CN214528526U

CN214528526U - Integrated sewage treatment system

Info

Publication number: CN214528526U
Application number: CN202120641099.9U
Authority: CN
Inventors: 忻鸿儿
Original assignee: Ningbo Hongshun Metal Products Co ltd
Current assignee: Ningbo Hongshun Metal Products Co ltd
Priority date: 2021-03-30
Filing date: 2021-03-30
Publication date: 2021-10-29
Anticipated expiration: 2031-03-30

Abstract

The utility model relates to an integrated sewage treatment system, which comprises a cabinet body, a control box embedded at the right upper corner of the front side of the cabinet body and a main body arranged in the cabinet body, wherein the main body comprises a water tank fixed at the top of the cabinet body, a pump body and a pipeline type ultraviolet sterilizer which are fixed at the bottom of the cabinet body and connected with the control box, a first water inlet pipe connected between the bottom of the water tank and a water inlet of the pump body, a first flowmeter and a second flowmeter which are embedded above the front side of the cabinet body, a first water outlet pipe connected between a water outlet of the pump body and a water inlet of the first flowmeter, a filter which is connected in series on the first water outlet pipe and a second water outlet pipe connected between a water inlet of the pipeline type ultraviolet sterilizer and a water outlet of the second flowmeter; the utility model discloses an integral type structure is in order with each purifier with sewage treatment system in order, orderly concentration together in order to save more space, and operating personnel need not frequent walking when carrying out routine maintenance, and then has reached labour saving and time saving's effect.

Description

Integrated sewage treatment system

Technical Field

The utility model relates to an integrated sewage treatment system.

Background

The sewage treatment system is a general name of an integral formed by combining various water purifying devices which jointly complete sewage treatment in a certain sequence according to functions of the water purifying devices, and a water purifying flow of the sewage treatment system comprises a plurality of steps, mainly comprises primary filtration, membrane filtration, sterilization and the like; at present, all the Chinese standard motor train unit trains are equipped with sewage treatment systems.

The existing sewage treatment systems for the Chinese standard motor train unit train mostly adopt a split structure, and each water purifying device is messy and loose in distribution, occupies more space, causes operators to frequently walk when performing daily maintenance, wastes time and labor, and is to be further improved.

SUMMERY OF THE UTILITY MODEL

To the current situation of the above prior art, the utility model aims to solve the technical problem that an integrated sewage treatment system is provided, which saves more space and saves time and labor for daily maintenance.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: an integrated sewage treatment system is characterized by comprising a cabinet body, a control box embedded at the right upper corner of the front side of the cabinet body and a main body arranged in the cabinet body, wherein the main body comprises a water tank fixed at the top of the cabinet body, a pump body and a pipeline type ultraviolet sterilizer which are fixed at the bottom of the cabinet body and connected with the control box, a first water inlet pipe connected between the bottom of the water tank and a water inlet of the pump body, a first flowmeter and a second flowmeter which are embedded above the front side of the cabinet body, a first water outlet pipe connected between a water outlet of the pump body and a water inlet of the first flowmeter, a filter connected in series on the first water outlet pipe and a second water outlet pipe connected between a water inlet of the pipeline type ultraviolet sterilizer and a water outlet of the second flowmeter, a water outlet of the pipeline type ultraviolet sterilizer penetrates through the cabinet body rightwards and extends out of the right side of the cabinet body, and the integrated sewage treatment system also comprises a membrane filtering component fixed in the left side of the cabinet body, the membrane filtering component comprises a second water inlet pipe, a first shunt pipe, an ultrafiltration membrane, a third water outlet pipe, a second shunt pipe, a third water inlet pipe and a fourth water outlet pipe; the second shunt pipe and the first shunt pipe are transversely arranged and vertically distributed, the ultrafiltration membranes comprise a plurality of ultrafiltration membranes, the ultrafiltration membranes are vertically arranged between the second shunt pipe and the first shunt pipe, a lower water inlet of each ultrafiltration membrane is connected to the first shunt pipe in parallel, an upper water outlet of each ultrafiltration membrane is connected to the second shunt pipe in parallel, one end of the second water inlet pipe is connected to one end of the first shunt pipe, one end of the third water inlet pipe is connected to the other end of the second water inlet pipe, the other end of the third water inlet pipe is connected to a water outlet of the first flowmeter, one end of the third water outlet pipe is connected to one end of the second shunt pipe, one end of the fourth water outlet pipe is connected to the other end of the third water outlet pipe, and the other end of the fourth water outlet pipe is connected to a water inlet of the second flowmeter; the other ends of the first shunt pipe and the second shunt pipe are sealed; and the second water inlet pipe and the third water outlet pipe are respectively provided with a first sampling assembly and a second sampling assembly.

