CN-224226174-U - A translation formula lift for ceramic tile transmission

Abstract

The utility model relates to the technical field of ceramic tile transmission and discloses a translation type lifter for ceramic tile transmission, which comprises a frame, a guide plate, an annular transmission assembly and a plurality of moving assemblies, wherein an annular track is arranged on the vertical surface of the frame, the annular transmission assembly is arranged in the annular track and is used for driving the plurality of moving assemblies to circularly move along the annular track, the guide plate is arranged on the frame and is provided with a guide track, the guide track is positioned at the rear of the annular track, and the moving assemblies comprise a fixing frame, a bracket, a first supporting part and at least three second supporting parts. The problem of conventional lifting device that uses reciprocating movement, must lead to equipment shake grow when increasing reciprocating movement speed for improving transmission efficiency, influence ceramic tile quality, and transmission efficiency is restricted by inertial force and is difficult to further improve is solved.

Inventors

• Zhang Chuancun
• ZHANG HUANLE
• XIE SUI

Assignees

• 佛山市东鹏陶瓷有限公司
• 广东东鹏控股股份有限公司
• 山西东鹏新材料有限公司
• 佛山市东鹏陶瓷发展有限公司

Dates

Publication Date

20260512

Application Date

20250514

Claims (10)

1. 1. The translational elevator for ceramic tile transmission is characterized by comprising a frame, a guide plate, an annular transmission assembly and a plurality of moving assemblies; The vertical surface of the frame is provided with an annular track, the annular track is internally provided with the annular transmission assembly, and the annular transmission assembly is used for driving a plurality of moving assemblies to circularly move along the annular track; The guide plate is arranged on the frame and is provided with a guide rail which is positioned at the rear of the annular rail; The movable assembly comprises a fixing frame, a bracket, a first supporting part and at least three second supporting parts, one end of each first supporting part is installed on the fixing frame and connected with the bracket, the bracket is used for bearing tiles or green bricks, the other end of each first supporting part is installed in the annular transmission assembly in a penetrating mode, at least three second supporting parts are arranged at intervals in the circumferential direction of each first supporting part, one end of each second supporting part is connected with the fixing frame, the other end of each second supporting part penetrates through the guide rail, the first supporting parts move under the driving of the annular transmission assembly, and the second supporting parts follow the movement of the first supporting parts and move along the guide rail.
2. 2. The translational elevator for ceramic tile transmission according to claim 1, wherein one end of the first supporting portion is sleeved with at least two first bearings, the at least two first bearings are arranged at intervals along the length direction of the first supporting portion, a first chute matched with the first bearings is arranged in the annular track, the first bearings are slidably arranged in the first chute, the middle of the first supporting portion is arranged in the annular transmission assembly in a penetrating mode, and the other end of the first supporting portion is connected with the bracket.
3. 3. A translational elevator for tile transport as set forth in claim 1 wherein said second support is three, said three second supports are equidistant from said first support and said three second supports are equally spaced about said first support; The section of the guide rail is a C-shaped groove, the second supporting part is sleeved with a second bearing and a third bearing, the outer diameter of the second bearing is matched with the width of the opening of the C-shaped groove, the second bearing is slidably arranged at the opening of the C-shaped groove, the outer diameter of the third bearing is matched with the width of the inner side of the C-shaped groove, and the third bearing is slidably arranged in the C-shaped groove.
4. 4. The translational elevator for ceramic tile transmission according to claim 1, wherein the annular transmission assembly comprises a first servo motor, a chain and at least four gears, the chain is arranged along the transmission direction of the annular track to form a closed loop structure, the gears are arranged on the annular inner side of the chain and used for driving and supporting and tensioning the chain, the output part of the first servo motor is in transmission connection with at least one gear, the chain is arranged in parallel by adopting a double-layer chain, and the gears are double-layer gears corresponding to the chain.
5. 5. The translational elevator for tile transport of claim 4, wherein the chain comprises a plurality of links and hollow pins, the links are movably connected by the hollow pins, and the first support portion is disposed through the hollow pins.
6. 6. The translational elevator for tile transportation according to claim 1, further comprising two transmission platforms, wherein the transmission platforms comprise a first sensor, a first driver, a first connecting frame and a plurality of first rollers, the plurality of first rollers are horizontally arranged on one side of the first connecting frame, the plurality of first rollers in the same transmission platform are arranged at intervals on the same plane, the bracket comprises a connecting rod and a plurality of supporting rods, one end of each supporting rod is connected with one side of the connecting rod in the width direction, the plurality of supporting rods in the same bracket are mutually parallel and are arranged at intervals, the other side of each connecting rod in the width direction is connected with the first supporting part, the first driver is used for driving the first rollers to rotate, and the first sensor is used for sensing the position of the tile; The intervals among the first rollers of the transmission platform are used for avoiding the bracket, so that the bracket can pass through the transmission platform.
7. 7. The translational elevator for tile transport of claim 1, wherein the moving assembly comprises a second sensor, a second driver, a second connecting frame, and a plurality of second rollers, wherein the plurality of second rollers are horizontally disposed on the second connecting frame, the plurality of second rollers are disposed on the same plane in the same bracket, the second driver is used for driving the second rollers to rotate, and the second sensor is used for sensing the position of the tile on the bracket; The device further comprises a third inductor, wherein the third inductor is electrically connected with the annular transmission assembly, and the third inductor is used for inducing the position of the bracket.
8. 8. A translational elevator for tile transfer as set forth in claim 6 or 7, wherein the length of said connecting rod or said second connecting frame is parallel to the direction of tile transfer in and out, the length of said connecting rod or said second connecting frame is 800 mm, and the length of said supporting rod or said second roller is 1300 mm.
9. 9. A translational elevator for tile transfer as set forth in claim 6 wherein said frame comprises a first elevator and a second elevator, said two drive platforms being disposed elevatably on said first elevator and said second elevator, respectively.
10. 10. A translational elevator for tile transfer as set forth in any one of claims 1-7, wherein said carriage (42) is of a rubber-covered construction.

