CN110686468B

CN110686468B - Spin-drying turnover mechanism for cleaning glass

Info

Publication number: CN110686468B
Application number: CN201910988853.3A
Authority: CN
Inventors: 潘文文
Original assignee: Anhui Qianggang Tempered Glass Co Ltd
Current assignee: Anhui qianggang tempered glass Co., Ltd
Priority date: 2019-10-17
Filing date: 2019-10-17
Publication date: 2020-12-08
Anticipated expiration: 2039-10-17
Also published as: CN110686468A

Abstract

The invention discloses a spin-drying turnover mechanism for glass cleaning, which comprises a shaft sleeve, wherein a plurality of baffle plates pointing to the axis of the shaft sleeve are arranged on the outer surface of the shaft sleeve at equal intervals, one end of each baffle plate, far away from the shaft sleeve, is fixedly connected with an inner cylinder, an opening is formed in the inner cylinder, a fan is fixedly connected between every two adjacent baffle plates, and an air inlet of the fan corresponds to the opening. The glass drying machine occupies small space, and glass is turned over while being dried, so that on one hand, two surfaces of the glass can be effectively cleaned, on the other hand, the liquid residue on the surface of the glass is greatly reduced, the time required by later air drying or drying is reduced, and the use of energy is reduced.

Description

Spin-drying turnover mechanism for cleaning glass

Technical Field

The invention relates to the technical field of glass cleaning equipment, in particular to a spin-drying turnover mechanism for glass cleaning.

Background

In the prior art, the glass is cleaned by adopting a roller to convey the glass in a production line manner and cleaning the surface of the glass by a series of physical and chemical cleaning modes arranged on a production line, but the prior art has the following two problems: firstly, only single-side glass can be cleaned, one side in contact with the roller cannot be cleaned or is not thoroughly cleaned, and only the glass can be cleaned through secondary manual turnover; secondly, because the glass surface has accumulated more water droplets and can not be discharged, the glass can only be treated by air drying or drying, and because the liquid accumulated on the surface is too much, the time consumption is long, and the energy is wasted.

Disclosure of Invention

The invention aims to solve the problems and provides a spin-drying turnover mechanism for glass cleaning.

In order to achieve the purpose, the invention adopts the following technical scheme:

a spin-drying turnover mechanism for glass cleaning comprises a shaft sleeve, wherein a plurality of baffle plates pointing to the axis of the shaft sleeve are arranged on the outer surface of the shaft sleeve at equal intervals, one end, far away from the shaft sleeve, of each baffle plate is fixedly connected with an inner cylinder, an opening is formed in each inner cylinder, a fan is fixedly connected between every two adjacent baffle plates, and an air inlet of each fan corresponds to the opening;

the outer surface clearance of inner tube is provided with the urceolus that the internal diameter is bigger than it-cm, and urceolus and inner tube rotate and be connected, urceolus and inner tube rotate through at least one bearing and be connected, the urceolus surface equidistance is provided with a plurality of baffles of pointing to its axle center, the urceolus is located the part between two adjacent baffles and opens and shut and has the through-hole, the cover is equipped with the round soft cover on the surface of baffle, soft cover and baffle fixed connection, the micropore has been seted up on the soft cover.

Preferably, the shaft sleeve is coaxially provided with a gear, and the gear is meshed with a rack.

The invention has the following advantages:

the invention adopts a roller drying design, the opening on the inner cylinder synchronously rotates and is continuously close to and communicated with different through holes through the matched rotation of the inner cylinder, the outer cylinder and the shaft sleeve, because the fan is communicated with the outside only through the opening, when the opening is communicated with different through holes, outside air flow passes through the space between two adjacent partition plates and is sucked into the fan, when the opening moves to the upper side and contacts with the glass, the opening is adsorbed on the outer surface of the soft sleeve, the inner sleeve rotates anticlockwise to enable the opening to be communicated with different through holes anticlockwise, the glass on the glass conveying device is continuously put down and turned over along the soft sleeve anticlockwise under the action of external air pressure, so that one part of liquid on the glass is left along the surface of the glass under the action of gravity, the other part of liquid is thrown out when the glass moves to the lowest side, the fan is turned off, and turning and discharging of the glass are achieved at the moment.

The glass drying device has the outstanding characteristics that the occupied space is small, the glass is turned over while being dried, on one hand, both sides of the glass can be effectively cleaned, on the other hand, the liquid residue on the surface of the glass is greatly reduced, the time required by later air drying or drying is reduced, and the use of energy is reduced.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is an enlarged view of the soft cover and the inner structure of FIG. 1 according to the present invention.

In the figure: the device comprises a shaft sleeve 1, a baffle 2, an inner cylinder 3, a fan 4, an opening 5, an outer cylinder 6, a through hole 7, a partition plate 8, a soft sleeve 9, a glass input roller 10, a glass output roller 11, a gear 12 and a rack 13.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example one

Referring to fig. 1-2, the spin-drying turnover mechanism for glass cleaning comprises a shaft sleeve 1, wherein the shaft sleeve 1 is connected with an external driving motor to realize rotation of the shaft sleeve 1.

