CN209905931U

CN209905931U - Displacement material distributing mechanism for cotton sliver

Info

Publication number: CN209905931U
Application number: CN201920532275.8U
Authority: CN
Inventors: 熊炎亮
Original assignee: Quanzhou Dongchen Automation Equipment Co Ltd
Current assignee: Quanzhou Dongchen Automation Equipment Co Ltd
Priority date: 2019-04-18
Filing date: 2019-04-18
Publication date: 2020-01-07
Anticipated expiration: 2029-04-18

Abstract

The utility model relates to a shifting and distributing mechanism for cotton sliver, which comprises a main frame, a left conveying mechanism, a right conveying mechanism, a shifting motor, a guide rail and a control device, wherein the left conveying mechanism, the right conveying mechanism, the shifting motor, the guide rail and the control device are assembled on the main frame; the guide rails extend along the left and right directions, and the left conveying mechanism and the right conveying mechanism are respectively assembled on the guide rails in a sliding manner; the shifting motor is provided with a conveyor belt, and the shifting motor drives the left conveying mechanism and the right conveying mechanism to slide towards two sides or move towards the middle through the conveyor belt according to the instruction of the control device; when the left conveying mechanism and the right conveying mechanism slide to two sides, the cut cotton slivers are divided into two halves, and the left conveying mechanism and the right conveying mechanism synchronously convey the cotton slivers to the next station along the front-back direction. The shifting and distributing mechanism is provided with the left conveying mechanism and the right conveying mechanism, the number of the cotton slivers pushed into the conveying mechanisms can be increased by one-time material pushing operation, the cotton slivers output by the cotton plate slitting stations can be timely conveyed, and the conveying and guaranteeing efficiency of the cotton slivers is improved.

Description

Displacement material distributing mechanism for cotton sliver

Technical Field

The utility model relates to a field of cutting of silver, panel especially indicates a aversion feed mechanism for silver.

Background

Glass wool and rock wool are common novel light heat-insulating materials. The glass wool and the rock wool are used in different positions and need different specification and size, and the semi-finished products produced at present are mostly cuboid structures which are sequentially cut into plate structures with required thickness and cuboid cotton sliver structures with required size. The cotton slivers of the cotton boards which are cut by the cutting device are generally conveyed to a stacking station through a conveying mechanism for stacking. Because the package of silver has specific specification requirement, for this reason, pushing equipment can only push once and get into conveying mechanism with the silver that the required packing width matches and is fit for, and the silver of conveying mechanism single output can only carry out a pile up neatly operation at a pile up neatly station, leads to conveying mechanism often not in time to export the silver of cutting in time and put things in good order, causes the pile up neatly efficiency of silver lower, influences the cotton board of last station and cuts work progress with the silver packing of follow-up station, influences the production efficiency of production line.

Disclosure of Invention

The utility model provides a aversion feed mechanism for silver to overcome the problem that the transport efficiency is low that current silver conveying mechanism exists.

The utility model adopts the following technical scheme:

the shifting and distributing mechanism for the cotton sliver comprises a main frame, and a left conveying mechanism, a right conveying mechanism, a shifting motor, a guide rail and a control device which are assembled on the main frame; the guide rails extend along the left and right directions, and the left conveying mechanism and the right conveying mechanism are respectively assembled on the guide rails in a sliding manner; the shifting motor is provided with a conveying belt which is a synchronous belt or a chain or other transmission structures; the transmission belt is of an annular structure and is supported by two transmission gear supports fixedly assembled on the main frame, the shifting motor drives one of the transmission gears to drive the transmission belt to rotate, and the left conveying mechanism and the right conveying mechanism are respectively fixed at the positions of the two transmission belts in opposite directions, so that the transmission belt synchronously drives the left conveying mechanism and the right conveying mechanism to slide in opposite directions. The left conveying mechanism and the right conveying mechanism are respectively and fixedly connected with a conveying belt, and the shifting motor drives the left conveying mechanism and the right conveying mechanism to slide towards two sides or move towards the middle through the conveying belts according to the instruction of the control device; when the left conveying mechanism and the right conveying mechanism slide to two sides, the cut cotton slivers are divided into two halves, and the left conveying mechanism and the right conveying mechanism synchronously convey the cotton slivers to the next station along the front-back direction. The left conveying mechanism and the right conveying mechanism respectively comprise mounting tables, the mounting tables are assembled on the guide rails, and conveying rollers or conveying belts or conveying chain belts and driving motors of the conveying rollers or the conveying belt or the conveying chain belts are assembled on the mounting tables.

From the above description of the structure of the present invention, compared with the prior art, the present invention has the following advantages: the utility model discloses a aversion feed mechanism has left conveying mechanism, right conveying mechanism, once pushes away the quantity that the silver that material operation can increase one time pushed into conveying mechanism, and left conveying mechanism, right conveying mechanism correspond a pile up neatly station and packing station respectively, can in time carry the silver of station output to the pile up neatly station with the cotton board to the transport and the assurance efficiency of silver have effectively been improved.

Drawings

Fig. 1 is a schematic view of the structure of the shifting and distributing mechanism of the present invention.

