CN222643009U - A mold device capable of quickly replacing modules - Google Patents

Abstract

The utility model provides a die device capable of rapidly replacing a module, which comprises a frame, a first clamping piece and a second clamping piece, wherein a first baffle is arranged between the two mounting assemblies in a rotating mode, two ends of the first baffle are clamped with the mounting assemblies, a die is placed between the two mounting assemblies, the die is clamped with the mounting assemblies, the first clamping piece comprises a first sliding plate, the first sliding plate is arranged in the mounting assemblies, two ends of the first baffle are respectively provided with an electric push rod, a telescopic shaft of the electric push rod is matched with the first sliding plate, the second clamping piece comprises a second sliding plate, the second sliding plate is arranged in the mounting assemblies, a limiting rod is arranged on the second sliding plate, a second connecting shaft is arranged on the second sliding plate, a first connecting shaft is arranged on the first sliding plate, a fixed shaft is arranged in the mounting assemblies, a connecting rod is arranged on the fixed shaft in a rotating mode, one end of the connecting rod is connected with the first connecting shaft, and the other end of the connecting rod is connected with the second connecting shaft. In the process that the baffle is fixed by the electric push rod, the limiting rod can automatically extend into the die to limit the die.

Description

But mould device of quick replacement module

Technical Field

The utility model belongs to the technical field of machining dies, and particularly relates to a die device capable of quickly replacing a module.

Background

The mould is used for injection moulding, blow moulding, extrusion, die casting or forging, smelting, stamping and other methods in industrial production to obtain various moulds and tools of the required products. In the use process of the die, frequent replacement of the die block is avoided. The speed of replacement of the modules affects the production efficiency of the mould.

The prior patent with the publication number of CN211101099U discloses a multi-machine tool quick-change die device, which comprises a frame, wherein a first installation block and a second installation block are fixedly arranged at the top of the frame, a die body is installed between the first installation block and the second installation block, a first manual clamp is installed at the top of the first installation block, a second manual clamp is installed at the top of the second installation block, a second baffle is installed at the top of the frame, a first baffle is hinged on the frame and is positioned at one side of the frame far away from the second baffle, an air pressure normally-closed clamp is installed on the first baffle, and the manual clamp comprises a handle, a clamp body and a clamp block which are in sliding connection with the clamp block body.

The device realizes the fixation of the first baffle by controlling the switch of the air pressure normally-closed clamp. The clamping block is driven to move by rotating the handle, and the die body is fixed by utilizing the sliding connection between the clamping block and the die body. Therefore, the device realizes the fixed limit of the first baffle and the die body in steps, more steps of manual operation are needed, and operators are required to be beside the machine tool for a long time, so that the operators are easy to be injured, and the probability of safety accidents is improved.

Disclosure of utility model

In order to solve the problems in the background art, the utility model provides a die device capable of quickly replacing a module.

In order to achieve the above object, the present utility model provides the following technical solutions:

A die device capable of rapidly replacing a module comprises a frame, a first clamping part and a second clamping part, wherein installation components are symmetrically arranged at the top of the frame, a second baffle is fixedly arranged between the two installation components, a first baffle is rotatably arranged in the first clamping part, two ends of the first baffle are connected with the installation components through the first clamping part, a die is placed between the two installation components and is positioned between the first baffle and the second baffle, two ends of the die are connected with the installation components through the second clamping part, the first clamping part is in transmission fit with the second clamping part, the first clamping part comprises a first sliding plate, the first sliding plate is slidably arranged in the installation components, two ends of the first baffle are respectively embedded with an electric push rod, a telescopic shaft of the electric push rod is in butt joint with the first sliding plate, a restoring component is arranged in the first clamping part, the second clamping part comprises a second sliding plate, one side of the second sliding plate is fixedly provided with a limiting rod, the limiting rod is in plug-in fit with the die, two ends of the die are fixedly provided with a second connecting shaft, the first sliding shaft is fixedly connected with the first sliding shaft, the first sliding shaft is fixedly connected with the second sliding shaft is connected with the first sliding shaft, and the other end of the first sliding shaft is fixedly connected with the first sliding shaft.

Further, the mounting assembly comprises a first mounting block, a second mounting block is fixedly arranged at the top of the first mounting block, a first yielding groove is formed in the first mounting block, a first sliding plate is slidably mounted in the first yielding groove, a third yielding groove is formed in the second mounting block, and a second sliding plate is slidably mounted in the third yielding groove.

