CN113022678A

CN113022678A - Conveying trolley applied to automatic lower die of ceramic production line and working process

Info

Publication number: CN113022678A
Application number: CN202110317849.1A
Authority: CN
Inventors: 陈育文
Original assignee: Dehua Taoyang Machinery Equipment Co ltd
Current assignee: Dehua Taoyang Machinery Equipment Co ltd
Priority date: 2021-03-25
Filing date: 2021-03-25
Publication date: 2021-06-25

Abstract

The invention relates to the field of ceramic processing, in particular to a conveying trolley capable of automatically molding a lower die and applied to a ceramic production line and a working process. The automobile body surface is equipped with the cavity, and sweep slidable locates on the automobile body, and the sweep top is located to the cavity, and this sweep is used for placing the mould, and the sweep bottom surface is equipped with a plurality of sliders. The screw rod symmetry is located on the cavity inner wall, and the screw rod can rotate relative to the cavity inner wall, and on the slider was located the screw rod respectively slidable, when the sweep removed, this slider slidable ran through the mouth of stepping down that is located the car body side. Adopt above-mentioned sweep and mould structure along the screw rod removal, can make the sweep drive the mould and keep away from the automobile body and be located the pressure module of automobile body top, and because the mould top has lacked stopping of moulding-die piece, has reduced the hindrance of taking out the mould greatly for need not the manual work and stretch into the mould of taking out of the patterns of hard between automobile body and the moulding-die piece with the hand, simple structure, the simple operation can improve the efficiency of drawing of patterns.

Description

Conveying trolley applied to automatic lower die of ceramic production line and working process

Technical Field

The invention relates to the field of ceramic processing, in particular to a conveying trolley capable of automatically molding a lower die and a working process, which are applied to a ceramic production line.

Background

Need transport ceramic mould through transporting the platform truck in ceramic manufacture line, and in order to avoid ceramic mould atress to cause skew or slope in transportation and course of working, lead to ceramic mould to drop the damage, all can assemble on the transportation platform truck and press the module, compress tightly ceramic mould at transporting the platform truck surface through pressing the module, nevertheless because press the module to be located directly over ceramic mould, when taking out ceramic mould and carrying out the drawing of patterns, need the manual work to stretch into the hand and transport and take out ceramic mould between platform truck and the moulding-die piece, not only be difficult to operate, and hard, thereby lead to the drawing of patterns inefficiency.

Disclosure of Invention

In view of the above-mentioned shortcomings of the background art, the present invention provides a conveying trolley capable of automatically lowering a mold, which is applied to a ceramic production line.

The invention adopts the following technical scheme that the method comprises the following steps:

the device comprises a vehicle body, a handle;

the sweeping board is arranged on the upper surface of the vehicle body in a sliding mode, covers the cavity and is used for placing a mold, and a plurality of sliding blocks are symmetrically arranged on the bottom surface of the sweeping board;

the screw rods are symmetrically arranged on the inner wall of the cavity and can rotate relative to the inner wall of the cavity;

the sliding blocks are respectively arranged on the screw rods in a sliding mode, and when the sweeping board moves, the sliding blocks can slidably penetrate through the position yielding openings.

As a further improvement, one end of the screw rod, which is far away from the let position opening, is fixedly connected with a driven gear, the driven gear is meshed with the driving gear, the driven gear is positioned on the outer sides of the symmetrically arranged sliding blocks, the driving gear is rotatably connected with a motor, and the motor is arranged on the inner wall of the cavity.

As a further improvement, one end of the screw rod, which is close to the yielding port, is provided with a bearing frame, the bearing frame is connected to the inner wall of the cavity, and the bearing frame is positioned between the symmetrically arranged sliding blocks.

As a further improvement, a blanking table is arranged on one blanking side of the vehicle body, a supporting block is arranged above the blanking table and can horizontally move relative to the blanking table, after the vehicle board moves above the supporting block, the vehicle board covers the upper surface of the supporting block, the sliding block abuts against the side surface of the supporting block, and a gap is formed between the sliding block and the upper surface of the blanking table.

