CN214781286U - Phenol device circulating water system - Google Patents

Abstract

The utility model belongs to the technical field of phenol manufacturing, in particular to a phenol device circulating water system, which comprises a lower water tank, wherein an upper water tank is arranged at the top of the lower water tank, a multi-medium filter is arranged at the top of the upper water tank, an ultrafilter is arranged at one side of the multi-medium filter, and a reverse osmosis device is arranged at the other side of the ultrafilter; waste water is filled up in lower water tank inside, can flow into multi-media filter through second branch takeover and total takeover to waste water through first water pump, inside ultrafilter and reverse osmosis unit, then impurity to in the waste water, the organic matter, calcium magnesium ion, heavy metal and coliform group handle, waste water can flow into the inside of upper water tank from the outlet pipe department at last, after the water quality monitoring ware of upper water tank detects waste water pollution-free thing, flow from the fixed tube, can improve the temperature of the inside waste water of lower water tank through the heating plate, make the calcium magnesium compound in the waste water turn into the sediment, through the variety that can increase the purification like this.

Description

Phenol device circulating water system

Technical Field

The utility model belongs to the technical field of phenol is made, concretely relates to phenol device circulating water system.

Background

Phenol is an organic compound, has a chemical formula of C6H5OH, is a colorless acicular crystal with special odor, is toxic, is an important raw material for producing certain resins, bactericides, preservatives and medicines, can also be used for disinfecting surgical instruments and treating excrement, sterilizing skin, relieving itching and otitis media, and waste water in the original phenol manufacturing process has no treatment equipment, and because the waste water contains more impurities, the pollution can be caused when the waste water is directly discharged, and the effect of zero discharge cannot be achieved.

SUMMERY OF THE UTILITY MODEL

To solve the problems set forth in the background art described above. The utility model provides a phenol device circulating water system has and to carry out the ultrafiltration to waste water, receive and strain and reverse osmosis purification work, makes the unlimited characteristics that are close the zero release of waste water.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides a phenol device circulating water system, includes lower water tank, the upper water tank is installed at the top of lower water tank, many medium filter are installed at the top of upper water tank, the ultrafilter is installed to one side of many medium filter, reverse osmosis unit is installed to the opposite side of ultrafilter, many medium filter with between the ultrafilter with all through duct connections between the reverse osmosis unit, the outlet pipe is installed to the one end of reverse osmosis unit, the other end of outlet pipe with the upper water tank is connected, lower water tank with second takeover and first takeover are installed respectively to the one end of upper water tank, first takeover with the other end of second takeover is installed always to take over, always take over all through the electromagnetism water valve with first takeover with the second takeover is connected, always keep away from the one end of first takeover with many medium filter is connected, the lower water tank with first water pump, two are still installed to the inside of upper water tank first water pump respectively with first takeover with the second takeover is connected, water quality monitoring ware is installed to the inside intermediate position department of upper water tank, the second water pump is installed to the inside other end of upper water tank, the fixed pipe is installed to the output of second water pump, the heating plate is installed to the inside intermediate position department of lower water tank, the heating plate with the lower water tank passes through the locating rack and connects, first water pump the second water pump water quality monitoring ware the heating plate with the electromagnetism water valve all with external power source electric connection.

As the utility model discloses a preferred technical scheme of phenol device circulating water system, the controller is installed to the front surface intermediate position department of upper water tank, the controller respectively with first water pump the second water pump water quality monitoring ware the heating plate with the electromagnetism water valve all connects through the wire.

As the utility model discloses a preferred technical scheme of phenol device circulating water system, the bottom plate is installed to the bottom of lower water tank, the universal wheel is installed to the bottom of bottom plate.

As the utility model discloses a preferred technical scheme of phenol device circulating water system, the internally mounted of conveyer pipe has the booster pump.

As the utility model discloses a preferred technical scheme of phenol device circulating water system, the intubate is installed down to the bottom of second water pump.

As the utility model discloses a preferred technical scheme of phenol device circulating water system, the lower water tank is kept away from the connecting pipe is installed to the one end that the second divides the takeover.

As the utility model discloses a preferred technical scheme of phenol device circulating water system, the quantity of heating plate is two.