The outer surface of axle sleeve 1 equidistance is provided with a plurality of baffles 2 of directional its axle center, the one end fixedly connected with inner tube 3 of axle sleeve 1 is kept away from to baffle 2, an opening 5 has been seted up on the inner tube 3, two adjacent fixedly connected with fan 4 between the baffle 2, and the air intake of fan 4 corresponds with opening 5.

The outer surface clearance of inner tube 3 is provided with urceolus 6 that the internal diameter is 1-10cm bigger than it, and urceolus 6 rotates with inner tube 3 to be connected, urceolus 6 rotates through at least one bearing with inner tube 3 to be connected, 6 outer surfaces of urceolus equidistance are provided with a plurality of baffles 8 that point to its axle center, the part that urceolus 6 is located between two adjacent baffles 8 opens and shuts has through-hole 7, the cover is equipped with round soft cover 9 on the surface of baffle 8, soft cover 9 and baffle 8 fixed connection, the micropore has been seted up on the soft cover 9.

The fan 4 and the driving motor are started, axial rotation of the shaft sleeve 1 is achieved, the shaft sleeve 1 can drive the baffle 2, the inner cylinder 3 and the fan 4 to rotate synchronously while rotating axially, the opening 5 in the inner cylinder 3 rotates synchronously and is continuously close to and communicated with different through holes 7, and the fan 4 is communicated with the outside only through the opening 5, so that when the opening 5 is communicated with the different through holes 7, outside air flow passes through the space between two adjacent partition plates 8 and is sucked into the fan 4 and is discharged from the other side of the fan 4.

When the opening 5 moves to the upper side and is in contact with the glass, the glass is adsorbed on the outer surface of the soft sleeve 9, referring to fig. 1, the inner sleeve 1 rotates anticlockwise to enable the opening 5 to be communicated with different through holes 7 along the anticlockwise direction, so that the glass on the inner sleeve is continuously put down and overturned along the anticlockwise direction of the soft sleeve 9 under the action of external air pressure, a part of liquid on the inner sleeve is left along the surface of the inner sleeve under the action of gravity, the other part of the liquid is thrown out when the inner sleeve moves, the fan 4 is turned off when the inner sleeve moves to the lowest side, and the glass is overturned and.

It is worth mentioning that the soft sleeve 9 is made of soft rubber, on one hand, the surface of the soft sleeve is rough, so that friction force between the soft sleeve and the glass can be increased, and on the other hand, the soft sleeve can deform, so that the contact surface between the soft sleeve 9 and the glass is pressed into a plane approximately under the action of external atmospheric pressure, and thus the contact area between the soft sleeve and the glass is increased, and the connection between the soft sleeve and the glass is more stable.

Example two

On the basis of the first embodiment, the shaft sleeve 1 is coaxially provided with the gear 12, the gear 12 is meshed with the rack 13, and the shaft sleeve 1 is rotated and simultaneously displaced by meshing the gear 12 with the rack 13, as shown in fig. 1, when the shaft sleeve 1 is used in cooperation with the glass input roller 10 and the glass output roller 11, after glass is fed, if the shaft sleeve 1 rotates in situ, the glass is inevitably flapped on the glass input roller 10 to cause the fragmentation of the glass, and the shaft sleeve 1 displaces, so that the contact between the glass and the glass input roller 10 is avoided, and meanwhile, when the shaft sleeve 1 rotates reversely, the shaft sleeve 1 can be reset by meshing the gear 12 with the rack 13, so that the shaft sleeve 1 is suitable for use in assembly line type large-batch operation.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The spin-drying turnover mechanism for glass cleaning is characterized by comprising a shaft sleeve (1), wherein a plurality of baffle plates (2) pointing to the axis of the shaft sleeve (1) are equidistantly arranged on the outer surface of the shaft sleeve (1), one ends of the baffle plates (2) far away from the shaft sleeve (1) are fixedly connected with an inner cylinder (3), an opening (5) is formed in the inner cylinder (3), a fan (4) is fixedly connected between every two adjacent baffle plates (2), and an air inlet of the fan (4) corresponds to the opening (5); the utility model discloses a novel bearing inner barrel, including inner tube (3), urceolus (6), outer barrel (6), through-hole (7) have been seted up to the part that urceolus (6) are located between two adjacent baffles (8), the cover is equipped with round soft cover (9) on the surface of baffle (8), soft cover (9) and baffle (8) fixed connection, the micropore has been seted up on soft cover (9), axle sleeve (1) is coaxial to be provided with gear (12), gear (12) meshing has rack (13), and urceolus (6) rotate with inner tube (3) to be connected, urceolus (6) rotate with inner tube (3) through at least one bearing and are connected, urceolus (6) surface equidistance is provided with a plurality of baffles (8) that point to its axle center.