JPH032410A - Screen type impurities processing device - Google Patents

Abstract

PURPOSE:To make it possible to easily dispose afterward of impurities to be raked by raking up soft impurities which are not broken by pushing force of a roller rolling on the upstream surface of a screen by means of the end of a rake adjoining to the roller. CONSTITUTION:A scrapper device 22 and a carrier device 18 are provided to the upper side of a screen 10. A roller 16 rolling on the upstream surface of the screen 10 is provided in advance of raking up of a raker 14 in a half part of the lower side of the screen 10. The roller 16 comes into contact with the upstream surface of the screen 10 with certain pushing force during the rolling, and it gets over impurities which are not broken by the pushing force. The remaining impurities on the upstream surface of the screen 10 are raked up with the end of a rake 14a ajoining to the roller 16. According to the constitution, soft impurities undesirable for the aftertreatment of waste water are broken, and the impurities can be filtered through the screen 10 together with fluid to treat.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a screen-type foreign matter treatment device installed in a waterway for treating wastewater.

[Prior art] In conventional screen-type foreign matter processing equipment, foreign matter remaining on the screen is simply scooped up with a rake, so even solid materials that are relatively easy to crush do not pass through the slits. If it is large enough, it will be scooped up with a rake and carried out.

However, when disposing of foreign matter scooped up by a rake, foreign matter may be included in the residue, which is undesirable from the viewpoint of hygiene for the processing worker and interference with post-processing. In particular, if unhygienic filth gets mixed into the scum, it will inevitably cause serious trouble to the operation of the processing equipment.

Although these foreign substances are generally relatively easy to crush, if they are solids larger than the slit, they are often scooped up by a rake, and once they are scooped up by a rake, they enter the conveying device. Once removed, it is difficult to remove it simply by washing with water, and in particular, once it has been dehydrated in the unloading device, it cannot be removed even with pressurized water.

[Problems to be Solved by the Invention] An object of the present invention is to provide a screen-type foreign matter processing device that allows foreign matter that is undesirable for post-processing to pass through together with the processing fluid without remaining on the screen. .

[Means for Solving the Problems] In order to achieve the above object, in the screen-type contaminant treatment device of the present invention, in order to remove contaminants from the fluid flowing in the waterway, the fluid is removed from the upstream surface where the fluid flows. A screen in which a slit is formed extending to a downstream surface from which the fluid flows out, and the fluid passes through the slit and flows out, and contaminants in the fluid remain on the upstream surface, and the contaminants remain on the upstream surface of the screen. a scraping device for scraping up foreign matter on the scraping device, a scraper device provided on the upper side of the screen to scrape off foreign matter on the scraping device, a conveying device for carrying out foreign matter from the screen, and at least a lower half of the screen. Some parts have a roller that rolls on the upstream surface of the screen prior to scraping by the scraping device, and during rolling, the roller contacts the upstream surface of the screen with a constant pressing force. It is designed to overcome impurities that do not crumble.

Then, the tip of the rake following the roller scrapes up the foreign matter remaining on the upstream surface of the screen.

In the present invention, the roller can be configured to be attached to the scraping device via a radial support arm with spring means in order to bring the roller into contact with the upstream surface of the screen with a constant pressing force.

Additionally, the roller is attached to the scraping device via a support arm with a slit, so that the axis of rotation of the roller can freely move within the slit so that the roller contacts and separates from the upstream surface of the screen under its own weight. It's okay.

Furthermore, by making the roller eccentric to its rotation axis,
If the center of gravity of the roller is always located below the axis of rotation of the roller, the roller can be brought into contact with and separated from the upstream surface of the screen by its own weight without using a slit.

Furthermore, the surface of the roller can be made of a soft material such as sponge or rubber, so that it can be configured to form dents against relatively hard foreign matter.

[Function] In a contaminant processing apparatus having a screen configured as described above, even if soft contaminants that are undesirable for post-processing are caught on the upstream surface of the screen, the pressing force between the roller preceding the rake and the screen will remove the contaminants. It collapses and is forced into the slit in the screen, passing through the slit with the fluid. Then, the impurities remaining on the upstream surface of the screen that are not broken down by the pressing force between the roller and the screen are scraped off by the rake. Therefore, the scraped impurities, ie, the residue, do not contain soft impurities that are undesirable for post-processing, and the post-processing of the residue becomes easy.