Description

A translation formula lift for ceramic tile transmission Technical Field The utility model relates to the technical field of tile conveying, in particular to a translation type lifter for tile conveying. Background In the ceramic industry production process, lifting equipment is an important link for connecting various working procedures, in particular to the process that ceramic tiles are transported to a multilayer drying kiln from a press workshop. Along with the large-scale ceramic tile specification and the large-scale production, the requirements on lifting equipment are increasingly improved, and particularly, the lifting efficiency and the quality guarantee of the ceramic tile are required to be considered. At present, the elevator in the ceramic industry mainly has two types, namely an integral elevator, which is characterized by complex structure, low elevator speed and high positioning precision requirement, and a rocker arm elevator which is widely applied to the scene of glaze line climbing or plane height adjustment, such as when 800 mm-by-800 mm-specification bricks are produced, the rocker arm elevator is adopted to convey the ceramic tiles to a three-layer drying kiln. These two types of lifting devices play an important role in existing ceramic production lines, but each has obvious limitations. The rocker arm type lifting mechanism has the advantages that the rocker arm type lifting mechanism is relatively simple in structure, the rocker arm type lifting mechanism is required to swing back and forth, the swinging action frequency is difficult to improve, vibration generated when swinging is stopped is obvious, particularly when the raw brick is produced, when the lifting speed is increased for improving the productivity, the vibration of the rocker arm can cause internal cracks to be generated on the upper raw brick, and even the upper raw brick is broken into two parts after being discharged from a drying kiln in severe cases, because the multilayer platform structure is arranged in the integral lifting mechanism, when the broken brick is produced. In many production scenarios, this disadvantage of rocker-arm elevators has become a bottleneck limiting capacity improvement, and cannot meet the modern requirements of high-efficiency and high-quality production of large-sized tiles. Disclosure of utility model Aiming at the defects, the utility model aims to provide a translation type lifter for ceramic tile transmission, which solves the problems that the existing integral type lifter is complex in structure, high in use and maintenance cost, low in transmission efficiency and incapable of improving the transmission efficiency and the ceramic tile quality at the same time. To achieve the purpose, the utility model adopts the following technical scheme: A translation type lifter for ceramic tile transmission comprises a frame, a guide plate, an annular transmission assembly and a plurality of moving assemblies; The vertical surface of the frame is provided with an annular track, the annular track is internally provided with the annular transmission assembly, and the annular transmission assembly is used for driving a plurality of moving assemblies to circularly move along the annular track; The guide plate is arranged on the frame and is provided with a guide rail which is positioned at the rear of the annular rail; The movable assembly comprises a fixing frame, a bracket, a first supporting part and at least three second supporting parts, one end of each first supporting part is installed on the fixing frame and connected with the bracket, the bracket is used for bearing tiles or green bricks, the other end of each first supporting part is installed in the annular transmission assembly in a penetrating mode, at least three second supporting parts are arranged at intervals in the circumferential direction of each first supporting part, one end of each second supporting part is connected with the fixing frame, the other end of each second supporting part penetrates through the guide rail, the first supporting parts move under the driving of the annular transmission assembly, and the second supporting parts follow the movement of the first supporting parts and move along the guide rail. Preferably, one end of the first supporting portion is sleeved with at least two first bearings, the at least two first bearings are arranged at intervals along the length direction of the first supporting portion, a first sliding groove matched with the first bearings is formed in the annular track, the first bearings are slidably arranged in the first sliding groove, the middle of the first supporting portion is arranged in the annular transmission assembly in a penetrating mode, and the other end of the first supporting portion is connected with the bracket. Preferably, three second support portions are provided, the distances between the three second support portions and the first support portion are equal