CN220994825U - Vibration blanking mechanism for static pressure forming machine - Google Patents

Abstract

The utility model discloses a vibration blanking mechanism for a static pressure forming machine, which comprises a frame, wherein a side seat is connected between two guide posts on the same side of the frame in a sliding manner; the inner side walls of the two side seats are fixedly provided with two first sliding rails, and a die body is connected between the four first sliding rails in a sliding manner; a movable lifting assembly is commonly installed between the die body and the frame; and a die rod seat is arranged below the die body. According to the utility model, through the side seat, the first sliding rail, the die body, the vibration component, the shell, the die rod seat, the die rod body and the movable lifting component, when the material is fed, after the material falls into the die hole through the hopper, the vibration component and each component are matched to drive the die body to vibrate reciprocally, so that the agglomerated material can be scattered, the material can be ensured to fill the die hole completely, and the quality of the formed brick is ensured.

Description

Vibration blanking mechanism for static pressure forming machine

Technical Field

The utility model relates to the technical field of static pressure forming machines, in particular to a vibration blanking mechanism for a static pressure forming machine.

Background

The static pressure forming machine has stable force application, large pressure and high automation degree in the brick pressing process, so that the static pressure forming machine has the characteristics of good product quality, high strength, high yield, standard external dimension and the like. Different dies are replaced, so that different pressing blocks and hollow bricks can be pressed. The support plate is not needed during discharging, and the discharged bricks can be directly piled up.

When the static pressure forming machine is used, materials are temporarily stored in the hopper, the opening at the bottom of the hopper is attached to the die table of the static pressure forming machine, the materials are prevented from leaking outwards, when the materials move to the die, the materials fall into the die holes under the action of gravity, so that the blanking of the materials is completed, then the materials are reset, extrusion forming is started, but the die cannot move or vibrate during the process of falling into the die holes, the hopper only shakes left and right once or twice, the materials are extruded into blocks from time to time due to the fact that the materials have the water content of about 15%, if the block materials fall into the die holes, the die holes cannot be filled with the materials easily, and accordingly the quality of formed bricks is disqualified.

Disclosure of utility model

The utility model aims to solve the defects in the prior art, and provides a vibration blanking mechanism for a hydrostatic forming machine.

In order to achieve the above purpose, the present utility model adopts the following technical scheme: the vibration blanking mechanism for the static pressure forming machine comprises a frame, wherein a side seat is connected between two guide posts on the same side of the frame in a sliding manner; the inner side walls of the two side seats are fixedly provided with two first sliding rails, and a die body is connected between the four first sliding rails in a sliding manner; a movable lifting assembly is commonly installed between the die body and the frame; a die rod seat is arranged below the die body, and a plurality of die rod bodies matched with the die body are fixedly arranged at the top of the die rod seat; the two sides of the outer surface of the frame are fixedly connected with shells, and a vibration assembly is jointly installed between the two shells and the die body.

Preferably, two sliding rods are symmetrically and fixedly connected to two sides of the outer surface of the die body, and the sliding rods are connected with the die body in a positioning manner, so that the assembling positions of the sliding rods are guaranteed.

Preferably, the two movable lifting assemblies comprise oil cylinders, the oil cylinders are fixedly arranged at the inner top of the frame, movable ends of the oil cylinders are fixedly connected with movable plates, the movable plates are connected with two adjacent slide bars in a sliding mode, and the oil cylinders drive the movable plates to move up and down, so that the die body can be driven to move up and down through the slide bars.

Preferably, the vibration assembly comprises four connecting plates, the connecting plates are respectively fixedly arranged on two sides of the outer surfaces of the adjacent die rod seat and the die body, the four connecting plates penetrate through the outer wall of the adjacent shell and extend to the inside, two springs are fixedly connected between the connecting plates and the inner wall of the adjacent shell together, the springs can utilize the elastic auxiliary connecting plates of the springs to reset, so that the die body can be assisted to reset, and then the springs are matched with the cams, so that the die body can vibrate.

