JP7243571B2 - Industrial water circulation system - Google Patents

Description

TECHNICAL FIELD The present invention relates to a filtration device and an industrial water circulation system including the same, and more particularly to a filtration device for filtering purified industrial water and an industrial water circulation system including the same.

Industrial water is used, for example, in factories and the like for purposes such as toilet cleaning, product treatment, and cooling. The used industrial water is often discharged into a river or the like after being treated in a septic tank. In recent years, it has become difficult to secure industrial water under the influence of water shortages, and it is required to recycle industrial water.

JP-A-09-314163

In the recycling of industrial water, industrial water used for flushing toilets in particular retains a certain amount of odor and color such as yellowing even after being purified, and when it is reused, the toilet equipment may have an odor and color such as yellowing. It might stick. Therefore, it is conceivable to filter purified industrial water with a filtration device.

As a filtering device, for example, a device is known in which a plurality of types of filtering media such as cloth, sand, activated carbon, gravel, and pebbles are stacked in order in a filtering tank. According to this filtration device, it is possible to remove the odor and coloration such as yellowing that remain in the purified industrial water. The cost of the device itself, including the above, is extremely high.

As another filtering device, for example, a filtering tank filled with only activated carbon is known (see, for example, FIG. 1 of Patent Document 1). According to this filtration device, cost reduction can be achieved, but since the industrial water is simply filtered using only activated carbon, it is possible to completely remove the odor and coloration such as yellowing that remain in the purified industrial water. Can not.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-mentioned current situation. It is an object of the present invention to provide an industrial water circulation system equipped with:

The present inventors have found that by ensuring a sufficient contact time of industrial water with activated carbon, it is possible to remove the odor and coloration such as yellowing that remain in the purified industrial water, and have completed the present invention. reached.
In order to solve the above problem, the invention according to claim 1 is a filtration device for filtering purified industrial water, which is intermittently supplied with purified industrial water and contains activated carbon. An industrial water inlet is connected to the upper part of the filter tank, and an industrial water outlet is connected to the lower part of the filter tank, and the industrial water from the outlet to the filter tank is connected to the filter tank. The gist is that the outflow is smaller than the inflow of industrial water from the inlet.
The invention according to claim 2 is the invention according to claim 1, wherein the filtration tank is configured to retain a predetermined amount of industrial water in a state in which the supply of industrial water is stopped. This is the gist of it.
The invention according to claim 3 is the invention according to claim 1 or 2, wherein a plurality of water-permeable bags in which activated carbon is enclosed are removably accommodated in the filter tank. This is the gist.
In order to solve the above problem, the invention according to claim 4 is an industrial water circulation system, comprising: a water tank for storing industrial water; a facility for using the industrial water supplied from the water tank; A septic tank for treating industrial water used in the facility, and the filtration device according to any one of claims 1 to 3 for filtering the industrial water treated in the septic tank and intermittently supplied, wherein the filtration device The gist is that the water receiving tank is connected so that the industrial water filtered by the filtering device is supplied to the water receiving tank.

