CN219563608U - Novel drawing of patterns synchronization assembly - Google Patents

Abstract

The utility model relates to the technical field of hydraulic brick making equipment, in particular to a novel demoulding synchronous component which is suitable for demoulding of large-scale water conservancy bricks and has long demoulding stroke and heavy demoulding load, comprising a base, a footstock, four guide posts, two demoulding cylinder components, a demoulding seat, a synchronous shaft, two first swing arms and two second swing arms, wherein the four guide posts are arranged on the base, the footstock is arranged on the four guide posts, the demoulding seat is arranged on the four guide posts and slides along the guide posts, one ends of the two first swing arms are respectively hinged with the transverse two ends of the demoulding seat, one ends of the two second swing arms are respectively hinged with the other ends of the first swing arms, the other ends of the two second swing arms are respectively hinged with the axial two ends of the synchronous shaft, the synchronous shaft is rotatably arranged at the lower part of the base and is positioned at one longitudinal side of the base, one ends of the two demoulding cylinder components are respectively hinged with the transverse two ends of the demoulding seat, and the other ends of the two demoulding cylinder components are respectively hinged with the transverse two ends of the footstock.

Description

Novel drawing of patterns synchronization assembly

Technical Field

The utility model relates to the technical field of hydraulic brick making equipment, in particular to a novel demoulding synchronous assembly.

Background

The inventor applies for a patent application number 202221309791.2 in the 27 th year of 2022 and has the patent name of a double-material block forming machine, which in detail discloses a double-material block forming machine comprising a frame, an aggregate distributing device, a fabric distributing device, a hydraulic forming device, a bracket and a guiding device, wherein the aggregate distributing device is arranged on the frame, the hydraulic forming device is arranged between the fabric distributing device and the aggregate distributing device, the guiding device is arranged on one lateral side of the hydraulic forming device, the bracket is arranged on the guiding device and moves along the direction of the guiding device, the fabric distributing device is arranged on the bracket, the fabric distributing device comprises a fabric bin arranged on the bracket, a fabric distributing vehicle arranged on the lower side of the fabric bin and a first driving device for driving the fabric distributing vehicle to reciprocate between the fabric bin and the hydraulic forming device, the aggregate distributing device is arranged on the other lateral side of the hydraulic forming device, the aggregate distributing device comprises an aggregate bin arranged on the frame, an aggregate distributing vehicle arranged on the lower side of the aggregate bin and a second driving device for driving the aggregate distributing vehicle to reciprocate in the aggregate bin and the hydraulic forming device, the hydraulic forming device comprises a guide post arranged on the frame, a hydraulic cylinder, a pressure head component arranged on an output shaft of the hydraulic cylinder, a vibration component arranged on the lower side of the pressure head component, a mould frame arranged on the vibration component, a demoulding component convenient for demoulding the mould frame and a damping component for reducing vibration transmission of the mould frame, the driving support is particularly close to the hydraulic forming device along the guiding device, the fabric is fed on the fabric distributing vehicle through the fabric bin and is conveyed into a die cavity on the mould frame through the first driving device, uniform and compact of the fabric is realized through small vibration of the vibration component, the aggregate is fed on the aggregate distributing vehicle through the aggregate bin, and the second driving device is used for conveying the aggregate and the fabric into the die cavity on the die frame, the vibration assembly vibrates, and the hydraulic cylinder is used for driving the pressure head assembly to move downwards along the guide post to be matched with the die frame, so that aggregate and fabric in the die cavity are compacted and formed.

The demolding assembly in the equipment drives the synchronous shaft to rotate through the servo motor, and drives the demolding seat to move along the guide pillar through the swing arms and the connecting rods at the two axial ends of the synchronous shaft, so that demolding of the mold frame is realized, the mold frame is mainly used for molding of building block bricks, the mold frame is formed to be shorter in demolding, the mold frame is smaller in size and lighter in weight, the length dimension of the mold frame is more than 1 meter, and the width and the height of the mold frame reach 50 cm for large-scale water conservancy bricks, so that the weight of the mold frame is greatly improved, the demolding formation of the mold frame is increased, and the equipment cannot be suitable for production of the large-scale water conservancy bricks.

Disclosure of Invention

Therefore, in order to solve the problems, the utility model provides a novel demolding synchronous assembly which is suitable for large-scale water conservancy brick demolding, and has long demolding stroke and large demolding load.