[Example] An example will be described with reference to the drawings. Fig. 1 shows a screen-type contaminant treatment device for removing contaminants from a fluid such as wastewater flowing in a waterway in the direction of arrow A. has been done.

The screen-type foreign matter processing device has a cylinder jacket-shaped screen 10 that is partially submerged in water and arranged at an angle.6 In this embodiment, the screen 10 is arranged stationary so as to form an annular slit. When the four fluids made up of a large number of plate-like members, that is, the annular plate 12, pass through the slit, contaminants remain on the upstream surface of the annular plate 12.

A rotary scraping device 14 is provided inside the screen 10, and a rake 14a at the tip of the scraping device 14 can scrape up foreign matter remaining on the upstream surface of the screen 10.

A scraper device 22 is provided at the top of the screen 10.
When the rake 10a reaches the top of the screen 10, the scum (contaminants pulled up from the fluid) on the rake 14a is scraped off.

Furthermore, the screen 10 is mounted on the same rotating shaft as the scraping device 14.
A roller 16 is provided to rotate inside. The roller 16 is disposed so as to roll on the upstream surface of the screen 10 in advance of the rake 14a on at least a portion of the lower half of the screen 10, and as shown in FIG. Enables entry and exit from the upstream surface,
Scraping device 1 via support arm 16b with spring means 16a
It is supported by 4.

The strength of the spring means 16a is such that the roller 16
The pressing force against the upstream surface of 0 breaks up foreign matter that is easy to crumble, and the pressure is adjusted so that the foreign matter that is difficult to crumble can be easily overcome and rolled. At this time, roller 16
The surface of the material may be made of a soft material such as sponge or rubber, so that it is only dented when it comes into contact with relatively hard foreign matter.

As mentioned above, the roller 16 is provided so that it can come into contact with and move away from the upstream surface of the screen 10, so when the roller 16 is in the lower half of the screen 10, the roller 16 pushes against the screen due to its own weight. The roller 16 is pressed against the upstream surface of the screen 10.
0, the strength of the splashing means 16a is overcome by the weight of the roller 16, causing the roller 16 to move away from the upstream surface of the screen. This is roller 16
is within the upper half of the screen 10, roller 1
6 does not need to roll on the upstream surface of the screen. Also, when the rollers 16 are in the lower half of the screen 10, the rollers 16 may be placed over the entire lower half of the screen IQ, or a portion thereof, if desired.
6 can be configured to roll on the upstream surface of the screen.

Note that after the rake 14a passes the scraper device 22,
The rake 14a is designed to reverse a certain distance,
Either the scraper device 22 relatively passes through the rake 14a from behind and removes the residue that adheres to the rake 14a, or the roller 16 does not return to the scraper device w22 during this reversal. There must be.

Furthermore, a conveying device 18 extends from inside the screen 10 to a dumping position 18a for removing the scum. This conveying device 18 includes a screw conveyor 20, which conveys the residue from the screen 10 to the dumping position 18a and compresses and dehydrates it. The residue thus compressed and dehydrated is stored in a container (not shown) or the like from the dumping position 18a, and is sent for post-processing. On the other hand, the fluid generated by dehydration flows down the conveying device 18 and is returned to the water channel.

The conveying device 18 has a hopper 24 at its lower end. In this embodiment, below the scraper device 22,
A hopper 24 is provided to receive the residue scraped off by the scraper device 22.

A water spray device 22a is provided in the scraper device 22, and by spraying water onto the rising rake 14a, the residue on the rake 14a can be dropped into the hopper 24 and the residue can be washed at the same time. In this way, the residue is transferred to the screw conveyor 2 extending inside the hopper 24.
0, and is carried out from inside the screen 10 as described above while being cleaned.

In contrast to the provision of the water discharge device 22a, in this embodiment,
A conveying device 18 for removing contaminants from the screen 12 is permeable to water at least at its lower end. In other words, the hopper 24 is in the form of a screen or mesh within the screen 12. As a result, the water spray device 2
The residue washing water from 2a is allowed to fall into the waterway. Specifically, the hopper 24 is formed by arranging a plurality of elongated plate-like members as shown in FIG.

As a result, the water from the water discharge device 22a flows down into the waterway without accumulating in the hopper 24, so that when the screw conveyor 20 receives the residue from the tray 1r14a, cleaning of the residue is strengthened.

Furthermore, in this embodiment, the rake 14a of the scraping device 14 is
A water spray device 26 is provided for discharging water to the rake 14a while the rake rakes up impurities. Water cannon'l1
26 is separate from the water discharge device 22a and the hopper 24, and the water falls directly into the water channel. In this way, Leh-
Even while 'r14a is rising, the residue can be washed.