As a further improvement, the bottom surface of the supporting block is connected with a guide block, the surface of the blanking table is provided with a guide groove which is sunken downwards, and the guide block is embedded in the guide groove in a sliding manner.

As a further improvement, a spring is arranged between the side surface of the guide block and the inner wall of the guide groove.

The utility model provides a but be applied to ceramic manufacture line automatic lower mould transport platform truck's work flow which characterized in that carries out according to following step:

firstly, moving a pressing module upwards along a screw rod by rotating the screw rod and keeping away from a mould; secondly, starting a motor, driving a driving gear to rotate through the motor, driving a screw rod to rotate under the action of a driven gear, and enabling a slide block to drive a turning plate and a mold to move along the screw rod and to be far away from a vehicle body and a pressing module positioned above the vehicle body; thirdly, when the sweep moves to cover the upper surface of the supporting block and the slide block props against the side surface of the supporting block, the sweep continues to move to push the supporting block and the guide block to slide along the guide groove and compress the spring; fourthly, when the guide block is positioned at the end point of the guide groove, the motor stops rotating, and the sweep is static; fifthly, demolding the die; sixthly, after the demolding of the mold is finished, the mold is recombined and is sequentially placed on the turning plate; and seventhly, reversing the motor to enable the sweep to drive the die to reset along the screw rod, stopping the motor until the sweep is reset, and resetting the supporting block and the guide block along the guide groove under the action of resilience force of the spring.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: the conveying trolley comprises a trolley body, a trolley plate and a screw rod. The surface of the vehicle body is provided with a cavity which is sunken downwards, the upper surface of the vehicle body is arranged on the vehicle plate in a sliding way, the vehicle plate covers the cavity, the vehicle plate is used for placing a mold, and the bottom surface of the vehicle plate is symmetrically provided with a plurality of sliding blocks. The screw rod symmetry is located on the cavity inner wall, and the screw rod can rotate relative to the cavity inner wall, and the slider is slidable respectively and is located on the screw rod, and when the sweep removed, this slider slidable runs through the position of letting mouth that is located on the car body side. Adopt above-mentioned sweep and mould structure along the screw rod removal, can make the sweep drive the mould and keep away from the automobile body and be located the pressure module of automobile body top, and because the mould top has lacked stopping of moulding-die piece, has reduced the hindrance of taking out the mould greatly for need not the manual work and stretch into the mould of taking out of the patterns of hard between automobile body and the moulding-die piece with the hand, simple structure, the simple operation can improve the efficiency of drawing of patterns.

Drawings

Fig. 1 is a schematic view of a three-dimensional connection structure of a car body, a portal frame and a pressing module.

Fig. 2 is a perspective view of the vehicle body.

Fig. 3 is a schematic perspective view of the mold after being placed on the vehicle body.

Fig. 4 is a sectional structure diagram of the vehicle body.

FIG. 5 is a schematic cross-sectional view of the mold moved by the lath.

Fig. 6 is a schematic sectional structure view of the blanking table.

FIG. 7 is a schematic view of the structure of the cart board after moving above the support blocks.

Detailed Description

The following describes embodiments of the present invention with reference to the drawings.

As shown in fig. 3 and 4, a conveying trolley for an automatic lower mold of a ceramic production line comprises a trolley body 2, a trolley plate 21 and a screw 23.

As shown in the accompanying

drawings

1 and 2, portal frames 1 are symmetrically arranged on two sides of the vehicle body 2, a rotatable screw rod 11 is connected to each portal frame 1, a pressing module 3 for pressing the mold 4 is connected to the screw rod 11, the pressing module 3 can move up and down relative to the vehicle body 2, and the arrangement of the pressing module 3 can avoid the mold 4 from deviating or toppling in the subsequent operation process so as to ensure that the ceramic in the mold 4 can be molded smoothly.