Further, the restoring assembly comprises a spring, the spring is located in the first yielding groove, one end of the spring is fixedly connected with one end of the first sliding plate, which is close to the electric push rod, and the other end of the spring is fixedly connected with the inner wall of the first yielding groove.

Further, the top of frame is fixed to be set up the slide rail, has seted up the spacing groove with slide rail sliding fit on the mould.

The utility model has the advantages that the first clamping piece and the second clamping piece are in transmission fit, so that the fixing and the releasing of the die are realized, the time for an operator to be positioned beside a machine tool is greatly reduced when the die is replaced, and the probability of occurrence of safety accidents for the operator to be injured is greatly reduced.

And in the process that the second baffle is fixed by the electric push rod, the limiting rod can automatically extend into the die to limit the die. The whole process is convenient to operate, the degree of automation is high, and the time for replacing the die by the device is greatly shortened.

Drawings

The above, as well as additional purposes, features, and advantages of exemplary embodiments of the present utility model will become readily apparent from the following detailed description when read in conjunction with the accompanying drawings. In the drawings, embodiments of the utility model are illustrated by way of example and not by way of limitation, and like reference numerals refer to similar or corresponding parts and in which:

FIG. 1 is a schematic view of the overall structure of the present utility model;

FIG. 2 is a cross-sectional view of a first baffle plate of the present utility model;

FIG. 3 is an enlarged partial schematic view of the present utility model at A in FIG. 2;

FIG. 4 is a schematic illustration of the present utility model a connecting rod structure schematic diagram;

FIG. 5 is a schematic view of a slide rail according to the present utility model;

FIG. 6 is a schematic diagram of a third yielding groove structure according to the present utility model;

FIG. 7 is an enlarged partial schematic view of the present utility model at B in FIG. 6;

fig. 8 is an enlarged partial schematic view of the present utility model at C in fig. 6.

Reference numerals illustrate:

1. A frame; 2, a first baffle plate, 3, a first mounting block, 4, a second mounting block, 5, a mould, 6, a rotating shaft, 7, an electric push rod, 8, a first connecting shaft, 9, a first yielding groove, 10, a spring, 11, a first sliding plate, 12, a second yielding groove, 13, a connecting rod, 14, a second sliding plate, 15, a third yielding groove, 16, a sliding rail, 17, a limiting rod, 18, a first through hole, 19, a second connecting shaft, 20, a fixed shaft, 21, a second through hole, 22 and a second baffle plate.

Detailed Description

The following description of the embodiments of the present utility model will be made more complete and clear to those skilled in the art by reference to the figures of the embodiments of the present utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1, the technical scheme adopted by the utility model is that the die device capable of quickly replacing the module comprises a frame 1, a first clamping piece and a second clamping piece, wherein two first mounting blocks 3 are symmetrically arranged at the top of the frame 1, the bottom of each first mounting block 3 is fixedly connected with the top of the frame 1, and a second mounting block 4 is fixedly arranged at the top of each first mounting block 3.

One end of each of the two first mounting blocks 3 is fixedly provided with the same second baffle 22, and as shown in fig. 4, a rotating shaft 6 is rotatably arranged between the two first mounting blocks 3, and the rotating shaft 6 is positioned at one end of the first mounting block 3 far away from the second baffle 22. The first baffle plate 2 is fixedly connected to the circumferential surface of the rotating shaft 6.

As shown in fig. 1, a die 5 is placed in a space enclosed by the first baffle 2, the second baffle 22 and the mounting assembly, as shown in fig. 5, a T-shaped slide rail 16 is fixedly arranged at the top of the frame 1, and a limit groove in sliding fit with the slide rail 16 is formed at the bottom of the die 5. The cooperation of the slide rail 16 and the limit groove enables the die 5 to slide more stably.

Both ends of the first baffle plate 2 are connected with the first installation block 3 through first clamping pieces.

As shown in fig. 2 and 3, the first clamping piece comprises a first sliding plate 11, a first abdicating groove 9 is formed in the first mounting block 3 along the vertical direction, and the first sliding plate 11 is slidably arranged in the first abdicating groove 9. The electric putter 7 is set up at the both ends of first baffle 2 all embedding, and electric putter 7's telescopic shaft slides and passes first baffle 2, first installation piece 3 and extend to in the first groove 9 of stepping down. The telescopic shaft of the electric push rod 7 is in contact with the first slide plate 11.