Preferably, the vibration assembly further comprises a double-shaft motor, the double-shaft motor is fixedly mounted on one side inner wall of the adjacent shell, two driving ends of the double-shaft motor are fixedly connected with rotating shafts, the rotating shafts are rotationally connected with the adjacent shell, cams which are abutted to the connecting plates are fixedly sleeved on the outer surfaces of the rotating shafts, and the double-shaft motor is a power source of the vibration assembly and is a basis for operation of the double-shaft motor.

Preferably, the second sliding rail is fixedly arranged at the inner bottom of the frame, and is in sliding connection with the die rod seat, and the second sliding rail has supporting and limiting functions on the die rod seat, so that the using effect of the die rod seat is guaranteed.

Preferably, a plurality of die holes penetrating to the bottom are formed in the top of the die body, the die holes are connected with the adjacent die rod bodies in a sliding mode, and the die holes are formed in a manner of being beneficial to molding of bricks.

The utility model has the beneficial effects that:

When the vibrating blanking mechanism for the static pressure forming machine is used, through the side seat, the first sliding rail, the die body, the vibrating assembly, the shell, the die rod seat, the die rod body and the movable lifting assembly, during blanking, after materials fall into the die holes through the hopper, the vibrating assembly and the components are matched to drive the die body to vibrate in a reciprocating manner, so that agglomerated materials can be scattered, the fact that the die holes can be completely filled with the materials can be guaranteed, and the quality of formed bricks is guaranteed.

Drawings

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

FIG. 2 is a partial cross-sectional view of the present utility model;

Fig. 3 is a schematic diagram illustrating connection between a die body and a first slide rail according to the present utility model.

Legend description:

1. A frame; 2. a housing; 3. a side seat; 4. an oil cylinder; 5. a movable plate; 6. a rotating shaft; 7. a biaxial motor; 8. a cam; 9. a mold rod seat; 10. a mold bar body; 11. a second slide rail; 12. a slide bar; 13. a die body; 14. a connecting plate; 15. a spring; 16. a first slide rail.

Detailed Description

Fig. 1 to 3 show, relate to a vibration blanking mechanism for static pressure forming machine, including frame 1, common sliding connection has side seat 3 between two guide posts of the homonymy of frame 1, and the installation of mould body 13 is favorable to in the setting of side seat 3.

The inside wall of two side seats 3 is equal fixed mounting has two first slide rails 16, sliding connection has mould body 13 between four first slide rails 16, and the setting of two first slide rails 16 has spacing effect to mould body 13, can guarantee the stability that mould body 13 removed, and a plurality of nib that run through to the bottom is seted up at the top of mould body 13, and the nib be favorable to fragment of brick compression moulding, and sliding connection between nib and the adjacent moulding pole body 10.

Two movable lifting components are mounted between the two die bodies 13 and the frame 1 in a sliding mode, two sliding rods 12 are symmetrically and fixedly connected to two sides of the outer surface of the die body 13, the two movable lifting components comprise oil cylinders 4, the oil cylinders 4 are fixedly mounted at the inner top of the frame 1, movable ends of the oil cylinders 4 are fixedly connected with movable plates 5, the movable plates 5 are slidably connected with the two adjacent sliding rods 12, and the movable plates 5 are matched with the sliding rods 12 to ensure that the oil cylinders 4 can drive the die bodies 13 to lift without affecting left and right movement of the die bodies.

The below of mould body 13 is equipped with mould pole seat 9, the installation that is favorable to mould pole body 10 of being provided with of mould pole seat 9, the top fixed mounting of mould pole seat 9 have a plurality of mould pole bodies 10 with mould body 13 assorted, the setting of mould pole body 10 can block up the nib bottom, avoid the material to expose, simultaneously also be favorable to the fragment of brick after the shaping to push out, the interior bottom fixed mounting of frame 1 has second slide rail 11, and sliding connection between second slide rail 11 and the mould pole seat 9, the stability that mould pole seat 9 removed can be guaranteed in the setting of second slide rail 11.

