KR200367255Y1 - The device for control the speed of a current passing wall of cohesive area - Google Patents

Abstract

The present invention relates to a device for adjusting the flow rate of the rectifying wall passing through the flocculating paper, and more particularly, the commutation wall of the flocculating paper which can be easily attached and detached without fixing the parts or means necessary for opening and closing the rectifying hole with the anchor wall. An apparatus for adjusting a flow rate, the apparatus comprising: a rectifying wall of an agglomeration paper having a plurality of rectifying holes, the pipe portion being inserted into the rectifying hole; Means for detachably fixing the tubular part to the rectifying wall; By the means for opening and closing the tubular part fixed to the rectifying wall by the fixing means can not only prevent the breakage of the rectifying wall due to the opening and closing of the rectifying hole, but also the speed and convenience of opening and closing operations can be provided, and also economically It will have the effect of supplying quality water.

Description

The device for control the speed of a current passing wall of cohesive area}

The present invention relates to a device for adjusting the flow rate of the rectifying wall passing through the flocculating paper, and more particularly, the commutation wall of the flocculating paper which can be easily attached and detached without fixing the parts or means necessary for opening and closing the rectifying hole with the anchor wall. The present invention relates to a flow rate adjusting device.

In general, water and sewage treatment facilities are composed of water wells, chemical input facilities, mixed papers, flocculation ponds, sedimentation basins, filter papers, advanced water treatment facilities, water purification sites, water pump facilities, and drainage basins.

The flocculation paper is configured in stages, and the floc stays for a predetermined time and passes through each stage. At this time, the first stage of the flocculator is relatively strong, and the second stage of the flocculator is weakly stirred than the first stage. It is operated and stays in the agglomeration site for a certain time and moves to the next stage through the orifice of the rectifying wall.

Thus, when passing through the rectifying hole of the rectifying wall, the phenomenon that the floc is destroyed by the passage flow rate is generated, in order to prevent this to adjust the amount passing through the rectifying hole.

In more detail, in the case of the pre-installed flocculation basin rectification wall, even though the opening ratio satisfies the facility standard, the rectification walls at each stage are the same, so that the flow velocity of the rectification hole is constant so that the flocculation wall rectification wall and the 2-stage agglomeration are uniform. Differences with the optimum rate of flocculation in the rectifying walls are likely to cause flocs to break.

Therefore, in order to prevent the floc from being destroyed, the rectifying hole flow velocity must be adjusted to the optimum flocculation speed by increasing the opening ratio toward the rectifying wall between the first stage flocculation basin, the second stage flocculation basin, and the precipitation basin between the flocculation basin and the flocculation basin. The rectifying hole passage flow rate is adjusted by closing or reopening a part of the rectifying holes formed on the rectifying wall.

The flow velocity of the rectifying hole is generally 55 cm / sec at the inlet side flow rate of the condensate wall in the first stage, and the flow rate at the inlet side of the condensate wall is 35 cm / sec. When the flow velocity of the outflow side of the rectifying wall in between is 15 cm / sec or more, it is possible to effectively prevent the floc from being broken.

In general, the rectifying hole is closed by a metal plate body, and the metal plate body is fixed to a rectifying wall formed of a concrete material by an anchor bolt, thereby repeatedly attaching and removing the metal plate body to the rectifying wall for opening and closing of the rectifying hole. In addition to the breakage of the rectifying wall, it takes a lot of work time, hassle and inconvenience of work, and there was a problem of water pollution and aesthetic defects due to corrosion of the metal plate.

The present invention has been made in order to solve the conventional problems as described above, the purpose is to easily detachable parts or means necessary to open and close the rectification hole without fixing the anchor bolt to the rectifying wall It is to prevent breakage of the rectifying wall due to the opening and closing of the rectifying hole, to secure the promptness and simplicity of the opening and closing operation, and to provide high quality water economically.

In the rectifying wall of the aggregated paper having a plurality of rectifying holes in order to achieve the object of the present invention, the tube portion of the corrosion resistance material inserted into the rectifying hole; Means for detachably fixing the tubular part to the rectifying wall; Provided is a rectifying wall passage flow rate adjusting device for agglomerated paper, characterized in that it consists of means for opening and closing the tubular part fixed to the rectifying wall by the fixing means.

In addition, the fixing means is configured to be detachably fixed to the rectifying wall by the spiral coupling.

In addition, the first screw portion and the second screw portion having spirals in opposite directions are formed on the outer surfaces of both ends of the pipe portion, and the lock nut is fastened to the first screw portion and the second screw portion, respectively, to fix the pipe portion to the rectifying wall. Characterized in that configured to.

In addition, the opening and closing means is characterized in that it comprises a stopper which is spirally coupled to the first screw portion and the second screw portion of the tubular portion.