The first abdication groove 9 is internally provided with a spring 10, one end of the spring 10 is fixedly connected with one end of the first sliding plate 11, which is close to the electric push rod 7, and the other end of the spring 10 is fixedly connected with the inner wall of the first abdication groove 9.

As shown in fig. 6 and 7, both ends of the mold 5 are connected to the second mounting block 4 by second clamping members.

The second clamping piece comprises a second sliding plate 14, a third abdicating groove 15 is formed in the second mounting block 4, and the second sliding plate 14 is arranged in the third abdicating groove 15 in a sliding mode. A limiting rod 17 is fixedly arranged on one side of the second sliding plate 14, sliding grooves are formed in two sides, close to the second installation block 4, of the die 5, and the limiting rod 17 can penetrate through the second installation block 4 to be in limiting fit with the sliding grooves.

As shown in fig. 7, a first through hole 18 is formed in the second mounting block 4 along the vertical direction, the first through hole 18 is communicated with the third abdication groove 15, a second connecting shaft 19 is fixedly arranged on the bottom surface of the second sliding plate 14, and the second connecting shaft 19 is slidably arranged in the first through hole 18.

As shown in fig. 8, the first connecting shaft 8 is fixedly provided on the top surface of the first slider 11.

As shown in fig. 5 to 7, a second abdicating groove 12 is formed in the first mounting block 3 along the horizontal direction, and the second abdicating groove 12 is communicated with the first abdicating groove 9 and the first through hole 18. The second abdication groove 12 is internally and fixedly provided with a fixed shaft 20, the outer surface of the fixed shaft 20 is rotatably provided with a connecting rod 13, and two ends of the connecting rod 13 are respectively provided with a second through hole 21.

The bottom of the second connecting shaft 19 penetrates one of the second through holes 21, and the top of the first connecting shaft 8 penetrates the other second through hole 21.

When the electric push rod 7 is started, the telescopic shaft of the electric push rod 7 stretches into the first yielding groove 9 and pushes the first sliding plate 11 to slide in a direction away from the first baffle plate 2, and the spring 10 is in a stretched state. And, the telescopic shaft of electric putter 7 stretches into in the groove 9 of stepping down can carry out spacing to first baffle 2, prevents that first baffle 2 from producing the slip.

The sliding of the first sliding plate 11 drives the first connecting shaft 8 to slide synchronously, so that the connecting rod 13 rotates around the central line of the fixed shaft 20 under the action of the first connecting shaft 8, and then drives the second connecting shaft 19 to approach in the direction approaching the die 5 in the first through hole 18.

The second connecting shaft 19 slides to drive the second slide plate 14 to move, and the second slide plate 14 drives the limiting rod 17 to move, so that the limiting rod 17 stretches into the die 5. So that the mould 5 is fixed under the action of the slide rail 16 and the limit rod 17, and the installation of the mould 5 is completed.

When the mold 5 needs to be removed, the electric push rod 7 is started, and the telescopic shaft of the electric push rod 7 is separated from the first abdicating groove 9. Along with the detachment of the telescopic shaft of the electric push rod 7, the first sliding plate 11 slides towards the direction approaching to the die 5 under the elastic action of the spring 10, and the first sliding plate 11 slides to drive the first connecting shaft 8 to synchronously slide.

So that the connecting rod 13 rotates around the center line of the fixed shaft 20 under the action of the first connecting shaft 8, and then drives the second connecting shaft 19 to approach in the direction away from the die 5 in the first through hole 18.

The second connecting shaft 19 slides to drive the second slide plate 14 to move, and the second slide plate 14 drives the limiting rod 17 to move, so that the limiting rod 17 is separated from the die 5. Thereby releasing the restriction of the mold 5.

Principle of operation

When the mold 5 needs to be replaced, the mold 5 is first slidably mounted on the slide rail 16, and the mold 5 is pushed to move to a proper position.

The rotation of the first baffle plate 2 is controlled by the rotation shaft 6, so that the first baffle plate 2 is rotated to a vertical state.

When the electric push rod 7 is started, the telescopic shaft of the electric push rod 7 stretches into the first yielding groove 9 and pushes the first sliding plate 11 to slide in a direction away from the first baffle plate 2, and the spring 10 is in a stretched state. And, the telescopic shaft of electric putter 7 stretches into in the groove 9 of stepping down can carry out spacing to first baffle 2, prevents that first baffle 2 from producing the slip.

