CN-111674866-B - Automatic overturning and conveying device

CN111674866BCN 111674866 BCN111674866 BCN 111674866BCN-111674866-B

Abstract

The invention relates to the technical field of automatic production lines, in particular to an automatic overturning and conveying device which comprises a vertical conveying mechanism, a straight conveying mechanism and a carding mechanism, wherein the vertical conveying mechanism consists of two belts in the same horizontal plane, a conveying channel is formed between the two belts, the receiving end of the conveying channel is positioned below the output end of an upstream conveying belt, the straight conveying mechanism consists of a horizontal conveying belt and a carding channel arranged above the horizontal conveying belt in the conveying direction, the working surface of the horizontal conveying belt is lower than the horizontal plane where the belts are positioned, and the vertical conveying mechanism and the straight conveying mechanism gradually card scattered and unordered conical materials conveyed by the upstream conveying belt and finally convey the scattered and unordered conical materials to downstream equipment in a unified posture, so that the working efficiency is improved.

Inventors

LI RUO
CAO YIJUN

Assignees

成都津茂科技有限公司

Dates

Publication Date: 20260508
Application Date: 20200721

Claims (2)

1. An automatic overturning and conveying device arranged between an upstream conveying belt and a downstream conveying belt and used for automatically overturning conveyed conical materials, which is characterized by comprising: The vertical conveying mechanism consists of two belts in the same horizontal plane, a conveying channel is formed between the two belts, and the receiving end of the conveying channel is positioned below the output end of the upstream conveying belt; The horizontal conveyor belt comprises a horizontal conveyor belt and carding channels arranged above the horizontal conveyor belt along the conveying direction, wherein limit strips are arranged on two sides of each carding channel and correspond to two sides of one end, far away from the upstream conveyor belt, of each conveying channel respectively; the horizontal conveyor belt is provided with a first driving motor, the vertical conveyor mechanism is provided with a second driving motor, and the second driving motor drives the two belts to synchronously rotate through a synchronous transmission mechanism; the controller is electrically connected with the first driving motor and the second driving motor; The device comprises a carding channel, a machine body, a limiting strip, an adjusting bracket, a sliding strip, a clamping device and a clamping device, wherein the carding channel is arranged above the machine body, the adjusting bracket is used for simultaneously fixing each limiting strip on the machine body, and is provided with a slotted hole perpendicular to each limiting strip; The vertical conveying mechanism further comprises a pair of clamping plates respectively arranged at two sides of the conveying channel, two adjacent side walls of the two clamping plates are arranged in parallel, the two belts respectively rotate around the corresponding clamping plates through respective pulley groups, and the outer wall of one adjacent side of each clamping plate is respectively provided with a belt groove corresponding to the belt; each belt pulley comprises a front guide wheel arranged at one end of the clamping plate close to the upstream conveyor belt and a rear guide wheel arranged at one end of the clamping plate close to the horizontal conveyor belt; the synchronous transmission mechanism consists of a first bevel gear and two second bevel gears, wherein the first bevel gears are respectively and coaxially connected with the two front guide wheels, the two second bevel gears are coaxially arranged on the output shaft of the second driving motor, and the two second bevel gears are respectively meshed with the corresponding first bevel gears for transmission; The two second bevel gears are nested and arranged on the output shaft of the second driving motor through a shaft sleeve with a key groove, and a radial penetrating fixing screw is arranged in the middle of the shaft sleeve.
2. The automatic turning and conveying device according to claim 1, wherein the controller is provided with a first speed regulator and a second speed regulator corresponding to the first driving motor and the second driving motor, and is used for adjusting the conveying speeds of the conveying channel and the carding channel respectively.

Description

Automatic overturning and conveying device Technical Field The invention relates to the technical field of automatic production lines, in particular to an automatic overturning and conveying device. Background In the mechanical production and manufacturing process, products need to be conveyed among different manufacturing equipment, a conveying device is an important channel connected with each manufacturing equipment, and as each manufacturing equipment can not carry out stacking output on the processed products after finishing processing the products and can not convey the products into downstream manufacturing equipment in a proper mode, for processing equipment with feeding requirements, the equipment is usually fed in a manual mode, for example, in the packaging process of the wine bottle chocolate, the wine bottle chocolate needs to be conveyed into a packaging machine in a consistent angle and in a consistent mode, in the traditional working mode, the wine bottle chocolate is usually put in a turnover mode by adopting a worker, even if the wine bottle chocolate is operated by a skilled worker, the working efficiency of the wine bottle chocolate can only reach 100-180 wine bottle chocolate processed per minute, and the work production efficiency is low and is not easy to reach the sanitary standard. Disclosure of Invention The invention provides an automatic overturning and conveying device, which gradually combs scattered and unbroken conical materials sent by an upstream conveying belt through a vertical conveying mechanism and a straight conveying mechanism, and finally conveys the scattered and unbroken conical materials to downstream equipment in a uniform posture, so that the working efficiency is improved. The automatic overturning conveying device comprises a vertical conveying mechanism, a straight conveying mechanism, a controller, a first driving motor, a second driving motor and a second driving motor, wherein the vertical conveying mechanism consists of two belts in the same horizontal plane, the receiving end of the conveying channel is positioned below the output end of the upstream conveying belt, the straight conveying mechanism consists of a horizontal conveying belt and carding channels arranged above the horizontal conveying belt along the conveying direction, limit strips are arranged on two sides of the carding channels, correspond to two sides of one end of the conveying channel, far away from the upstream conveying belt, of each limit strip, the working surface of the horizontal conveying belt is lower than the horizontal plane where the belts are positioned, the horizontal conveying belt is provided with the first driving motor, the second driving motor synchronously drives the two belts to rotate through the synchronous conveying mechanism, and the controller is electrically connected with the first driving motor and the second driving motor. Preferably, the device further comprises an adjusting bracket for fixing each limit strip on the machine body at the same time, wherein the adjusting bracket spans over the carding channel and is provided with a slotted hole perpendicular to each limit strip, each limit strip is fixedly arranged at the bottom of the adjusting bracket through a bolt penetrating through the slotted hole, and one side of each limit strip corresponding to the carding channel is respectively provided with a sliding strip. Preferably, the vertical conveying mechanism further comprises a pair of clamping plates respectively arranged at two sides of the conveying channel, two side walls close to the clamping plates are arranged in parallel, the two belts respectively rotate around the corresponding clamping plates through respective pulley groups, the outer walls of one sides close to the clamping plates are respectively provided with a belt groove corresponding to the belt, each pulley group of the belts respectively comprises a front guide wheel arranged at one end of the clamping plate close to the upstream conveying belt, a rear guide wheel arranged at one end of the clamping plate close to the horizontal conveying belt, the synchronous transmission mechanism is composed of a first bevel gear respectively coaxially connected with the two front guide wheels and two second bevel gears coaxially arranged on an output shaft of the second driving motor, and the two second bevel gears respectively mesh with the corresponding first bevel gears. Preferably, the two second bevel gears are nested and arranged on the output shaft of the second driving motor through a shaft sleeve with a key groove, and a radial penetrating fixing screw is arranged in the middle of the shaft sleeve. Preferably, the controller is provided with a first speed regulator and a second speed regulator corresponding to the first driving motor and the second driving motor, and the first speed regulator and the second speed regulator are used for respectively regulating the conveying speeds of t