In order to achieve the above purpose, the present utility model adopts the following technical scheme:

the utility model provides a novel drawing of patterns synchronization assembly, includes base, footstock, four guide posts, two drawing of patterns hydro-cylinder subassemblies, takes off die holder, synchronizing shaft, two first swing arms and two second swing arms, four on the base was located to the guide post, the footstock is located on four guide posts, and constitute the frame through base, four guide posts and footstock, the length direction of defining along the frame extends to horizontal direction, the width direction along the frame extends to vertical direction, the height direction along the frame extends to vertical direction, the drawing of patterns seat is located on four guide posts, and slides along the guide post, two the one end of first swing arm articulates with the horizontal both ends of taking off the die holder respectively, two the one end of second swing arm articulates with the other end of first swing arm respectively, two the other end of second swing arm articulates with the axial both ends of synchronizing shaft respectively, the lower part of base is rotationally located to one side of base, two the one end of drawing of patterns hydro-cylinder subassembly articulates with the horizontal both ends of taking off the die holder respectively, two the other end of drawing of hydro-cylinder subassembly articulates with the horizontal both ends of footstock respectively, take off the side is equipped with four mounting groove, each four vibration damper assemblies are equipped with in the side-absorbing assembly.

Further, the damping component comprises a mounting seat arranged in the mounting groove, a connecting arm and a damping air bag, wherein the damping air bag is arranged on the mounting seat, the middle part of the connecting arm is hinged with the die holder, and when the die frame is mounted, one end of the connecting arm abuts against the peripheral edge of the die frame, and the other end of the connecting arm abuts against the damping air bag.

Further, the shock absorbing air bags located on the same shock absorbing assembly comprise three first air bags and two second air bags, the volume size of the first air bags is smaller than that of the second air bags, and the first air bags and the second air bags are distributed in a staggered mode.

Further, the guide pillar includes the guiding part of integrative setting, locates the upper junction and the lower connecting portion at guiding part axial both ends, all have the external screw thread on upper junction and the lower connecting portion, the diameter size of upper junction and lower connecting portion is less than the diameter size of guiding part for the both ends of guiding part form a ring-shaped end edge, be equipped with the lower connecting hole that supplies the lower connecting portion to pass on the base, lower connecting portion threaded connection has lower lock nut, be equipped with the last connecting hole that upper junction passed on the footstock, upper junction threaded connection has upper lock nut.

Further, the lower end of the upper connecting hole and the upper end of the lower connecting hole are provided with stepped grooves, and the annular end edge is abutted in the stepped grooves.

Furthermore, a connecting sleeve is arranged in the stepped groove of the lower connecting hole, the guide post penetrates through the connecting sleeve, a connecting seat is arranged on the outer surface of the connecting sleeve, and the connecting seat is locked on the upper surface of the base through a bolt.

By adopting the technical scheme, the utility model has the beneficial effects that: this novel drawing of patterns synchronization subassembly, when the drawing of patterns, drive through drawing of patterns hydro-cylinder subassembly and take off the die holder along guide pillar upward movement to drive the drawing of patterns of mould frame, simultaneously, through the setting of first swing arm, second swing arm and synchronizing shaft, and the synchronizing shaft rotationally is equipped with the lower extreme of frame, realize synchronous action, make the drawing of patterns operation stability that takes off die holder, mould frame good, and the setting of drawing of patterns hydro-cylinder subassembly, can guarantee the stability of operation when realizing great running stroke and great load, thereby adapt to the longer, heavier problem of mould frame drawing of patterns stroke of the mould frame weight of large-scale water conservancy brick.

Drawings

FIG. 1 is a schematic elevational view of an embodiment of the present utility model;

FIG. 2 is a schematic perspective view of a shock absorbing assembly according to the present embodiment;

fig. 3 is a schematic view of a frame in a partially cut-away configuration in an embodiment of the utility model.

Detailed Description

The utility model will now be further described with reference to the drawings and detailed description.

