JPH0466298A - Screw press - Google Patents

Abstract

PURPOSE:To obtain dehydrated raw material low in moisture content in spite of a short machine body by forming the front stage part of a feed shaft of a screen and arranging a cleaning tube on the inner peripheral part of this screen. CONSTITUTION:The screen 3 is provided at the front stage part of the feed shaft 2 and the raw material supplied to a screen drum 1, at the initial period, can separate from the raw material high in moisture content through both surfaces of the screen drum and the screen of the feed shaft. When these screen drum and screen are clogged, the screen can be cleaned easily and regenerated be cause the screen drum is exposed. When the screen is clogged, since the cleaning tube 5 is provided on the inner peripheral surface, the screen provided at the front stage part of the feed shaft can be cleaned from the inner surface by sending the cleaning water to this. In this way, the inner and outer screens can be regenerated as they are driven.

Description

Detailed Description of the Invention [Industrial Field of Application] This invention relates to a non-clew press used for dewatering sewage sludge and the like. The present invention aims to provide a screw press capable of compressing and filtering sewage sludge and the like from the inside and outside of the screen drum, feed shaft, and the like.

[Conventional technology]

Conventionally, a feed shaft with feed blades arranged around the periphery of the screen drum is provided, and the raw material supplied to one end of the screen drum is compressed and squeezed while being conveyed to the other end for solid-liquid separation. It is publicly known. Japanese Patent Publication No. 59-46718 is one example. In addition, another type of screw press is known in which the feed shaft is formed in a hollow shape and a large number of through holes are provided around the circumference to send heating fluid and the like. Japanese Patent Publication No. 61-289996 and Japanese Patent Publication No. 63-12719 are
This is a specific example.

[Problem to be solved by the invention]

However, with the above-mentioned conventional technology,
In No. 8, the solid-liquid separation of the raw material is performed inside the screen drum located at the outer periphery of the transit chamber, but for raw materials with high moisture content or materials with II filterability, the screw press has a long length. There was a drawback. If the screen drum in the outer cylinder becomes clogged, the operation must be stopped and the drum must be regenerated. is unsuitable, and JP-A No. 61-289996,
Even if the feed shaft has a through hole like No. 12719, operation must be interrupted when the outer cylinder bore becomes clogged.
Furthermore, when the inner cylinder (feed shaft) of these items becomes clogged, they cannot be cleaned unless they are disassembled.

[Means for solving problems]

In this invention, at the initial stage when the moisture content of the raw material supplied to the screen drum is high, the separated liquid is immediately taken out from the outer circumferential surface and the inner circumferential surface, and then the raw material with a low moisture content is supplied to the later stage. This invention will be explained below, and its gist will be as follows:
A feed shaft with a feed blade wound around the circumference is rotatably supported in a horizontally suspended screen drum, and the raw material supplied to one end of the screen drum is force-fed toward the other end.
In a screw press designed to perform solid-liquid separation, the front part of the feed shaft is constructed with a screen, and a cleaning pipe is provided on the inner circumference of the screen.

[Effect]

In this invention, a screen is provided at the front stage of the feed shaft, and the raw material supplied to the screen drum is initially filtered from the raw material with a high moisture content on both the screen drum and the screen of the feed shaft. Can be separated. When the screen drum and the screen become clogged, the screen drum is exposed and can be easily washed and regenerated. Since a washing pipe is provided in the feeder, by sending washing water to this pipe, the inner surface of the screen provided in the front part of the feed shaft can be washed without fail. The cleaning wastewater flows inside the feed shaft and can be taken out from the other end.

〔Example〕

Hereinafter, the present invention will be specifically explained based on the drawings.

Symbol 1 is a rotatably supported screen drum, symbol 2
is a feed shaft supported inside the screen drum 1, and the starting end of the feed shaft 2 is constituted by a screen 3, so that the furnace liquid can also be extracted from the inner peripheral surface of the filtration chamber.