Compared with the prior art, the beneficial effects of the utility model are that:

1. the waste water is filled in the lower water tank, the waste water can flow into the multi-media filter, the ultrafilter and the reverse osmosis device through the second branch connecting pipe and the main connecting pipe by the first water pump, then impurities, organic matters, calcium and magnesium ions, heavy metals and coliform groups in the waste water are treated, finally the waste water can flow into the upper water tank from the water outlet pipe, the waste water flows out from the fixed pipe after the water quality monitor of the upper water tank detects that the waste water has no pollutants, the water in the upper water tank flows into the multi-media filter, the ultrafilter and the reverse osmosis device again after the water quality monitor detects that the waste water has still pollutants until the water quality monitor detects that the waste water has no pollutants, and the waste water is purified circularly to enable the waste water to be infinitely close to zero emission;

2. the heating plate is arranged in the lower water tank, the power supply of the heating plate is connected, the temperature of the waste water in the lower water tank can be increased through the heating plate, the calcium-magnesium compound in the waste water is converted into precipitate, and the purification diversity can be increased.

Drawings

The accompanying drawings are included to provide a further understanding of the invention, and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention, and together with the description serve to explain the invention and not to limit the invention. In the drawings:

fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the internal structure of the upper and lower water tanks of FIG. 1 according to the present invention;

FIG. 3 is a schematic structural diagram of an enlarged structure of FIG. 1A according to the present invention;

in the figure: 1. a lower water tank; 2. a connecting pipe; 3. a controller; 4. a fixed tube; 5. a water outlet pipe; 6. a reverse osmosis unit; 7. an ultrafilter; 8. a booster pump; 9. a delivery pipe; 10. a multi-media filter; 11. a main connection pipe; 12. a water feeding tank; 13. a first tap tube; 14. a second connection branch; 15. a base plate; 16. a universal wheel; 17. a first water pump; 18. a water quality monitor; 19. a second water pump; 20. an electromagnetic water valve; 21. a lower cannula; 22. heating the plate; 23. a positioning frame.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Examples

Referring to fig. 1-3, the present invention provides a technical solution: a circulating water system of a phenol device comprises a lower water tank 1, an upper water tank 12 is installed on the top of the lower water tank 1 through a bolt, a multi-medium filter 10 is installed on the top of the upper water tank 12 through a bolt, an ultrafilter 7 is installed on one side of the multi-medium filter 10 through a bolt, a reverse osmosis device 6 is installed on the other side of the ultrafilter 7 through a bolt, the multi-medium filter 10 and the ultrafilter 7 are connected through a conveying pipe 9, the ultrafilter 7 and the reverse osmosis device 6 are connected through conveying pipes 9, a water outlet pipe 5 is installed at one end of the reverse osmosis device 6 through a bolt, the other end of the water outlet pipe 5 is connected with the upper water tank 12 through a bolt, a second branch pipe 14 and a first branch pipe 13 are installed at one end of the lower water tank 1 and one end of the upper water tank 12 through bolts, a main pipe 11 is connected with the other end of the first branch pipe 13 and the second branch pipe 14 through an electromagnetic water valve 20, one end of the main connecting pipe 11, which is far away from the first connecting pipe 13, is connected with the multi-medium filter 10 through a bolt, first water pumps 17 are further mounted inside the lower water tank 1 and the upper water tank 12 through bolts, the two first water pumps 17 are respectively connected with the first connecting pipe 13 and the second connecting pipe 14 through bolts, a water quality monitor 18 is mounted at the middle position inside the upper water tank 12 through bolts, a second water pump 19 is mounted at the other end inside the upper water tank 12 through bolts, a fixing pipe 4 is mounted at the output end of the second water pump 19 through bolts, a heating plate 22 is connected at the middle position inside the lower water tank 1, the heating plate 22 is connected with the lower water tank 1 through a positioning frame 23, and the first water pump 17, the second water pump 19, the water quality monitor 18, the heating plate 22 and the electromagnetic water valve 20 are all electrically connected with an external power supply.