Cleaning performed while the residue is on the rake 14a or while it is in the hopper 24 is extremely effective in cleaning foreign matter as described above. This is because if the residue becomes compressed as it moves up the screw conveyor 20, it becomes difficult to remove foreign matter by cleaning.

Although preferred embodiments of the present invention have been described, it goes without saying that modifications can be made within the scope of the present invention.

For example, in the above embodiment, the hopper was formed by arranging a plurality of elongated plate-like members to allow water to pass through, but a regular hopper may be used and a drain hole may be provided at the bottom of the hopper. The hopper may be formed from a punched metal member.

Further, in the above embodiment, the roller is attached to the scraping device via a radial spring means so as to contact the upstream surface of the screen, but the scraping device is provided with a slit, and the roller is attached to the scraping device upstream of the screen. The roller may be mounted such that the rotation axis of the roller can be freely driven with respect to the surface.

Furthermore, by making the roller eccentric to its rotation axis,
The center of gravity of the roller may always be below the axis of rotation of the roller; in either case, when the roller is in the lower half of the screen, the roller will be pushed by its own weight against the upstream surface of the screen. However, when the roller is in the upper half of the screen, the roller can be configured to move away from the upstream surface of the screen under its own weight.

Additionally, depending on the conditions of the foreign matter being treated, effective results may be obtained by simply configuring the roller surface with a soft material such as sponge or rubber so that only a dent can be made for relatively hard foreign matter. It will be done.

Although the annular screen has been described, it goes without saying that the present invention can also be applied to a flat bar screen.However, in the case of a bar screen, the roller cannot be rotated concentrically with the rake, so the roller A different drive is required for rolling.

[Effect of the invention] When wastewater is treated with a contaminant treatment device having a screen configured as described above, soft contaminants that are undesirable for post-treatment are broken down and passed through the screen together with the fluid by water washing, and the fluid is Processed together with

Therefore, post-treatment of the scraped foreign substances, ie, residue, is facilitated, and unhygienic soft impurities are removed, so that the post-treatment of the residue is not hindered.

[Brief explanation of the drawing]

FIG. 1 is a partially cutaway perspective view of the entire screen-type foreign matter processing apparatus according to an embodiment of the present invention. FIG. 2 is a front view of the main parts of the screen-type foreign matter processing apparatus according to the embodiment of the present invention. FIG. 3 is a sectional view showing the attachment of the rollers of the screen-type foreign matter processing device according to the embodiment of the present invention. FIG. 4 is a perspective view showing a water-permeable impeller used in the screen-type contaminant treatment apparatus according to the embodiment of the present invention. (Margins below this page) In the figure, 10... 14. 14a. 16. 16a. 16b. 18.. 20.. 22a. 24. 26.. Reference symbols indicate the following members. Screen, ・Scraping device, ・Rake, ・Roller, ・Spring means, ・・Support arm, ・Transport device, ・Screw conveyor, ・・Water spray device, ・Hopper/water spray device,

Claims (3)

[Claims] (1) In order to remove impurities from the fluid, a slit is formed that extends from the upstream surface where the fluid flows in to the downstream surface where the fluid flows out, and as the fluid passes through the slit and flows out, the impurities in the fluid are removed. A screen configured to remain on the upstream surface, a scraping device for scraping up foreign matter remaining on the upstream surface of the screen, and a scraper device provided above the screen for scraping off foreign matter on the scraping device. , a screen-type foreign matter processing device having a conveying device for transporting foreign matter from the screen, in which a roller rolls on the upstream surface of the screen prior to scraping up by the scraping device in at least a part of the lower half of the screen. The screen-type foreign matter processing device is provided with a roller that contacts the upstream surface of the screen with a constant pressing force during rolling, and is configured to overcome foreign matter that does not crumble due to the pressing force. (2) The screen is formed in an annular shape, and the roller and the scraping device have a common rotation axis and rotate within the screen, and the scraping device rotates in the opposite direction by a certain angle with respect to the scraper device. and the roller is arranged to lead the scraping device by a greater angle than the predetermined angle.
The screen-type contaminant treatment device described above. (3) Claim 1 or 2, further comprising a water discharge device that releases water to the scraping device while the scraping device scrapes up foreign matter.
The screen-type contaminant treatment device described above.