According to the filtration apparatus of the present invention, purified industrial water is intermittently supplied and provided with a filter tank containing activated carbon. An outflow port for industrial water is connected to the lower portion, and the amount of outflow of industrial water from the outflow port to the filter tank is smaller than the amount of inflow of industrial water from the inflow port. As a result, a state in which industrial water is supplied and a state in which industrial water is not supplied to the filter tank where the outflow is restricted is repeated, ensuring a sufficient contact time for the industrial water to the activated carbon in the filter tank. can. Therefore, the activated carbon effectively removes the odor and color such as yellowing remaining in the purified industrial water, and the industrial water can be recycled. Furthermore, since activated carbon is accommodated as a filtration medium in the filter tank, a compact and inexpensive structure can be achieved.
In addition, when the filter tank is configured to maintain a predetermined amount of industrial water storage in a state where the supply of industrial water is stopped, the industrial water is further sufficient for the activated carbon in the filter tank. Secure contact time.
Furthermore, when a plurality of water-permeable bags enclosing activated carbon are detachably stored in the filter tank, the handleability at the time of replacing the activated carbon is improved, and the activated carbon is washed away for regeneration. The handleability when processing is improved. Furthermore, there is no need to provide a backwashing function, and the structure can be made smaller and cheaper.
According to the industrial water circulation system of the present invention, there are a receiving tank for storing industrial water, a facility for using the industrial water supplied from the receiving tank, a septic tank for treating the industrial water used in the facility, and a septic tank for treating the industrial water. and the above-described filtering device for filtering industrial water intermittently supplied through the filtering device, and the filtering device and the receiving tank are connected so that the industrial water filtered by the filtering device is supplied to the receiving tank. . As a result, the industrial water supplied from the receiving tank is used in the facility, the industrial water used in the facility is treated in the septic tank, the industrial water treated in the septic tank is intermittently supplied to the filtration device, and the filtration device Industrial water (reclaimed water) from which odors and coloring such as yellowing have been removed by filtration is returned to the water tank.

The present invention will be further described in the following detailed description by way of non-limiting examples of exemplary embodiments according to the invention and with reference to the mentioned drawings, wherein like reference numerals indicate Similar parts are shown throughout the several figures.
1 is a vertical cross-sectional view of a filtering device according to an example; FIG. FIG. 2 is a sectional view taken along the line II-II of FIG. 1; FIG. 2 is an enlarged sectional view taken along line III-III of FIG. 1; FIG. 4 is an explanatory diagram for explaining the accommodation form of activated carbon according to the example. It is action explanatory drawing of the said filtering apparatus. It is a block part of an industrial water circulation system according to an example. It is a vertical cross-sectional view of the water receiving tank which concerns on an Example. It is an explanatory view for explaining a filtering device concerning other forms.

The material presented herein is intended to be illustrative and illustrative of the embodiments of the invention and is believed to be the most effective and readily understood description of the principles and conceptual features of the invention. It is stated for the purpose of providing what it seems. In this regard, no attempt is made to show structural details of the invention beyond those necessary for a fundamental understanding of the invention, and the description in conjunction with the drawings will illustrate some aspects of the invention. It will be clear to those skilled in the art how it is actually implemented.

<Filtration device>
The filtration device according to the present embodiment is, for example, a filtration device (1) for filtering purified industrial water, as shown in FIGS. 1 to 3, wherein the purified industrial water is intermittently supplied. is provided with a filter tank (3) containing activated carbon (2), the filter tank (3) is connected to an inlet port (4) for industrial water at its upper portion, and an outlet port for industrial water at its lower portion. (5) are connected. Then, for example, as shown in FIG. 5(a), the outflow amount (Q1) of industrial water from the outflow port (5) to the filter tank (3) is the inflow amount of industrial water from the inflow port (4) ( Q2).

The structure, size, shape, etc. of the filter tank (3) are not particularly limited. In this filter tank (3), for example, as shown in FIG. 6, industrial Service water can be supplied intermittently. In addition, as shown in FIGS. 3 and 4, for example, the filtration tank (3) contains a plurality of water-permeable bags (16) in which the activated carbon (2) is enclosed so as to be removable. can be done.

The size, shape, etc. of the outlet (5) and the inlet (4) are not particularly limited. In order to reduce the outflow (Q1) of the filter tank (3), for example, as shown in FIG. It can be set to a small value.

It should be noted that the use of the industrial water is not particularly limited. Applications of this industrial water include, for example, toilet cleaning, product treatment, cooling, and the like. Moreover, the type, shape, etc. of the activated carbon (2) are not particularly limited. The shape of the activated carbon (2) may be granular, powdery, blocky, fibrous, honeycomb structured, cylindrical, and the like.

As a filtration device according to the present embodiment, for example, as shown in FIG. and a form configured to maintain the In this case, for example, the other end of the pipe (8) connected to the outflow port (5) of the filter tank (3) is positioned higher than the one end side (that is, the outflow port (5)) of the storage tank (26). ).