As shown in fig. 4 and 5, a cavity 22 recessed downwards is formed in the surface of the car body 2, the car plate 21 is slidably disposed on the upper surface of the car body 2, the car plate 21 covers the cavity 22, the car plate 21 is used for placing the mold 4, a plurality of sliding blocks 29 are symmetrically arranged on the bottom surface of the car plate 21, when the car plate 21 is operated, the car plate 21 is moved to drive the mold 4 to be away from the car body 2 and the pressing mold 3 located above the car body 2, and the blocking of the pressing mold 3 is reduced above the mold 4, so that the blocking of taking out the mold 4 is greatly reduced, the manual operation is not needed to stretch the hand into the space between the car body 2 and the pressing mold 3, and the mold 4 is taken out difficultly, and the demolding efficiency is improved.

As shown in fig. 4 and 5, the screw 23 is symmetrically disposed on the inner wall of the cavity 22, and the screw 23 can rotate relative to the inner wall of the cavity 22, the screw 23 is connected to the inner wall of the cavity 22 through a bearing, and the sliding blocks 29 are respectively slidably disposed on the screw 23, and when the sweep 21 moves, the sliding blocks 29 slidably penetrate through the abdicating openings 28 on the side surface of the car body 2, the abdicating openings 28 are disposed, so that the sliding blocks 29 and the sweep 21 are concrete, a driven gear 24 is fixedly connected to one end of the screw 23 away from the abdicating openings 28, the driven gear 24 is engaged with the driving gear 25, and the driven gear 24 is disposed outside the symmetrically disposed sliding blocks 29, so as to prevent the driven gear 24 from obstructing the movement of the sliding blocks 29 and the sweep 21, the driving gear 25 is rotatably connected with the motor 26, the motor 26 is disposed on the inner wall of the cavity 22, and in operation, the driven gear 24 rotates the screw 23 under the action of the driving gear 25, so that the slide 29 moves the sweep 21 and the mold 4 along the screw 23 away from the vehicle body 2 and the press mold block 3 above the vehicle body 2 to facilitate the demolding operation. Further, the screw 23 is close to one of letting a mouthful 28 and serves and be equipped with bearing bracket 27, this bearing bracket 27 is connected to on the cavity 22 inner wall, bearing bracket 27's setting can make the atress of screw 23 more balanced, reduce the crooked risk of screw 23 atress in the use, prolong screw 23's life, the bearing capacity of screw 23 has been strengthened simultaneously, make sweep 21 and mould 4 can steady removal, and bearing bracket 27 is located between the slider 29 that the symmetry set up, when guaranteeing sweep 21 and mould 4 can steady removal, the influence that furthest reduction bearing bracket 27 caused to sweep 21 and mould 4 removal.

As shown in fig. 6 and 7, a blanking table 3 is disposed on a blanking side of the car body 2, a supporting block 31 is disposed above the blanking table 3, and the supporting block 31 can move horizontally relative to the blanking table 3, specifically, a guiding block 32 is connected to a bottom surface of the supporting block 31, a guiding groove 34 recessed downward is disposed on a surface of the blanking table 3, the guiding block 32 is slidably embedded in the guiding groove 34, and a spring 33 is disposed between a side surface of the guiding block 32 and an inner wall of the guiding groove 34, so that the guiding block 32 can be prevented from shifting during a moving process by an inner wall of the guiding groove 34, the guiding block 32 is prevented from dropping and affecting a supporting effect, the spring 33 is disposed, the guiding block 32 can be reset without being forced, preparation is made for next blanking, and after the car plate 21 moves above the supporting block 31, the car plate 21 covers an upper surface of the supporting block 31, slider 29 supports supporting shoe 31 side, the clearance has between slider 29 and the 3 upper surfaces of unloading table this moment, this supporting shoe 31 can be used to the auxiliary stay sweep 21, make sweep 21 atress more balanced, strengthen sweep 21's bearing capacity, in order to avoid sweep 21 to buckle and lead to mould 4 to drop and pound the damage, and can prolong sweep 21's life, and the clearance has between slider 29 and the unloading table 3, can prevent that slider 29 from scraping 3 upper surfaces of unloading table in the sweep 21 removal process, lead to the unloading table 3 to appear mar and scrape the trace.