The surface both sides of frame 1 all fixedly connected with casing 2, install vibration subassembly jointly between two casings 2 and the mould body 13, vibration subassembly includes four connecting plates 14, and connecting plates 14 fixed mounting are in adjacent die lever seat 9 and the surface both sides of mould body 13 respectively, four connecting plates 14 all run through the outer wall of adjacent casing 2 and extend to inside, common fixedly connected with two springs 15 between two connecting plates 14 of homonymy and the adjacent casing 2 inner wall, vibration subassembly still includes biax motor 7, and biax motor 7 fixed mounting is on the one side inner wall of adjacent casing 2, two drive ends of biax motor 7 are all fixedly connected with pivot 6, and rotate between pivot 6 and the adjacent casing 2 and be connected, the cam 8 with connecting plate 14 looks butt has all been fixedly cup jointed to the surface of two pivot 6, biax motor 7 drive pivot 6 rotates, cam 8, spring 15 cooperation connecting plate 14 drive die lever seat 9 and mould body 13 frequently reciprocate, thereby realize vibrations.

Working principle: when the blanking, the hopper moves to the top of mould body 13, then biax motor 7 operation, biax motor 7 drive pivot 6 rotates, and pivot 6 drives cam 8 and rotates, and cam 8, spring 15 cooperation connecting plate 14 drive mould pole seat 9 and the frequent reciprocating motion of mould body 13 to realize vibrations, thereby break up the material that falls into the nib, make the nib can be filled by the material completely, then biax motor 7 stop operation, whole reset, then the hopper resets, whole start operation suppresses the fragment of brick.

The foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and scope of the utility model are intended to be included within the scope of the utility model.

Claims (7)

1. The utility model provides a static pressure is vibrations unloading mechanism for make-up machine, includes frame (1), its characterized in that: a side seat (3) is connected between the two guide posts on the same side of the frame (1) in a sliding manner;

The inner side walls of the two side seats (3) are fixedly provided with two first sliding rails (16), and a die body (13) is connected between the four first sliding rails (16) in a sliding manner;

a movable lifting assembly is commonly arranged between the die body (13) and the frame (1);

A die rod seat (9) is arranged below the die body (13), and a plurality of die rod bodies (10) matched with the die body (13) are fixedly arranged at the top of the die rod seat (9);

The two sides of the outer surface of the frame (1) are fixedly connected with the shells (2), and a vibration assembly is jointly installed between the two shells (2) and the die body (13).

2. The vibration blanking mechanism for a hydrostatic molding machine according to claim 1, wherein: two sliding rods (12) are symmetrically and fixedly connected to two sides of the outer surface of the die body (13).

3. The vibration blanking mechanism for a hydrostatic molding machine according to claim 2, wherein: the two movable lifting assemblies comprise oil cylinders (4), the oil cylinders (4) are fixedly arranged at the inner top of the frame (1), movable ends of the oil cylinders (4) are fixedly connected with movable plates (5), and the movable plates (5) are in sliding connection with two adjacent sliding rods (12).

4. The vibration blanking mechanism for a hydrostatic molding machine according to claim 1, wherein: the vibration assembly comprises four connecting plates (14), the connecting plates (14) are respectively and fixedly arranged on two sides of the outer surfaces of the adjacent die rod seat (9) and the die body (13), the four connecting plates (14) penetrate through the outer walls of the adjacent shells (2) and extend to the inside, and two springs (15) are fixedly connected between the two connecting plates (14) on the same side and the inner walls of the adjacent shells (2).

5. The vibration blanking mechanism for a hydrostatic molding machine according to claim 4, wherein: the vibration assembly further comprises a double-shaft motor (7), the double-shaft motor (7) is fixedly mounted on one side inner wall of the adjacent shell (2), two driving ends of the double-shaft motor (7) are fixedly connected with rotating shafts (6), the rotating shafts (6) are rotationally connected with the adjacent shell (2), and two outer surfaces of the rotating shafts (6) are fixedly sleeved with cams (8) which are abutted against the connecting plates (14).

6. The vibration blanking mechanism for a hydrostatic molding machine according to claim 1, wherein: the second sliding rail (11) is fixedly arranged at the inner bottom of the frame (1), and the second sliding rail (11) is in sliding connection with the die rod seat (9).

7. The vibration blanking mechanism for a hydrostatic molding machine according to claim 1, wherein: the top of the die body (13) is provided with a plurality of die holes penetrating to the bottom, and the die holes are in sliding connection with the adjacent die rod bodies (10).