<Industrial water circulation system>
The industrial water circulation system (21) according to this embodiment includes, for example, as shown in FIG. (23), a septic tank (24) for treating the industrial water used in the facility (23), and a filtration according to the above embodiments for filtering the intermittently supplied industrial water treated in the septic tank (24). and a filtering device (1) and a water receiving tank (22) are connected so that industrial water filtered by the filtering device (1) is supplied to the water receiving tank (22). .

The structure, size, form of receiving water, etc. of the water receiving tank (22) are not particularly limited. For example, as shown in FIG. 7, the water receiving tank (22) is connected to a supply pipe (27) for supplying industrial water filtered by the filtering device (1), and an industrial water tank. A water supply pipe (35) for supplying industrial water via a water supply can be connected. Also, the type, number, etc. of the equipment (23) are not particularly limited. The facilities (23) include, for example, toilet facilities, product processing facilities, cooling facilities, and the like. Furthermore, the structure, size, purification form, etc. of the septic tank (24) are not particularly limited. Examples of the septic tank (24) include an anaerobic filter bed contact aeration system, a denitrification filter bed contact aeration system, and the like.

As an industrial water circulation system (21) according to this embodiment, for example, as shown in FIG. ), and a second storage tank (26) for storing the industrial water filtered in the second storage tank (26).

It should be noted that the reference numerals in parentheses for each configuration described in the above embodiment indicate the corresponding relationship with the specific configuration described in the examples described later.

Hereinafter, the present invention will be specifically described by way of examples with reference to the drawings. In addition, in the present embodiment, a configuration in which a plurality of (two in the figure) filtration devices 1 are installed is exemplified (see FIG. 1).

(1) Configuration of Filtration Device As shown in FIGS. 1 to 3, the filtration device 1 according to the present embodiment is intermittently supplied with purified industrial water and includes a filter tank 3 containing activated carbon 2. ing. An industrial water inlet 4 is connected to the upper portion of the filter tank 3, and an industrial water outlet 5 is connected to the lower portion thereof. The inlet 4 is constructed of a tube having a predetermined inner diameter (eg, 5 mm). Also, the outflow port 5 is configured by a tube having a predetermined inner diameter (for example, 4 mm) smaller than the inner diameter of the inflow port 4 . Therefore, the opening area S1 of the outflow port 5 is set to a smaller value than the opening area S2 of the inflow port 4 (see FIG. 3).

One end of each inlet 4 is connected to the other end of a pipe 7 connected to a first storage tank 25, which will be described later. One end of each outflow port 5 is connected to the other end of a pipe 8 connected to a second storage tank 26, which will be described later. One end of the pipe 8 is connected to the second storage tank 26 at a position higher than the outflow port 5 . .

Industrial water is intermittently supplied to the filter tank 3 . That is, industrial water is supplied to the filter tank 3 for a predetermined supply time (for example, 5 minutes), and industrial water is stopped for a predetermined stop time (for example, 5 minutes), and these supply and supply stop are repeated. be This repetition of supply and stop of the industrial water is performed by controlling the operation of the pump 32 that pressure-feeds the industrial water from the septic tank 24 to the first storage tank 25 by the controller 33 (see FIG. 6).
The control processing by the control unit 33 may be realized by either hardware or software, and is preferably a microcontroller (microcomputer) having a CPU, a storage device (ROM, RAM, etc.), an input/output circuit, etc. can be configured by providing a peripheral circuit such as an input/output interface.

In the state in which industrial water is supplied to the filter tank 3, the outflow Q1 of industrial water from the outlet 5 to the filter tank 3 is smaller than the inflow Q2 of industrial water from the inlet 4 (Fig. 5(a)). Furthermore, when the supply of industrial water to the filter tank 3 is stopped, the filter tank 3 contains a predetermined amount Q3 (that is, the amount of water that reaches the liquid level corresponding to the height position on the one end side of the pipe 8) Reservation of industrial water in Q3) is maintained (see FIG. 5(c)).