Preferably, the first sampling assembly comprises a first big tee joint, a first sampling pipe, a first small tee joint, a second sampling pipe, a first sampling valve and a first pressure gauge; two of the interfaces of the first big tee are connected in series with the second water inlet pipe, and two ends of the first sampling pipe are respectively connected with the rest interface of the first big tee and one of the interfaces of the first small tee; the first sampling valve and the first pressure gauge are embedded above the front side of the cabinet body, one end of the second sampling pipe and the first pressure gauge are fixed on the two remaining connectors of the first small tee respectively, and the water inlet of the first sampling valve is connected with the other end of the second sampling pipe.

Preferably, the second sampling assembly is provided with a second big tee joint, a third sampling pipe, a second small tee joint, a second sampling valve and a second pressure gauge, the second sampling valve and the second pressure gauge are embedded above the front side of the cabinet body, two of the interfaces of the second big tee joint are connected in series with a third water outlet pipe, one of the interfaces of the second small tee joint is connected with the rest one interface of the second big tee joint, one end of the third sampling pipe and the second pressure gauge are respectively fixed on the rest two interfaces of the second small tee joint, and a water inlet of the second sampling valve is connected with the other end of the third sampling pipe.

Preferably, the inside of the water tank is also provided with a vertically distributed liquid level meter, and the lower end of the liquid level meter is hermetically inserted and fixed at the bottom of the water tank; two probes are formed outwards on the outer wall of the liquid level meter and are connected with the control box.

Preferably, the front bottom of the cabinet body is further provided with two bilateral symmetry and openable first cabinet doors, the left side of the cabinet body is further provided with openable second cabinet doors, and the rear bottom of the cabinet body is further provided with two bilateral symmetry and openable third cabinet doors.

Preferably, the cabinet body is characterized in that two U-shaped frames which are distributed up and down are further fixed on the inner wall of the left side of the cabinet body, and each ultrafiltration membrane is arranged inside the two U-shaped frames.

Preferably, each ultrafiltration membrane is further sleeved with two hoops, two ends of one hoop above the ultrafiltration membrane are detachably fixed on one U-shaped frame above the ultrafiltration membrane, and two ends of one hoop below the ultrafiltration membrane are detachably fixed on one U-shaped frame below the ultrafiltration membrane.

Compared with the prior art, the utility model has the advantages of: the utility model discloses an integral type structure is in order with each purifier with sewage treatment system in order, orderly concentration together in order to save more space, and operating personnel need not frequent walking when carrying out routine maintenance, and then has reached labour saving and time saving's effect.

Drawings

FIG. 1 is a left front side structural view of the present invention;

FIG. 2 is a left front side structural view of the main body of the present invention;

FIG. 3 is a right front side structural view of the main body of the present invention;

fig. 4 is a right rear side structural view of the present invention.

Detailed Description

Unless defined otherwise, technical or scientific terms used herein shall have the ordinary meaning as understood by those of ordinary skill in the art to which the invention belongs. The use of "first," "second," and similar terms in the description herein do not denote any order, quantity, or importance, but rather the terms are used to distinguish one element from another. The word "comprising" or "comprises", and the like, means that the element or item listed before the word covers the element or item listed after the word and its equivalents, but does not exclude other elements or items. The terms "connected" or "coupled" and the like are not restricted to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "upper", "lower", "left", "right", and the like are used merely to indicate relative positional relationships, and when the absolute position of the object being described is changed, the relative positional relationships may also be changed accordingly.

To maintain the following description of the embodiments of the present invention clear and concise, detailed descriptions of well-known functions and components may be omitted.