During operation, the screw rod 11 is rotated to move the die block 3 upwards along the screw rod 11 to be away from the mold 4, the motor 26 is started, the driving gear 25 is driven to rotate by the motor 26, the screw 23 is driven to rotate by the driven gear 24 under the action of the driving gear 25, so that the slide block 29 drives the car plate 21 and the mold 4 to move along the screw 23 to be away from the car body 2 and the die block 3 positioned above the car body 2, when the car plate 21 moves to cover the upper surface of the supporting block 31 and the slide block 29 abuts against the side surface of the supporting block 31, the car plate 21 continues to move, the supporting block 31 and the guide block 32 are pushed to slide along the guide groove 34 to compress the spring 33, wherein the supporting block 31 can be used for assisting in supporting the car plate 21 to ensure that the stress of the car plate 21 is more balanced, so as to enhance the bearing force of the car plate 21 to prevent the mold 4 from falling and being damaged due to bending of the car plate 21, and a gap is, so as to prevent the sliding block 29 from scraping the upper surface of the blanking table 3 in the moving process of the sweep 21, resulting in scratches and scraping marks on the blanking table 3, and when the guide block 32 is located at the end point of the guide groove 34, the motor 26 stops rotating, the sweep 21 is static, at this time, because the blocking of the die block 3 is reduced above the die 4, the blocking of taking out the die 4 is greatly reduced, the labor of workers for taking out the die 4 between the body 2 and the die block 3 is not needed to be carried out, the structure is simple, the operation is convenient, the efficiency of demoulding can be improved, and when the finished products in the die 4 are all taken out, the die 4 is combined again, and is put on the sweep 21 in sequence, the motor 26 is reversed, the sweep 21 drives the die 4 to reset along the screw 23, and simultaneously the support block 31 and the guide block 32 reset along the guide groove 34 under the effect of the resilience force of the spring 33, so that the support block 31 can assist, the stress on the vehicle plate 21 is more balanced, and the bearing capacity of the vehicle plate 21 is enhanced.

firstly, rotating a screw rod 11 to enable a pressing module 3 to move upwards along the screw rod 11 and to be far away from a mould 4;

secondly, starting the motor 26, driving the driving gear 25 to rotate through the motor 26, and driving the screw 23 to rotate under the action of the driving gear 25 by the driven gear 24, so that the slide block 29 drives the sweep 21 and the mold 4 to move along the screw 23 and to be far away from the vehicle body 2 and the pressing module 3 positioned above the vehicle body 2;

thirdly, when the car plate 21 moves to cover the upper surface of the supporting block 31 and the sliding block 29 abuts against the side surface of the supporting block 31, the car plate 21 continues to move to push the supporting block 31 and the guide block 32 to slide along the guide groove 34 to compress the spring 33, wherein the supporting block 31 can be used for assisting in supporting the car plate 21, so that the stress of the car plate 21 is more balanced, the bearing force of the car plate 21 is enhanced, the situation that the mould 4 falls and is damaged due to bending of the car plate 21 is avoided, and in the process that the car plate 21 continues to move, a gap is always formed between the sliding block 29 and the blanking table 3, so that the situation that the sliding block 29 scrapes the upper surface of the blanking table 3 in the moving process of the car plate 21 to cause scratches and scraping marks on;

fourthly, when the guide block 32 is positioned at the end point of the guide groove 34, the motor 26 stops rotating, the sweep 21 is static, at the moment, the blocking of the pressing module 3 is reduced above the mould 4, so that the blocking of taking out the mould 4 is greatly reduced, a worker does not need to stretch hands into the space between the car body 2 and the pressing module 3 to take out the mould 4 with great effort for demoulding, the structure is simple, the operation is convenient, and the demoulding efficiency can be improved;