1 is an exploded perspective view showing the configuration of the present invention.

Figure 2 is a cross-sectional view showing an open state of the present invention.

Figure 3 is a cross-sectional view showing a closed state of the present invention.

* Explanation of symbols for main parts of the drawings

1: pipe part 2, 3: first and second threaded part

4,4a: Lock nut 5,5a: Inner spiral

6,6a: stopper 7: helix

Hereinafter, with reference to the accompanying drawings will be described in detail the configuration of the present invention according to the embodiment.

1 is an exploded perspective view showing an embodiment of the present invention.

As shown therein, the present invention is provided with a tubular portion 1 inserted into the rectifying hole of the rectifying wall in the horizontal direction, and the tubular portion 1 is a P.C.C (PVC) pipe having corrosion resistance. It is formed, and is formed in a diameter corresponding to the rectifying hole, and after being inserted into the rectifying hole, both ends are formed to have a length longer than the rectifying hole 200 so as to protrude slightly toward the front and rear sides of the rectifying hole.

This is achieved by one means for detachably fixing the tubular part 1 to the rectifying wall, and a pair of lock nuts 4 as a means for detachably fixing the tubular part 1 to the rectifying wall. (4a) is provided.

The lock nuts (4) and (4a) are fastened to the outer side of the tubular portion (1), respectively, to fix the tubular portion (1) to the rectifying wall (100) by tightening force on the front and rear surfaces of the rectifying wall (100). To this end, the first threaded portion 2 and the second threaded portion 3 are formed at both ends of the tubular portion 1, respectively, and the first threaded portion 2 and the second threaded portion 3 are opposite to each other. The inner spiral portion 5, 5a is formed on the inner surface of the lock nut 4, 4a.

As a means for opening and closing the tube part 1 fixed to the rectifying wall by the lock nut 4 and 4a, a pair of stoppers 6 and 6a are provided, and the stopper 6 6a, like the locknuts 4 and 4a, is also helically coupled to the first threaded portion 2 and the second threaded portion 3 of the tubular portion 1, and for this purpose, the inner surface of the stopper 6, 6a. The spiral portion 7 corresponding to the first screw portion 2 and the second screw portion 3 is formed therein.

Next will be described in detail with reference to Figures 2 and 3 attached to the installation and use of the subject innovation configured as described above.

2 is a cross-sectional view showing an installation state of the present invention.

First, the operator inserts the tubular portion 1 into the rectifying hole 200 of the rectifying wall 100, and then a pair of the first threaded portion 2 and the second threaded portion 3 of the tubular portion 1 The lock nuts (4) and (4a) are respectively fastened, and the lock nuts (4) and (4a) are continuously rotated so that the tightening force on the front and rear surfaces of the rectifying wall 100 acts. It is to be able to fix (1) to the rectifying wall (100).

Then, the lock nut (4) (4a) is rotated in the opposite direction again to release the tightening force on the front and rear of the rectifying wall 100, and then separated from the tube portion (1) by removing the tube portion (1) It can be easily removed from the rectifying wall (100).

3 is a cross-sectional view showing a state of use of the present invention.

As shown here, the present invention has a pair of plugs on the first threaded portion 2 and the second threaded portion 3 of the tubular portion 1 fixed to the rectifying wall 100 by the locknuts 4 and 4a. By combining (6) and (6a), the closure to the tubular portion 1 is made so that the floc does not pass through the rectifying wall 100 partitioning each end of the agglomeration basin. By separating 6) and 6a, the opening of the rectifying wall 100 is made so that the floc can pass.

As such, the present invention adjusts the flow rate of the floc according to the opening or closing ratio of the rectifying hole 200 which is perforated in the rectifying wall 100 to the pipe part 1 detachably installed in the rectifying hole 200. Since the opening or closing of the rectifying hole 200 is made by a simple operation of engaging or disconnecting the stopper 6 and 6a, the operation can be made quickly and easily, and the attachment and detachment can be made without breaking the rectifying wall. Installation can be made easily, and by being formed of a corrosion-resistant material such as PVC, it is possible to prevent water pollution due to corrosion.

As described above, the present invention is installed only by inserting a pipe into the rectifying pipe and fixing it with a nut, and opening and closing of the stopper for the pipe allows opening and closing of the rectifying pipe so that breakage of the rectifying wall due to opening and closing of the rectifying hole is achieved. In addition to preventing this, it is possible to provide the speed and convenience of the opening and closing operation, and also has the effect of supplying high quality water economically.

Claims (4)

In the rectifying wall of the aggregated paper having a plurality of rectifying holes, A pipe part made of a corrosion resistant material inserted into the rectifying hole; And a lock nut and a stopper fastened to first and second threads in opposite directions formed on both outer side surfaces of the tubular portion, respectively. delete delete delete