In the embodiment, the models of the first water pump 17 and the second water pump 19 are ISW40-200IA, the model of the water quality monitor 18 is Lansher, the model of the heating plate 22 is ch6, the model of the electromagnetic water valve 20 is ch6, the model of the electromagnetic water valve 20 is 2W200-20, the model of the reverse osmosis device 6 is XHRO-1T, the model of the ultra-filter 7 is 5000D, the model of the multi-media filter 10 is YG-DJZGLQ-1, the model 3P60-60A of the controller is that the heating plate 22 is installed inside the lower water tank 1, the power supply of the heating plate 22 is switched on, the temperature of the wastewater inside the lower water tank 1 can be increased through the heating plate 22, calcium and magnesium compounds in the wastewater are converted into precipitates, and the diversity of purification can be increased through the above.

In this embodiment, in the process of preparing phenol, when wastewater needs to be treated, the wastewater is first filled in the lower water tank 1, then the power supply of the first water pump 17 in the lower water tank 1 is connected, the wastewater can flow into the multi-media filter 10 through the second branch connection pipe 14 and the main connection pipe 11 by the first water pump 17, suspended substances and colloids in the wastewater are removed by the multi-media filter 10, then the wastewater sequentially flows into the ultrafilter 7 and the reverse osmosis device 6, then organic substances, calcium and magnesium ions, heavy metals and coliform groups in the wastewater are treated, finally the wastewater flows into the upper water tank 12 from the water outlet pipe 5, the wastewater flows out from the fixed pipe 4 of the second water pump 19 after the water quality monitor 18 of the upper water tank 12 detects that no pollutants exist in the wastewater, and the electromagnetic water valve 20 of the second branch connection pipe 14 is closed after the water quality monitor 18 detects that pollutants still exist in the wastewater, the electromagnetic water valve 20 of the first tap pipe 13 is opened, so that the water in the upper water tank 12 flows into the multimedia filter 10, the ultrafilter 7 and the reverse osmosis device 6 again until the water quality monitor 18 detects that the wastewater is free of pollutants.

Specifically, the controller 3 is installed at the middle position of the front surface of the upper water tank 12 through a bolt, and the controller 3 is respectively connected with the first water pump 17, the second water pump 19, the water quality monitor 18, the heating plate 22 and the electromagnetic water valve 20 through leads.

In this embodiment, the controller 3 may be operated to operate the first water pump 17, the second water pump 19, the water quality monitor 18, the heating plate 22, and the electromagnetic water valve 20, so as to provide more convenience for the operator.

Specifically, a bottom plate 15 is installed at the bottom of the lower water tank 1 through a bolt, and a universal wheel 16 is screwed at the bottom of the bottom plate 15.

In this embodiment, the bottom plate 15 can be pushed to rotate the universal wheels 16, thereby increasing the convenience of moving the upper tank 12 and the lower tank 1.

Specifically, the booster pump 8 is mounted inside the delivery pipe 9 by bolts.

In this embodiment, a booster pump 8 is installed inside the transport pipe 9 by a bolt, and the flow rate of the wastewater inside the transport pipe 9 can be increased by the booster pump 8.

Specifically, the bottom of the second water pump 19 is mounted with a lower insertion pipe 21 by bolts.

In this embodiment, the lower insertion tube 21 is mounted on the bottom of the second water pump 19 by a bolt, so that the waste water in the upper tank 12 can be completely discharged to the outside by the second water pump 19 through the lower insertion tube 21.

Specifically, a connecting pipe 2 is installed at one end of the lower water tank 1 far away from the second branch pipe 14.

In this embodiment, an external pipe may be connected to the lower tank 1 through the connection pipe 2, so that the wastewater may flow into the lower tank 1.

Specifically, the number of the heating pan 22 is two.

In this embodiment, the number of the heating plates 22 is two, and the heating rate of the waste water in the lower water tank 1 can be increased by two heating plates 22.