As shown in FIG. 3, the filter tank 3 includes a bottomed cylindrical main body 11 with an upper opening, and a lid 12 detachably attached to the main body 11 so as to close the upper opening of the main body 11. ing. Inside the main body 11, a container 13 having an upper opening is arranged. Inside the container 13 , a water-permeable cover bag 14 with an upper opening is arranged so as to cover the inner surface of the container 13 . The cover bag 14 is made of a material (for example, non-woven fabric) that restricts passage of the activated carbon 2 .

The activated carbon 2 (for example, granular activated carbon 2) is enclosed (filled) in a water-permeable first bag 16, as shown in FIG. The first bag 16 is made of a material (for example, non-woven fabric) that restricts passage of the activated carbon 2 . The opening of the first bag body 16 (that is, the opening for charging the activated carbon 2) is closed by adhesion or the like. A plurality of first bag bodies 16 are housed in second bag bodies 17 having water permeability. The second bag body 17 is made of a material such as a resin mesh. The opening of the second bag 17 (that is, the opening for housing the first bag 16) is closed by tying or the like. Further, a plurality of second bag bodies 17 are accommodated in the cover body 14 so as to be removable (see FIG. 3).

(2) Configuration of Industrial Water Circulation System Next, an industrial water circulation system 21 including the filtration device 1 having the above configuration will be described. This industrial water circulation system 21, as shown in FIG.

The water receiving tank 22 stores industrial water. The toilet equipment 23 is connected to the water tank 22 by piping and uses industrial water supplied from the water tank 22 . Moreover, the septic tank 24 is connected to the toilet equipment 23 by piping, and purifies the industrial water used in the toilet equipment 23 . The first storage tank 25 is connected to the septic tank 24 by piping and stores the industrial water purified in the septic tank 24 . Moreover, the filter device 1 is pipe-connected to the first storage tank 25 and filters industrial water intermittently supplied from the first storage tank 25 . Moreover, the 2nd storage tank 26 is pipe-connected with the filter device 1, and stores the industrial water filtered by the filter device 1. FIG.

The filtering device 1 and the water receiving tank 22 are connected so that the industrial water (reclaimed water) filtered by the filtering device 1 is supplied to the water receiving tank 22 . Specifically, the second storage tank 26 and the water receiving tank 22 are connected by a pipe 27 for supplying reclaimed water. The pipe 27 is provided with a pump 28 for pressure-feeding the reclaimed water in the second storage tank 26 to the water receiving tank 22 . Further, a pipe 31 connecting the septic tank 24 and the first storage tank 25 is provided with a pump 32 for pumping the industrial water treated in the septic tank 24 to the first storage tank 25 . The operation of the pump 32 is controlled by the controller 33 as described above, whereby industrial water is intermittently supplied from the first storage tank 25 (that is, the septic tank 24) to the filter device 1.

As shown in FIG. 7, one end side of a pipe 27 for supplying reclaimed water is connected to the upper portion of the water receiving tank 22, and a water supply pipe for supplying industrial water via an industrial water supply. One end side of the pipe 35 is connected. A water sensor 36 (specifically, a ball tap 36) is provided in the water receiving tank 22 to detect the amount of water. When the water volume sensor 36 detects that the water volume in the water receiving tank 22 is full (eg, 70 m ³ ) or more, industrial water is not supplied from the pipe 35 and the water volume in the water receiving tank 22 is full (eg, 70 m ^{3 )} . ), industrial water is supplied from the pipe 35 . An overflow pipe 37 is connected to the upper portion of the water receiving tank 22 . When the amount of water in the water receiving tank 22 is full, a predetermined amount of water (eg, 5 m ³ ) is secured as a supply (eg, 3 m ³ /h) frame for reclaimed water.

