comprises a longitudinal mounting seat (5), the longitudinal mounting seat (5) is fixed on the movable formwork (1); in addition, the longitudinal installation seat (5) is arranged on one side of each supporting column (4), a coupling connection fitting piece is arranged between the longitudinal installation seat and the supporting column, and the longitudinal installation seat (5) moves up and down on one side of the supporting column (4) through the coupling connection fitting piece.

4. An improved form erecting mechanism according to claim 3 wherein said coupling engagement means comprises a longitudinal synchronizing bar (9) and wherein the longitudinal mounting blocks (5) of each support post (4) are interconnected by the longitudinal synchronizing bar (9) such that each longitudinal mounting block (5) is moved synchronously by the longitudinal synchronizing bar (9).

5. An improved form erecting mechanism as recited in claim 4, wherein said coupling fitting further comprises a rack (4.1) and a gear A (7) engaged with each other, the rack (4.1) is disposed on the surface of the supporting column (4), the gear A (7) is disposed on one side of the longitudinal mounting seat (5) and connected with each other by a longitudinal synchronizing bar (9), and the gear A (7) drives the longitudinal mounting seat (5) to move up and down on one side of the rack (4.1) by the longitudinal synchronizing bar (9).

6. An improved form erecting mechanism as claimed in any one of claims 2 to 5 wherein said sliding seat assembly further comprises a transverse mounting seat (6), said transverse mounting seat (6) being fixed to said movable form (1); in addition, the transverse installation seat (6) is arranged on the other side of each supporting column (4), a coupling connection fitting piece is arranged between the transverse installation seat and each supporting column, and the transverse installation seat (6) moves up and down on the other side of each supporting column (4) through the coupling connection fitting piece.

7. An improved form erecting mechanism as claimed in claim 6, wherein said coupling engagement members comprise lateral synchronizing bars (10), and wherein the lateral mounting blocks (6) of each support column (4) are interconnected by the lateral synchronizing bars (10) so that each lateral mounting block (6) is synchronously moved by the lateral synchronizing bars (10).

8. An improved form erecting mechanism as recited in claim 7, wherein said coupling engagement member further comprises a gear B (8), said gear B (8) and a rack (4.1) of said support post (4) being engaged with each other; the gear B (8) is arranged on one side of the transverse mounting seat (6) and is connected with the transverse mounting seat (6) through a transverse synchronizing rod (10), and the gear B (8) drives the transverse mounting seat (6) to move up and down on the other side of the rack (4.1) through the transverse synchronizing rod (10).