KR910004245Y1 - Sedimentation apparatus for water supply - Google Patents

Abstract

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Description

Repositionable Tap Water Precipitator

1 is a cross-sectional view of the present invention.

2 is an exploded perspective view of the present invention.

3 is a perspective view of a main portion of a cut part of the present invention.

4 is an exemplary view of the inclined plate of the present invention.

* Explanation of symbols for main parts of the drawings

3: support beam 4: insertion groove

5: inclined plate 5 ': through hole

6 spacer 8 spacer

9, 9 ': Wire rope 10, 10': Winder

The present invention installs the supporting beam horizontally in the sedimentation chamber of the waterworks sedimentation tank and inserts a plurality of inclined plates formed at the lower end thereof with insertion grooves that can be inserted into the supporting beam at regular intervals, with a round spacer interposed therebetween. And install the support rod through the spherical spacers in the upper side of the inclined plate, and fasten the end of the support rod to the winding device with a wire rope so that the inclined plate can be arbitrarily separated from the support beam at an inclined or vertical angle. The present invention relates to a fitted water tapping device.

Conventional tap water precipitators are installed by inserting a plurality of inclined plates at regular intervals on the support rods, and then the inclined plates are suspended in the settling chamber space by the support rods, but they are supported by the loads of the inclined plates and the load of sediment deposited on the inclined plates. The angle of inclination of the inclined plate suspended from each other as it is bent downward, or it is difficult to arbitrarily vary the angle between the closed end and the inclined plate which collides with the upper and lower inclined plates. There was a problem that the burden is high.

The present invention is intended to correct such a conventional problem, unlike the suspension type sedimentation device of waterworks, one or two or more support beams are installed side by side at regular intervals in the sedimentation chamber of the waterworks sedimentation tank and fitted to the support beams. The insertion groove is placed in the support beam through the through hole formed in the upper portion of the inclined plate side by side sandwiching the insertion grooves of the inclined plate side by side with a round spacer fixed a plurality of rectangular inclined plate formed in the lower end to the support beam. The wire rod connected to both ends of the rod to be wound around the winder installed in the upper part of the settling tank so that the rod is inserted between each inclined plate. Can be adjusted arbitrarily and the inclined plate is supported on the support beam more safely. When the angle of the inclined plate is variable, the lower end of the inclined plate between the spacers fixed to the support beam is in place and operated at regular intervals by the supporting rod, thereby improving durability compared to the conventional one. The sediment deposited in the dropping down the sediment down by the vertical variable operation of the inclined plate to be more efficiently and economically to precipitate the water of tap water, which will be described in detail as follows.

In order to correct this problem, the present invention, unlike the conventional water suspension suspension apparatus, installs one or two support beams horizontally at regular intervals at the bottom of the sedimentation tank to insert round spacers into the support beams. A plurality of inclined plates having a gap therebetween and formed with insertion grooves at the lower end thereof are placed so that the inserts of the inclined plates are inserted into the support beams between the spacers. Insert the spacer on the top to maintain a constant distance, and the wire rope connected to both ends of the rod is wound around the roller of the winder formed on the upper part of the sedimentation tank, and the inclined plate is supported on the support beam by the left and right movement of the rod by the winder. It can be configured to be variable so that multiple inclined plates can Multiple sloping plates adjacent to each other can maintain a constant interval without supporting or hanging under the load or bending of the supporting rods, so that the tack efficiency can be maintained high, and the sloping plates between the spacers fixed to the supporting beams are simultaneously supported and held in place. Only the upper part of the inclined plate is moved left and right by the spherical spacer, and the inclined plate can be freely varied from the inclined angle to the wide range of the vertical angle so that the deposit deposited on the inclined plate can be easily dropped by the vertical variable of the inclined plate, and the structure is simple. And the durability is more improved once installed without any risk of failure, more economically long time to be able to efficiently settle the water of tap water, which will be described in detail by the drawings as follows.

Insertion grooves 4 for installing one or two or more support beams 3 at regular intervals in the lower part of the settling chamber 2 of the water settling tank 1 and inserting the support beams at the lower end of the inclined plate 5. ) Is formed at the same interval as the support beam so that the insertion groove 4 formed in the inclined plate 5 is inserted into the support beam 3, and the support beam 3 between each inclined plate is formed with an insertion groove 6 ′. Fixing the circumferential spacer 6 to support the lower end of the inclined plate 5 to the support beam at regular intervals and insert the support rod 7 horizontally through the through hole 5 'formed in the upper portion of the inclined plate 5 The wire ropes 9 and 9 'connected to both ends of the support rod 7 by penetrating the support rod 7 through the holes 8' of the spacer 8 so that the spherical spacer 8 is inserted therebetween. The left and right teeth of the support rod 7 are wound around the bobbin 11, 11 'of the winder 10, 10' installed in the settling tank 1 through guide rollers 12, 12 '. The angle of the inclined plate 5 can be arbitrarily adjusted by copper.

The present invention thus achieved is the wire rod (9) connected to one side of the support rod (7) relaxes while pulling the wire rope (9 ') connected to the other end by the winding machine (10'), the support rod (7) is one horizontal As shown in FIG. 1, the inclination angle is adjusted according to the degree of movement of only the upper end of the inclination plate 5 while the lower end of the inclination plate 5 is adhered by the spacer 6 as shown in FIG. Adjust the inclined plate (5) at an angle so that deposits are deposited on the inclined plate, and when the sediment deposited on the inclined plate is dropped down over time, the other wire rope 9 ' (9) is wound by the winder (10), as shown by the dotted line in Fig. 1 as the support rod (7) is moved horizontally to one side, the inclined plate (5) becomes vertical, the needle deposited on the inclined plate (5) Water is dropped below the settling chamber (2), and the inclined plate is returned to the original inclined again to continuously treat the water of tap water.The insertion groove formed at the bottom of the inclined plate is placed in the settling chamber of the tap water settling chamber, A round spacer is fixed to the support beam so that the lower end of the inclined plate is held in place without moving from side to side. The wire rope connected to the support rod is wound around the upper side of the settling tank by a spherical spacer in the upper hole of the inclined plate. Since the angle of the inclined plate can be arbitrarily adjusted by moving the support rod to the left and right, the support rod supporting the inclined plate under the load of the inclined plate and the sediment is not bent or the inclined plate is inclined because the inclined plate is safely placed on the support beam. Spacing suitable for sedimentation It is possible to settle more efficiently by maintaining squareness, and it is easy to adjust the angle of the inclined plate, and the spacer acts as a kind of ball bearing, so the angle can be freely changed under the condition that the interval of each inclined plate is kept constant. Since it is simple, there is no effect of a special breakdown, it is more safe and economically convenient to settle the water of tap water than conventional suspension precipitation apparatus.

Claims (1)

One or two or more support beams 3 are installed side by side at a predetermined interval in the lower part of the sedimentation chamber 2 of the water settling tank 1, and an insertion groove 4 is formed at the lower ends of the plurality of inclined plates 5. The insertion groove 4 of the inclined plate is fitted to the support beam, and the insertion groove 6 'of the round spacer 6 is fixed to the lower support side beam between each inclined plate, and the through hole formed in the upper portion of the inclined plate 5 ') Through the support rod (7) with the spherical spacer (8) through the wire rope (9) (9') connected to both ends of the support rod (7), respectively formed on the top of the settling tank (10) (10 ') Tactile tap water settling device each wound around