The sliding of the first sliding plate 11 drives the first connecting shaft 8 to slide synchronously, so that the connecting rod 13 rotates around the central line of the fixed shaft 20 under the action of the first connecting shaft 8, and then drives the second connecting shaft 19 to approach in the direction approaching the die 5 in the first through hole 18.

The second connecting shaft 19 slides to drive the second slide plate 14 to move, and the second slide plate 14 drives the limiting rod 17 to move, so that the limiting rod 17 stretches into the die 5. So that the mould 5 is fixed under the action of the slide rail 16 and the limit rod 17, and the installation of the mould 5 is completed.

When the mold 5 needs to be removed, the electric push rod 7 is started, and the telescopic shaft of the electric push rod 7 is separated from the first abdicating groove 9. Along with the detachment of the telescopic shaft of the electric push rod 7, the first sliding plate 11 slides towards the direction approaching to the die 5 under the elastic action of the spring 10, and the first sliding plate 11 slides to drive the first connecting shaft 8 to synchronously slide.

So that the connecting rod 13 rotates around the center line of the fixed shaft 20 under the action of the first connecting shaft 8, and then drives the second connecting shaft 19 to approach in the direction away from the die 5 in the first through hole 18.

The second connecting shaft 19 slides to drive the second slide plate 14 to move, and the second slide plate 14 drives the limiting rod 17 to move, so that the limiting rod 17 is separated from the die 5. When the limit rod 17 is separated from the die 5, the die 5 can be taken out.

Claims (4)

1. A die device capable of rapidly replacing a module is characterized by comprising a frame (1), first clamping pieces and second clamping pieces, wherein installation assemblies are symmetrically arranged at the top of the frame (1), a second baffle plate (22) is fixedly arranged between the two installation assemblies, a first baffle plate (2) is rotatably arranged between the two installation assemblies, two ends of the first baffle plate (2) are connected with the installation assemblies through the first clamping pieces, a die (5) is arranged between the two installation assemblies, the die (5) is positioned between the first baffle plate (2) and the second baffle plate (22), two ends of the die (5) are connected with the installation assemblies through the second clamping pieces, the first clamping pieces are in transmission fit with the second clamping pieces, the first clamping pieces comprise a first sliding plate (11), the first sliding plate (11) is arranged in the installation assemblies in a sliding mode, two ends of the first baffle plate (2) are respectively embedded into an electric push rod (7), a telescopic shaft of the electric push rod (7) is in butt joint with the first sliding plate (11), a restoring assembly is arranged in the first clamping pieces, the second clamping pieces are positioned between the two installation assemblies, two ends of the die (5) are respectively connected with the second sliding plates (14) through the second clamping pieces, the second clamping pieces are respectively arranged on one side of the second sliding plate (14) in a fixed mode, the second sliding plate (17) is fixedly matched with the second sliding plate (17), the second sliding plate (17) is fixedly arranged on one side of the second sliding plate (17) and is fixedly connected with the second sliding plate (17), the installation component internal fixation sets up fixed axle (20), rotates on fixed axle (20) and sets up connecting rod (13), and first connecting axle (8) are connected in the transmission of one end of connecting rod (13), and second connecting axle (19) are connected in the transmission of the other end of connecting rod (13).

2. The die device capable of quickly replacing the die block according to claim 1, wherein the mounting assembly comprises a first mounting block (3), a second mounting block (4) is fixedly arranged at the top of the first mounting block (3), a first yielding groove (9) is formed in the first mounting block (3), a first sliding plate (11) is slidably mounted in the first yielding groove (9), a third yielding groove (15) is formed in the second mounting block (4), and a second sliding plate (14) is slidably mounted in the third yielding groove (15).

3. The quick-change module mold device according to claim 2, wherein the restoring assembly comprises a spring (10), the spring (10) is located in the first yielding groove (9), one end of the spring (10) is fixedly connected with one end of the first sliding plate (11) close to the electric push rod (7), and the other end of the spring (10) is fixedly connected with the inner wall of the first yielding groove (9).

4. The mold device capable of quickly replacing the module according to claim 1, wherein a slide rail (16) is fixedly arranged at the top of the frame (1), and a limit groove in sliding fit with the slide rail (16) is formed in the mold (5).