The utility model discloses a theory of operation and use flow: after the utility model is installed, in the process of preparing phenol, when waste water is required to be treated, waste water is filled in the lower water tank 1, then the power supply of the first water pump 17 in the lower water tank 1 is connected, the waste water can flow into the multi-medium filter 10 through the second branch connecting pipe 14 and the main connecting pipe 11 by the first water pump 17, suspended matters and colloid in the waste water are removed by the multi-medium filter 10 and then flow into the ultrafilter 7 and the reverse osmosis device 6 in sequence, then organic matters, calcium and magnesium ions, heavy metals and coliform groups in the waste water are treated, finally the waste water flows into the upper water tank 12 from the water outlet pipe 5, after the water quality monitor 18 of the upper water tank 12 detects that the waste water has no pollutant, the waste water flows out from the fixed pipe 4 of the second water pump 19, after the water quality monitor 18 detects that the pollutant still exists in the waste water, the electromagnetic water valve 20 of the second branch 14 is closed, the electromagnetic water valve 20 of the first branch pipe 13 is opened to enable the water in the upper water tank 12 to flow into the multimedia filter 10, the ultrafilter 7 and the reverse osmosis device 6 again until the water quality monitor 18 detects that the wastewater is free of pollutants, then the above actions are recycled to enable the wastewater to continuously flow into the lower water tank 1, the electromagnetic water valve 20 of the first branch pipe 13 is closed, the electromagnetic water valve 20 of the second branch pipe 14 is opened to enable the wastewater to be continuously purified, the wastewater can be circularly purified, the heating plate 22 is installed in the lower water tank 1, the power supply of the heating plate 22 is connected, the temperature of the wastewater in the lower water tank 1 can be increased through the heating plate 22, calcium and magnesium compounds in the wastewater are converted into precipitates, and therefore the purification diversity can be increased.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or equivalents may be substituted for elements thereof. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (7)

1. The utility model provides a phenol device circulating water system, includes lower water tank (1), its characterized in that: an upper water tank (12) is installed at the top of the lower water tank (1), a multi-medium filter (10) is installed at the top of the upper water tank (12), an ultrafilter (7) is installed at one side of the multi-medium filter (10), a reverse osmosis device (6) is installed at the other side of the ultrafilter (7), the multi-medium filter (10) and the ultrafilter (7) are connected with each other through a conveying pipe (9), a water outlet pipe (5) is installed at one end of the reverse osmosis device (6), the other end of the water outlet pipe (5) is connected with the upper water tank (12), a second branch connecting pipe (14) and a first branch connecting pipe (13) are installed at one end of the lower water tank (1) and one end of the upper water tank (12) respectively, a total connecting pipe (11) is installed at the other end of the second branch connecting pipe (14), the total takeover (11) all through electromagnetic water valve (20) with first takeover (13) with second takeover (14) is connected, total takeover (11) is kept away from the one end of first takeover (13) with many medium filter (10) are connected, lower water tank (1) with first water pump (17) are still installed to the inside of upper water tank (12), two first water pump (17) respectively with first takeover (13) with second takeover (14) is connected, water quality monitor (18) are installed to the inside intermediate position department of upper water tank (12), second water pump (19) are installed to the inside other end of upper water tank (12), fixed pipe (4) are installed to the output of second water pump (19), heating plate (22) are installed to the inside intermediate position department of lower water tank (1), heating plate (22) with lower water tank (1) passes through locating rack (23) and connects, the first water pump (17), the second water pump (19), the water quality monitor (18), the heating plate (22) and the electromagnetic water valve (20) are all electrically connected with an external power supply.

2. The phenol plant circulating water system of claim 1, wherein: the water quality monitoring device is characterized in that a controller (3) is installed in the middle of the front surface of the upper water tank (12), and the controller (3) is connected with the first water pump (17), the second water pump (19), the water quality monitor (18), the heating plate (22) and the electromagnetic water valve (20) through leads.

3. The phenol plant circulating water system of claim 1, wherein: bottom plate (15) are installed to the bottom of lower water tank (1), universal wheel (16) are installed to the bottom of bottom plate (15).

4. The phenol plant circulating water system of claim 1, wherein: and a booster pump (8) is arranged in the conveying pipe (9).

5. The phenol plant circulating water system of claim 1, wherein: the bottom of the second water pump (19) is provided with a lower insertion pipe (21).

6. The phenol plant circulating water system of claim 1, wherein: and a connecting pipe (2) is arranged at one end of the lower water tank (1) far away from the second branch pipe (14).

7. The phenol plant circulating water system of claim 1, wherein: the number of the heating plates (22) is two.

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