Reference numeral 4 denotes a conduction pipe provided at the axial center of the feed shaft 2, and a washing pipe 5 is provided as a branch from this conduction pipe 4.One end of the conduction pipe 4 is connected to the feed shaft 2 through a switching valve 6. It is connected to a high-pressure cleaning pump 7 and a compressor 8, and when the screen 3 becomes clogged, high-pressure cleaning water or high-pressure air is injected from the cleaning pipe 5 onto the inner peripheral surface of the screen 3. Reference numeral 9 denotes a feed blade spirally wound around the periphery of the feed shaft 20, so that the feed material is transferred by the feed blade 9. Reference numeral 10 is a raw material supply pipe, one end of which is a press-fitting pump -1
When fed to the press, it is transferred by the feed blade 9 and gradually pressurized, but the raw material with a high moisture content when fed is transferred between the screen drum 1 and the feed shaft 2. A screen 3 provided at the front stage allows the filtrate to be rapidly taken out from the outer and inner peripheral surfaces of the raw material. Then, the raw material whose moisture content has decreased at the starting end of the screw press is gradually increased in compression power from the latter stage onwards.
The remaining F* is separated from the screen drum 1 on the outer peripheral surface of the raw material. Reference numeral 12 designates a cleaning pipe for the screen drum 1, whose -fIm is connected to the conduction pipe 4, and connected to the high-pressure cleaning pump 7 and the compressor 8 via the switching valve 6. And screen drum 1
When the screen drum 1 becomes clogged, high-pressure cleaning water or high-pressure air is injected into the screen drum 1. code 13
14 is a drive gear of the feed shaft, and 14 is a drive pinion meshed with the drive gear 13, which is connected to the drive machine 15. When feeding raw materials to the screw press, the feed shaft 2f0.1~ It rotates at 0.3 rpm. Reference numeral 16 is a drive gear for the screen drum 1, and reference numeral 17 is a drive pinion meshed with the drive gear 16, which is connected to a drive machine 18. When raw materials are being supplied to the screw press, the screen drum 1 may be rotated in the same direction as the feed shaft 2 with a speed difference, may be rotated in the opposite direction, or may be stopped. It is something. When the filterability of the screen drum 1 or the screen 3 deteriorates, the rotation speed of the drive machine 18 is changed by a frequency converter, or the drive machine 18 is
is started, and the screen drum 1 is rotated in the same direction at 0-1-0.3 rpm in synchronization with the feed shaft 20 rotations. At this time, it is forced to be fed by the feeding blade 9.
The raw material is rotated WI of the screen drum 1 and the feed blade 9.
Since they are the same, no feed is applied to the raw material, and therefore no pressure is applied, so even if the filtration operation is continued, cleaning can be easily performed. In addition, the reference numeral 19 is a push fitting provided on the exit side of the screen drum 1, the reference numeral 20 is a cylinder for pressing the push fitting 19,
Reference numeral 21 is a support for the screen drum l.

〔Effect of the invention〕

The present invention is configured as described above, and can simultaneously perform solid-liquid separation from the outer peripheral surface and inner peripheral surface of the screen drum and the feed shaft. That is, in conventional equipment, solid-liquid separation was performed from a screen drum on the outer peripheral surface of the raw material, but in the present invention, the front stage of the feed shaft is constructed with a screen, so that the raw material is not supplied to the screw press. When a raw material with a high moisture content is supplied, a separated liquid can be rapidly taken out from the outer peripheral surface of the raw material using a screen drum and a screen. Then, the raw material with good drainage can be supplied to the rear stage of the screw press and compressed. Therefore, even if the length of the machine body is shortened, a dehydrated raw material with a low moisture content can be obtained. In addition, when the filtration performance deteriorates, the inner and outer screens can be regenerated while operating at the same time.
If used in production processes or sludge treatment plants that require continuity, the capacity can be doubled compared to conventional systems.

[Brief explanation of drawings]

The drawing is a longitudinal sectional side view of a screw press according to the present invention. 1 screen drum 2 feed axes 3 screens
5.12 Cleaning pipe 9 Feed vane

Claims (2)

[Claims] (1) A feed shaft 2 with a feed blade 9 wound around the periphery is rotatably supported in a horizontally suspended screen drum 1, and the raw material supplied to one end of the screen drum 1 is transferred toward the other end. A screw press for pressure feeding and solid-liquid separation, characterized in that the front stage of the feed shaft 2 is constituted by a screen 3, and a cleaning pipe 5 is arranged on the inner circumference of the screen. . (2) In the screw press according to claim (1),
A screw press characterized in that a screen drum 1 is rotatably supported and a cleaning pipe 12 is arranged around the rotation of the screen drum 1.