CN214634552U

CN214634552U - Dry-wet separator structure

Info

Publication number: CN214634552U
Application number: CN202120758584.4U
Authority: CN
Inventors: 夏川; 刘宗超
Original assignee: Foshan Wenjiu Machinery Manufacturing Co ltd
Current assignee: Foshan Wenjiu Machinery Manufacturing Co ltd
Priority date: 2021-04-14
Filing date: 2021-04-14
Publication date: 2021-11-09
Anticipated expiration: 2031-04-14

Abstract

The utility model relates to a dry-wet separator structure, which comprises a rotary guide shaft, a filtrate sleeve sleeved outside the rotary guide shaft, and a driving support mechanism arranged at both ends of the rotary guide shaft, wherein both ends of the rotary guide shaft are open and hollow, a material guide plate is arranged inside the rotary guide shaft, a filter hole is arranged at the middle part of the rotary guide shaft, a filter screen is arranged at the filter hole, one end of the material guide plate extends to the filter hole, and the other end extends to the port of the rotary guide shaft; a filtrate guide cavity is enclosed between the rotary guide shaft and the filtrate sleeve, and filtrate guide holes communicated with the filtrate guide cavity are formed in the peripheral surface and the side surface of the filtrate sleeve; the circumferential surface of the rotary guide shaft is provided with spiral guide blades, and the spiral guide blades are positioned in the filtrate guide cavity. The equipment is installed in a horizontal structure, is suitable for being installed in a room with a small longitudinal space, and the dried materials are conveyed and guided out through the spiral guide blades, so that the discharging efficiency is improved.

Description

Dry-wet separator structure

Technical Field

The utility model belongs to the technical field of mechanical equipment and specifically relates to a dry and wet separator structure is related to.

Background

The kind of wet separator futilely is many, and it is mainly the solid-liquid composition separation that is used for the material, and current wet separator futilely generally is the vertical type structure, mainly includes wet separation barrel futilely, and the dry wet separation barrel pivoted motor of drive sets up a plurality of filtrate holes on wet separation barrel is global futilely, and when wet separation barrel rotates at a high speed futilely, the moisture of the inside material of wet separation barrel futilely is derived by the filtrate hole, but the actual problem that still exists many of unloading, for example: 1. the height of the dry-wet separation cylinder body is high, and the feeding is inconvenient; 2. the dry-wet separation cylinder is longitudinally arranged, so that the requirement on the height of an indoor longitudinal space is high; 3. the vertical spin-drying mode has the problem of incomplete dry-wet separation, and the material in the center of the dry-wet separation cylinder body has the phenomenon of incomplete processing.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a dry and wet separator structure in order to solve the defect that prior art exists.

In order to realize the purpose, the utility model discloses a technical scheme as follows:

a dry-wet separator structure comprises a rotary guide shaft, a filtrate sleeve sleeved on the outer side of the rotary guide shaft, and driving support mechanisms arranged at two ends of the rotary guide shaft, wherein two ends of the rotary guide shaft are opened and are hollow, a material guide plate is arranged inside the rotary guide shaft, a filter hole is formed in the middle of the rotary guide shaft, a filter screen is arranged at the filter hole, one end of the material guide plate extends to the filter hole, and the other end of the material guide plate extends to a port of the rotary guide shaft;

a filtrate guide cavity is enclosed between the rotary material guide shaft and the filtrate sleeve, and filtrate guide holes communicated with the filtrate guide cavity are formed in the peripheral surface and the side surface of the filtrate sleeve; the circumferential surface of the rotary guide shaft is provided with spiral guide blades, and the spiral guide blades are positioned in the filtrate guide cavity.

Furthermore, the driving support mechanism comprises driving belt pulleys connected to two ends of the rotary material guide shaft, and supporting bearing seats arranged on the rotary material guide shaft, and the driving belt pulleys are connected with a driving motor through belts.

Furthermore, an annular supporting reinforcing plate is arranged in an inner cavity of the rotary material guide shaft and is welded with the rotary material guide shaft.

And furthermore, end cover bearing oil seals are arranged at two ends of the filtrate guide cavity.

Furthermore, the material guide plate is obliquely arranged in the rotating guide shaft.

Further, the rotary guide shaft is in a straight cylinder shape.

The utility model has the advantages that: when the structure is used, materials are led in from the end part of the rotary guide shaft and enter the middle part of the inner cavity of the rotary guide shaft along the material guide plate, the drive motor drives the rotary guide shaft to rotate through the drive belt pulley, moisture in the materials in the rotary guide shaft enters the filtrate guide cavity after being filtered by the filter screen and is guided out from the filtrate guide hole, when dry and wet separation operation of the materials is completed and dried materials need to be unloaded, the filter screen in the inner cavity of the rotary guide shaft is manually taken out, when the rotary guide shaft rotates, the internally dried materials enter the filtrate guide cavity from the filter hole, the spiral guide blades on the peripheral surface of the rotary guide shaft gradually convey the dried materials to the end part of the filtrate guide cavity and are guided out from each filtrate guide hole in a horizontal mode, the equipment is installed by adopting a structure and is suitable for being installed in a room with small longitudinal space, and the dried materials are conveyed and guided out by the spiral guide blades, the unloading efficiency is improved.