The embodiment of the utility model comprises the following steps:

referring to fig. 1, a novel demolding synchronization assembly comprises a base 1, a top seat 2, four guide posts 3, two demolding cylinder assemblies 4, a demolding seat 5, a synchronization shaft 6, two first swing arms 7 and two second swing arms 8, wherein the four guide posts 3 are arranged on the base 1, the top seat 2 is arranged on the four guide posts 3, a frame is formed by the base 1, the four guide posts 3 and the top seat 2, the longitudinal direction of the frame is defined, the width direction of the frame is defined, the longitudinal direction of the frame is defined, the height direction of the frame is defined, the demolding seat 5 is arranged on the four guide posts 3 and slides along the guide posts 3, one end of the first swing arm 7 is hinged to two transverse ends of the demolding seat 5 respectively, one end of the second swing arm 8 is hinged to the other end of the first swing arm 7 respectively, the other end of the second swing arm 8 is hinged to two axial ends of the synchronizing shaft 6 respectively, the synchronizing shaft 6 is rotatably arranged at the lower part of the base 1 and is located on one longitudinal side of the base 1, one end of the demolding cylinder assembly 4 is hinged to two transverse ends of the demolding seat 5 respectively, the other end of the demolding cylinder assembly 4 is hinged to two transverse ends of the top seat 2 respectively, mounting grooves 9 are concavely formed in two transverse side faces of the demolding seat 5, and four damping assemblies 10 are arranged in the mounting grooves 9 respectively.

This novel drawing of patterns synchronization subassembly, when the drawing of patterns, drive through drawing of patterns hydro-cylinder subassembly 4 and take off die holder 5 along guide pillar 3 upward movement to drive the mould frame drawing of patterns, simultaneously, through the setting of first swing arm 7, second swing arm 8 and synchronizing shaft 6, and synchronizing shaft 6 rotationally is equipped with the lower extreme of base 1, realize synchronous action, make drawing of patterns seat 5, the drawing of patterns running stability of mould frame good, and the setting of drawing of patterns hydro-cylinder subassembly 4, can guarantee the stability of operation when realizing great running stroke and great load, thereby adapt to the longer, heavier problem of mould frame drawing of patterns stroke of large-scale water conservancy brick.

And, referring to fig. 2, the shock absorbing assembly 10 includes a mounting seat 101 disposed in the mounting groove 9, a connecting arm 102 and a shock absorbing air bag 103, the shock absorbing air bag 103 is disposed on the mounting seat 101, the middle portion of the connecting arm 102 is hinged with the demolding seat 5, when the mold frame is mounted, one end of the connecting arm 102 abuts against the peripheral edge of the mold frame, the other end abuts against the shock absorbing air bag 103, the shock absorbing air bag 103 disposed on the same shock absorbing assembly 10 includes three first air bags 113 and two second air bags 123, the volume size of the first air bags 113 is smaller than the volume size of the second air bags 123, and the first air bags 113 and the second air bags 123 are distributed in a staggered manner.

The die frame is pressed through the damping component 10, so that the redundant vibration of the die frame is reduced and transmitted to the frame, the noise is further reduced, the service life of the equipment is prolonged, and particularly, through the connecting arm 102, the middle part of the connecting arm is hinged with the die holder 5, and when the die frame is installed, one end of the connecting arm 102 is abutted against the peripheral edge of the die frame, and the other end is abutted against the damping air bag 103, so that the vibration on the die frame is transmitted to the damping air bag 103 and eliminated through the damping air bag 103; and the volume sizes of the first and second airbags 113 and 123 set through the shock absorbing airbag 103 are set and staggered, the shock absorbing effect is further improved, and the durability of the shock absorbing airbag can be improved.

In this embodiment, referring to fig. 3, the guide post 3 includes a guiding portion 31 integrally provided, an upper connecting portion 32 and a lower connecting portion 33 disposed at two axial ends of the guiding portion 31, the upper connecting portion 32 and the lower connecting portion 33 are both provided with external threads, the diameter dimensions of the upper connecting portion 32 and the lower connecting portion 33 are smaller than those of the guiding portion 31, so that two ends of the guiding portion 31 form an annular end edge 34, a lower connecting hole 12 through which the lower connecting portion 33 passes is disposed on the base 1, the lower connecting portion 33 is in threaded connection with a lower locking nut 14, an upper connecting hole 11 through which the upper connecting portion 32 passes is disposed on the top seat 2, the upper connecting portion 32 is in threaded connection with an upper locking nut 13, a step groove 15 is disposed at the lower end of the upper connecting hole 11 and the upper end of the lower connecting hole 12, and the annular end edge 34 abuts against the step groove 15.