In addition to the industrial water used in the toilet facility 23, tap water used in the dining room facility 41, drinking facility 42, and hand-washing facility 43 is also supplied to the septic tank 24 for purification. Tap water is supplied from a water receiving tank 44 to each of these facilities 41 to 43 . Further, industrial water is supplied from the water tank 22 to the cooling tower 45 and used for air conditioning and welding equipment 46 .

(3) Action of Industrial Water Circulation System Next, the action of the industrial water circulation system 21 configured as described above will be described. In this industrial water circulation system 21, as shown in FIG. The industrial water treated by is intermittently supplied to the filtration device 1 through the first storage tank 25, and the industrial water (reclaimed water) filtered by the filtration device 1 is supplied to the receiving tank 22 through the second storage tank 26. returned.

In the filter device 1 , as shown in FIG. 5( a ), industrial water purified in a septic tank 24 is supplied to the filter tank 3 through a first storage tank 25 . At this time, since the outflow Q1 from the outflow port 5 to the filter tank 3 is smaller than the inflow Q2 from the inflow port 4, the amount of water in the filter tank 3 increases. On the other hand, when the supply of industrial water to the filter tank 3 is stopped, the amount of water in the filter tank 3 decreases due to the outflow of industrial water from the outflow port 5, as shown in FIG. 5(b). Then, as shown in FIG. 5(c), when the amount of water in the filter tank 3 reaches the liquid level corresponding to the height position on the one end side of the pipe 8, the outflow of industrial water from the outflow port 5 stops, and the filtration A predetermined quantity Q3 of industrial water is maintained in tank 3 .

Here, when replacing the activated carbon 2 of the filtration device 1, the lid 12 is removed from the main body 11 of the filter tank 3, the bags 16 and 17 containing the activated carbon 2 are taken out from the container 13, and placed in the empty container 13. Bag bodies 16 and 17 containing new activated carbon 2 are accommodated. Moreover, the removed bags 16 and 17 are washed and recycled by the operator.

(4) Effects of the embodiment According to the filtration device 1 of the present embodiment, the purified industrial water is intermittently supplied, and the filtration tank 3 is provided with the activated carbon 2. An industrial water inflow port 4 is connected, and an industrial water outflow port 5 is connected to the bottom thereof. It is smaller than the inflow amount Q2 of the utility water. As a result, a state in which industrial water is supplied and a state in which industrial water is not supplied to the filter tank 3 in which the outflow amount Q1 is narrowed are repeated. Secure contact time. Therefore, the activated carbon effectively removes the residual odor and coloration such as yellowing in the purified industrial water, and the industrial water can be suitably recycled with zero wastewater. Furthermore, since the activated carbon 2 is accommodated as a filtration medium in the filter tank 3, a compact and inexpensive structure can be achieved. Since the filter device 1 has such a compact and inexpensive structure, it can be combined according to the purification procedure and can be provided at a low cost with high versatility.

Further, in this embodiment, the filtration tank 3 is configured to retain a predetermined amount Q3 of industrial water while the supply of industrial water is stopped. Thereby, a more sufficient contact time of the industrial water with the activated carbon 2 in the filter tank 3 can be ensured.

Furthermore, in this embodiment, a plurality of water-permeable bags 16 in which the activated carbon 2 is encapsulated are removably accommodated in the filter tank 3 . As a result, the handleability when exchanging the activated carbon 2 is improved, and the handleability when the activated carbon 2 is washed away and regenerated is improved. Furthermore, there is no need to provide a backwashing function, and the structure can be made smaller and cheaper.

According to the industrial water circulation system 21 of the present embodiment, the water receiving tank 22 stores the industrial water, the toilet equipment 23 uses the industrial water supplied from the water receiving tank 22, and the industrial water used in the toilet equipment 23 is treated. and the filtration device 1 for filtering the industrial water treated in the septic tank 24 and intermittently supplied. It is connected so that water is supplied to the water receiving tank 22 . As a result, the industrial water supplied from the water receiving tank 22 is used in the toilet facility 23, the industrial water used in the toilet facility 23 is treated in the septic tank 24, and the industrial water treated in the septic tank 24 is intermittently connected to the filtration device 1. The industrial water (reclaimed water) that has been supplied to the factory and filtered by the filtering device 1 to remove odors and coloring such as yellowing is returned to the water receiving tank 22 . As a result, it is possible to suitably circulate industrial water with zero waste water.