fifthly, demolding the mold 4;

sixthly, after the demolding of the mold 4 is finished, the mold 4 is combined again and placed on the vehicle plate 21 in sequence;

seventhly, the motor 26 is rotated reversely, the vehicle plate 21 drives the die 4 to reset along the screw rod 23, the motor 26 is stopped until the vehicle plate 21 is reset, and meanwhile, the supporting block 31 and the guide block 32 reset along the guide groove 34 under the effect of resilience force of the spring 33, so that the supporting block 31 can assist in supporting the vehicle plate 21 at any time, the stress of the vehicle plate 21 is more balanced, and the bearing force of the vehicle plate 21 is enhanced.

The above description is only an embodiment of the present invention, but the design concept of the present invention is not limited thereto, and any insubstantial modifications made by using the design concept should fall within the scope of infringing the present invention.

Claims

1. The utility model provides a but be applied to ceramic manufacture line automatic lower mould transport platform truck which characterized in that, including:

the device comprises a vehicle body, a handle;

2. The conveying trolley applicable to the automatic lower dies of the ceramic production line as claimed in claim 1, wherein: one end of the screw rod, which is far away from the let position opening, is fixedly connected with a driven gear, the driven gear is meshed with the driving gear, the driven gear is positioned on the outer sides of the sliding blocks which are symmetrically arranged, the driving gear is rotatably connected with a motor, and the motor is arranged on the inner wall of the cavity.

3. The conveying trolley applicable to the automatic lower dies of the ceramic production line as claimed in claim 1, wherein: and one end of the screw rod, which is close to the yielding port, is provided with a bearing frame, the bearing frame is connected to the inner wall of the cavity, and the bearing frame is positioned between the symmetrically arranged sliding blocks.

4. The conveying trolley applicable to the automatic lower dies of the ceramic production line as claimed in claim 1, wherein: the blanking table is arranged on one side of the blanking body, a supporting block is arranged above the blanking table and can horizontally move relative to the blanking table, when the turning plate moves above the supporting block, the turning plate covers the upper surface of the supporting block, the sliding block abuts against the side surface of the supporting block, and a gap is formed between the sliding block and the upper surface of the blanking table.

5. The conveying trolley applicable to the automatic lower dies of the ceramic production line as claimed in claim 4, wherein: the bottom surface of supporting shoe is connected with the guide block, and unloading table surface is equipped with undercut's guide way, the guide block slidable inlay in the guide way.

6. The conveying trolley applicable to the automatic lower dies of the ceramic production line as claimed in claim 5, wherein: a spring is arranged between the side surface of the guide block and the inner wall of the guide groove 34.

7. The work flow of the conveying trolley capable of automatically conveying the lower die for the ceramic production line according to any one of claims 1 to 6 is characterized by comprising the following steps of:

firstly, moving a pressing module upwards along a screw rod by rotating the screw rod and keeping away from a mould;

secondly, starting a motor, driving a driving gear to rotate through the motor, driving a screw rod to rotate under the action of a driven gear, and enabling a slide block to drive a turning plate and a mold to move along the screw rod and to be far away from a vehicle body and a pressing module positioned above the vehicle body;

thirdly, when the sweep moves to cover the upper surface of the supporting block and the slide block props against the side surface of the supporting block, the sweep continues to move to push the supporting block and the guide block to slide along the guide groove and compress the spring;

fourthly, when the guide block is positioned at the end point of the guide groove, the motor stops rotating, and the sweep is static;

fifthly, demolding the die;

sixthly, after the demolding of the mold is finished, the mold is recombined and is sequentially placed on the turning plate;

and seventhly, reversing the motor to enable the sweep to drive the die to reset along the screw rod, stopping the motor until the sweep is reset, and resetting the supporting block and the guide block along the guide groove under the action of resilience force of the spring.