The upper connecting part 32 and the lower connecting part 33 arranged on the guide pillar 3 are used for being matched with the upper connecting hole 11 on the footstock 2 and the lower connecting hole 12 on the base 1, the annular end edge 34 on the guide pillar 3 is propped against the inside of the stepped groove 15 and is locked and connected through the upper locking nut 13 and the lower locking nut 14, the fixed connection between the guide pillar 3 and the footstock 2 and the base 1 is realized, the disassembly and the connection are convenient, the installation stability is good, and meanwhile, the installation error can be greatly reduced by the design of the structure.

Further, the connecting sleeve 16 is arranged in the stepped groove 15 of the lower connecting hole 12, the guide pillar 3 is arranged in the connecting sleeve 16 in a penetrating manner, the connecting seat 17 is arranged on the outer surface of the connecting sleeve 16, the connecting seat 17 is locked on the upper surface of the base 1 through the bolt 18, and the diameter size, the height size and the weight of the guide pillar are increased due to the fact that the device is used for forming large-scale water conservancy bricks, when the guide pillar 3 is fixed on the base 1, extra devices are needed for fixing, the risk of collapse in the installation process is prevented, the guide pillar 3 is fixed in advance through the arranged connecting sleeve 16, and therefore the installation stability of the guide pillar 3 is improved.

While the utility model has been particularly shown and described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (6)

1. A novel synchronous subassembly of drawing of patterns, its characterized in that: the device comprises a base, a top seat, four guide posts, two demolding cylinder assemblies, a demolding seat, a synchronizing shaft, two first swing arms and two second swing arms, wherein the four guide posts are arranged on the base, the top seat is arranged on the four guide posts, a frame is formed by the base, the four guide posts and the top seat, the longitudinal direction extending along the length direction of the frame is defined, the longitudinal direction extending along the width direction of the frame is defined, the longitudinal direction extending along the height direction of the frame is defined, the demolding seat is arranged on the four guide posts and slides along the guide posts, one ends of the first swing arms are respectively hinged with the transverse two ends of the demolding seat, one ends of the second swing arms are respectively hinged with the other ends of the first swing arms, the other ends of the second swing arms are respectively hinged with the axial two ends of the synchronizing shaft, the synchronizing shaft is rotatably arranged at the lower part of the base and is positioned at one longitudinal side of the base, one ends of the demolding cylinder assemblies are respectively hinged with the transverse two ends of the demolding seat, the other ends of the demolding cylinder assemblies are respectively hinged with the transverse two ends of the top seat, the transverse two side surfaces of the demolding seat are respectively provided with mounting grooves, and the four mounting grooves are formed in each of the four mounting assemblies.

2. The novel stripper synchronization assembly of claim 1, wherein: the damping component comprises a mounting seat arranged in the mounting groove, a connecting arm and a damping air bag, wherein the damping air bag is arranged on the mounting seat, the middle part of the connecting arm is hinged with the die holder, and when the die frame is mounted, one end of the connecting arm abuts against the peripheral edge of the die frame, and the other end of the connecting arm abuts against the damping air bag.

3. The novel stripper synchronization assembly of claim 2, wherein: the damping air bags located on the same damping assembly comprise three first air bags and two second air bags, the volume size of the first air bags is smaller than that of the second air bags, and the first air bags and the second air bags are distributed in a staggered mode.

4. A novel stripper synchronization assembly according to any one of claims 1 to 3, characterized in that: the guide pillar comprises a guide part, an upper connecting part and a lower connecting part, wherein the guide part is integrally arranged, the upper connecting part and the lower connecting part are arranged at two axial ends of the guide part, external threads are arranged on the upper connecting part and the lower connecting part, the diameter size of the upper connecting part and the diameter size of the lower connecting part are smaller than those of the guide part, an annular end edge is formed at two ends of the guide part, a lower connecting hole for the lower connecting part to pass through is formed in the base, a lower locking nut is connected with the lower connecting part in a threaded manner, an upper connecting hole for the upper connecting part to pass through is formed in the top seat, and an upper locking nut is connected with the upper connecting part in a threaded manner.

5. The novel stripper synchronization assembly of claim 4, wherein: the lower end of the upper connecting hole and the upper end of the lower connecting hole are provided with stepped grooves, and the annular end edge is abutted in the stepped grooves.

6. The novel stripper synchronization assembly of claim 5, wherein: the connecting sleeve is arranged in the stepped groove of the lower connecting hole, the guide post penetrates through the connecting sleeve, a connecting seat is arranged on the outer surface of the connecting sleeve, and the connecting seat is locked on the upper surface of the base through a bolt.