It should be noted that the present invention is not limited to the above-described examples, and may be variously modified examples within the scope of the present invention according to the purpose and application. That is, in the above-described embodiment, an embodiment in which two filtration devices 1 are installed side by side was exemplified, but the present invention is not limited to this. Three or more filtering devices 1 may be provided side by side.

Further, in the above embodiment, the outflow amount Q1 is reduced by making the opening area S1 of the outflow port 5 smaller than the opening area S2 of the inflow port 4, but the invention is not limited to this. As described above, industrial water is supplied to each inlet 4 of a plurality of filtration devices 1 through an independent pipe 48, and each outlet 5 of a plurality of filtration devices 1 is connected to a common pipe 49, whereby the outflow The quantity Q1 may be reduced.

Furthermore, in the above-described embodiment, the connection position of the pipe 8 to the second storage tank 26 is set higher than the outflow port 5, so that the predetermined amount Q3 of industrial water is stored in the filtration tank 3. Not limited to this, for example, by providing an opening/closing valve in the pipe 8 and controlling the opening/closing of the opening/closing valve according to the supply and stop of industrial water from the septic tank 24, a predetermined amount Q3 of industrial water in the filtration tank 3 Reservation may be maintained.

Furthermore, in the above embodiment, the first bag 16 is filled with the activated carbon 2, and the second bag 17 containing the first bag 16 is housed in the container 13. However, the present invention is not limited to this. For example, the first bag 16 filled with the activated carbon 2 may be accommodated in the container 13 without using the second bag 17 . Furthermore, for example, the activated carbon 2 may be directly accommodated in the container 13 or the main body 2 .

The foregoing examples are for illustrative purposes only and are not to be construed as limiting the invention. While the present invention has been described by way of examples of exemplary embodiments, it is understood that the words used in describing and illustrating the invention are words of description and illustration, rather than words of limitation. Changes may be made within the scope of the appended claims without departing from the scope or spirit of the invention in its form, as detailed herein. Although reference has been made herein to specific structures, materials and embodiments in describing the invention, it is not intended that the invention be limited to the disclosure herein, but rather the invention as set forth in the appended claims. It covers all functionally equivalent structures, methods and uses within its scope.

The present invention is not limited to the embodiments detailed above, and various modifications and changes are possible within the scope of the claims of the present invention.

INDUSTRIAL APPLICABILITY The present invention is widely used as a technique for filtering purified industrial water.

1; filtration device, 2; activated carbon, 3; filter tank, 4; inflow port, 5; outflow port, 16; first bag body, 21; Septic tank, Q1; outflow of industrial water, Q2; inflow of industrial water, Q3; predetermined amount (storage amount of industrial water).

Claims (3)

a receiving tank for storing industrial water;
a facility that uses industrial water supplied from the water receiving tank;
A septic tank for treating industrial water used in the facility;
a filtering device for filtering industrial water treated in the septic tank and intermittently supplied,
The filtering device and the water receiving tank are connected so that industrial water filtered by the filtering device is supplied to the water receiving tank,
The filtration device includes a filter tank containing activated carbon,
The filter tank has an inlet for industrial water connected to its upper portion and an outlet for industrial water connected to its lower portion,
The industrial water circulation system , wherein an amount of industrial water flowing out of the outflow port to the filter tank is smaller than an inflow amount of industrial water from the inflow port. 2. The industrial water circulation system according to claim 1, wherein said filtration tank is configured to retain a predetermined amount of industrial water in a state in which supply of industrial water is stopped. 3. The industrial water circulation system according to claim 1, wherein a plurality of water-permeable bags enclosing the activated carbon are removably accommodated in the filter tank.

Images