Drawings

Fig. 1 is a schematic structural diagram of the present invention.

Detailed Description

As shown in fig. 1, a dry-wet separator structure comprises a rotary guide shaft 1, a filtrate sleeve 2 sleeved outside the rotary guide shaft 1, and a driving support mechanism arranged at both ends of the rotary guide shaft 1, wherein both ends of the rotary guide shaft 1 are open and hollow, a material guide plate 3 is arranged inside the rotary guide shaft 1, a filter hole 4 is arranged in the middle of the rotary guide shaft 1, a filter screen 5 is arranged at the filter hole 4, one end of the material guide plate 3 extends to the filter hole 4, and the other end extends to a port of the rotary guide shaft 1;

a filtrate guide cavity 6 is defined between the rotary guide shaft 1 and the filtrate sleeve 2, and filtrate guide holes 7 communicated with the filtrate guide cavity 6 are formed in the circumferential surface and the side surface of the filtrate sleeve 2; the circumferential surface of the rotary guide shaft 1 is provided with a spiral guide blade 8, and the spiral guide blade 8 is positioned in the filtrate guide cavity 6.

Further, the driving support mechanism comprises a driving belt pulley 9 connected to two ends of the rotating guide shaft 1 and a supporting bearing seat 10 installed on the rotating guide shaft 1, and the driving belt pulley 9 is connected with a driving motor through a belt.

An annular supporting reinforcing plate 11 is arranged in the inner cavity of the rotary guide shaft 1, and the annular supporting reinforcing plate 11 is welded with the rotary guide shaft 1. End cover bearing oil seals 12 are arranged at two ends of the filtrate guide-out cavity 6. The material guide plate 3 is obliquely arranged in the rotating guide shaft 1, and the rotating guide shaft 1 is in a straight cylinder shape.

When the structure is used, materials are led in from the end part of the rotary guide shaft 1 and enter the middle part of the inner cavity of the rotary guide shaft 1 along the material guide plate 3, the driving motor drives the rotary guide shaft 1 to rotate through the driving belt pulley 9, moisture in the materials in the rotary guide shaft 1 is filtered by the filter screen 5 and then enters the filtrate guide cavity 6 and is led out from the filtrate guide hole 7, when the dry and wet separation operation of the materials is finished and the dried materials need to be unloaded, the filter screen 5 in the inner cavity of the rotary guide shaft 1 is manually taken out, when the rotary guide shaft 1 rotates, the internally dried materials enter the filtrate guide cavity 6 from the filter hole 4, the spiral guide blades 8 on the circumferential surface of the rotary guide shaft 1 gradually convey the dried materials to the end part of the filtrate guide cavity 6 and are led out from the filtrate guide holes 7, the device adopts a horizontal structure and is suitable for being installed in a room with a small longitudinal space, the dried material is conveyed and guided out through the spiral guide blade, and the discharging efficiency is improved.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A dry-wet separator structure comprises a rotary guide shaft, a filtrate sleeve sleeved outside the rotary guide shaft and driving support mechanisms arranged at two ends of the rotary guide shaft, and is characterized in that two ends of the rotary guide shaft are opened and are hollow, a material guide plate is arranged inside the rotary guide shaft, a filter hole is arranged in the middle of the rotary guide shaft, a filter screen is arranged at the filter hole, one end of the material guide plate extends to the filter hole, and the other end of the material guide plate extends to a port of the rotary guide shaft;

2. The wet and dry separator structure as claimed in claim 1, wherein the driving support mechanism comprises driving pulleys connected to both ends of the rotating material guiding shaft, and a supporting bearing seat mounted on the rotating material guiding shaft, the driving pulleys being connected to the driving motor through a belt.

3. The wet and dry separator structure as claimed in claim 2, wherein the inner cavity of the rotating guide shaft is provided with an annular support reinforcing plate, and the annular support reinforcing plate is welded with the rotating guide shaft.

4. The wet and dry separator structure of claim 2, wherein end cap bearing oil seals are mounted at two ends of the filtrate outlet chamber.

5. A wet and dry separator arrangement according to claim 2, wherein said material deflector is disposed obliquely inside the rotating feed shaft.

6. A wet and dry separator arrangement according to claim 2, wherein said rotating infeed shaft is in the form of a straight cylinder.