Fig. 2 is a schematic view of the overlooking structure of the shifting and distributing mechanism of the present invention.

Detailed Description

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

Referring to fig. 1 and 2, the shifting and distributing mechanism for cotton slivers includes a main frame 1, and a left conveying mechanism 11, a right conveying mechanism 12, a shifting motor 13, a guide rail 14 and a control device which are assembled on the main frame 1; the guide rails 14 extend in the left-right direction, and the left conveying mechanism 11 and the right conveying mechanism 12 are respectively assembled on the two guide rails 14 which are distributed in parallel in a sliding manner. The shift motor 13 is provided with a conveyor belt 131, and the conveyor belt 131 is a synchronous belt or a chain or other transmission structure; the transmission belt is of an annular structure and is supported by two transmission gear supports fixedly assembled on the main frame 1, the shift motor 13 drives one of the transmission gears to drive the transmission belt to rotate, and the left conveying mechanism 11 and the right conveying mechanism 12 are respectively fixed at the positions of the two transmission belts 131 in opposite directions, so that the transmission belt synchronously drives the left conveying mechanism 11 and the right conveying mechanism 12 to slide in opposite directions. The left conveying mechanism 11 and the right conveying mechanism 12 are respectively fixedly connected with a conveyor belt 131, and the shift motor 13 drives the left conveying mechanism 11 and the right conveying mechanism 12 to slide towards two sides or move towards the middle through the conveyor belt 131 according to the instruction of the control device; when the left conveying mechanism 11 and the right conveying mechanism 12 slide to two sides, the cut cotton slivers 2 are divided into two halves, and the left conveying mechanism 11 and the right conveying mechanism 12 synchronously convey the cotton slivers 2 to the next station along the front-back direction. The left conveying mechanism 11 and the right conveying mechanism 12 respectively comprise an installation table 121, the installation table 121 is assembled on the guide rail 14, and conveying rollers or conveying belts or conveying chain belts and driving motors 122 thereof are assembled on the installation table.

Continuing to refer to fig. 1 and 2, the utility model discloses a working method of aversion feed mechanism does: after the glass wool or rock wool panel is cut into cotton slivers 2 by the slitting device, a plurality of cotton slivers 2 are distributed side by side and conveyed to the left conveying mechanism 11 and the right conveying mechanism 12 which are in a phase close state, after the left conveying mechanism 11 and the right conveying mechanism 12 completely receive the cotton slivers 2, the shifting motor 13 is started to drive the left conveying mechanism 11 (to slide leftwards) and the right conveying mechanism 12 (to slide rightwards) to slide towards corresponding sides, the left conveying mechanism 11 and the right conveying mechanism 12 respectively convey the cotton slivers 2 carried by the left conveying mechanism 11 and the right conveying mechanism to the next station for stacking grooves, the cotton slivers 2 of the left part and the right part can be stacked on different stacking positions respectively or can be stacked on the same stacking position in a crossed manner, and at the moment, corresponding transmission mechanisms are required to be additionally configured or a plurality of cotton slivers 2. After the left conveying mechanism 11 and the right conveying mechanism 12 output the cotton sliver 2, the shift motor 13 drives the left conveying mechanism 11 and the right conveying mechanism 12 to slide towards the middle to a close state under the control of the control device so as to perform the next cotton sliver 2 receiving operation. The utility model discloses a aversion feed mechanism has left conveying mechanism 11, right conveying mechanism 12, once pushes away the quantity that the silver that material operation can increase one time pushed into conveying mechanism (left conveying mechanism 11, right conveying mechanism 12 bear the silver quantity of a packing width respectively), and left conveying mechanism 11, right conveying mechanism 12 correspond a pile up neatly station and packing station respectively, can in time carry the silver of station output to the pile up neatly station with the cotton board to the transport and the assurance efficiency of silver have effectively been improved.

The above-mentioned be the utility model discloses a concrete implementation way, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims

1. A aversion feed mechanism for silver, including the main frame, its characterized in that: the device also comprises a left conveying mechanism, a right conveying mechanism, a shifting motor, a guide rail and a control device which are assembled on the main frame; the guide rails extend along the left and right directions, and the left conveying mechanism and the right conveying mechanism are respectively assembled on the guide rails in a sliding manner; the shifting motor is provided with a conveyor belt, the left conveying mechanism and the right conveying mechanism are respectively and fixedly connected with the conveyor belt, and the shifting motor drives the left conveying mechanism and the right conveying mechanism to slide towards two sides or move towards the middle according to the instruction of the control device; when the left conveying mechanism and the right conveying mechanism slide to two sides, the cut cotton slivers are divided into two halves, and the left conveying mechanism and the right conveying mechanism synchronously convey the cotton slivers to the next station along the front-back direction.

2. The displacement distribution mechanism for tampons of claim 1, characterized in that: the left conveying mechanism and the right conveying mechanism respectively comprise mounting tables, the mounting tables are assembled on the guide rails, and conveying rollers or conveying belts or conveying chain belts and driving motors of the conveying rollers or the conveying belt or the conveying chain belts are assembled on the mounting tables.

3. The displacement distribution mechanism for tampons of claim 1, characterized in that: the conveying belt is a synchronous belt or a chain.