As shown in fig. 1 to 4, an integrated sewage treatment system comprises a cabinet body 1, a control box 3 embedded at the right upper corner of the front side of the cabinet body 1, and a main body 2 arranged in the cabinet body 1, wherein the main body 2 comprises a water tank 21 fixed at the top of the cabinet body 1, a pump body 22 and a pipeline type ultraviolet sterilizer 217 fixed at the bottom of the cabinet body 1 and connected with the control box 3, a first water inlet pipe 24 connected between the bottom of the water tank 21 and a water inlet of the pump body 22, a first flow meter 27 and a second flow meter 214 embedded above the front side of the cabinet body 1, a first water outlet pipe 23 connected between a water outlet of the pump body 22 and a water inlet of the first flow meter 27, a filter 25 connected in series on the first water outlet pipe 23, and a second water outlet pipe 215 connected between a water inlet of the pipeline type ultraviolet sterilizer 217 and a water outlet of the second flow meter 214, a water outlet of the pipeline type ultraviolet sterilizer 217 passes through the cabinet body 1 rightwards and extends out of the right side of the cabinet body 1, the water tank also comprises a membrane filtering component fixed inside the left side of the tank body 1, wherein the membrane filtering component comprises a second water inlet pipe 29, a first shunt pipe 210, an ultrafiltration membrane 211, a third water outlet pipe 213, a second shunt pipe 212, a third water inlet pipe 28 and a fourth water outlet pipe 216; the second shunt tubes 212 and the first shunt tubes 210 are transversely arranged and vertically distributed, the ultrafiltration membranes 211 comprise a plurality of ultrafiltration membranes 211, the ultrafiltration membranes 211 are vertically arranged between the second shunt tubes 212 and the first shunt tubes 210, a lower water inlet of each ultrafiltration membrane 211 is connected to the first shunt tubes 210 in parallel, an upper water outlet of each ultrafiltration membrane 211 is connected to the second shunt tubes 212 in parallel, one end of the second water inlet pipe 29 is connected to one end of the first shunt tubes 210, one end of the third water inlet pipe 28 is connected to the other end of the second water inlet pipe 29, the other end of the third water inlet pipe 28 is connected to a water outlet of the first flowmeter 27, one end of the third water outlet pipe 213 is connected to one end of the second shunt tubes 212, one end of the fourth water outlet pipe 216 is connected to the other end of the third water outlet pipe 213, and the other end of the fourth water outlet pipe 216 is connected to a water inlet of the second flowmeter 214; the other ends of the first shunt pipe 210 and the second shunt pipe 212 are both closed; the second water inlet pipe 29 and the third water outlet pipe 213 are further provided with a first sampling assembly and a second sampling assembly, respectively.

The first sampling assembly comprises a first big tee 221, a first sampling pipe 222, a first small tee 223, a second sampling pipe 224, a first sampling valve 225 and a first pressure gauge 226; two of the connectors of the first big tee 221 are connected in series to the second water inlet pipe 29, and two ends of the first sampling pipe 222 are respectively connected with the remaining connector of the first big tee 221 and one of the connectors of the first small tee 223; the first sampling valve 225 and the first pressure gauge 226 are embedded above the front side of the cabinet body 1, one end of the second sampling pipe 224 and the first pressure gauge 226 are respectively fixed on the remaining two connectors of the first small tee 223, and the water inlet of the first sampling valve 225 is connected with the other end of the second sampling pipe 224.

The second sampling assembly comprises a second big tee 227, a third sampling pipe 228, a second small tee 219, a second sampling valve 220 and a second pressure gauge 26, the second sampling valve 220 and the second pressure gauge 26 are all embedded above the front side of the cabinet body 1, two connectors of the second big tee 227 are all connected in series with a third water outlet pipe 213, one connector of the second small tee 219 is connected with the rest connector of the second big tee 227, one end of the third sampling pipe 228 and the second pressure gauge 26 are respectively fixed on the rest connectors of the second small tee 219, and a water inlet of the second sampling valve 220 is connected with the other end of the third sampling pipe 228.

The inside of the water tank 21 is also provided with a liquid level meter 218 which is vertically distributed, and the lower end of the liquid level meter 218 is hermetically inserted and fixed at the bottom of the water tank 21; two probes 2181 are formed outwards on the outer wall of the liquid level meter 218, and the two probes 2181 are both connected with the control box 3.

The bottom of the front side of the cabinet body 1 is further provided with two first cabinet doors 12 which are bilaterally symmetrical and can be opened, so that the pump body 22 can be maintained.

The left side of the cabinet body 1 is further provided with an openable second cabinet door 11 so as to facilitate maintenance of the plurality of ultrafiltration membranes 211.

The bottom of the rear side of the cabinet body 1 is further provided with two third cabinet doors 13 which are bilaterally symmetrical and can be opened, so that the pipeline type ultraviolet sterilizer 217 can be maintained.

Still be fixed with two U type framves 14 that distribute from top to bottom on the left side inner wall of the cabinet body 1, every milipore filter 211 all locates the inside of two U type framves 14, still all overlaps on every milipore filter 211 to be equipped with two clamps 15, and the both ends of a clamp 15 of top are all detachable to be fixed on a U type frame 14 of top, and the U type frame 14 of below is fixed at the equal detachable in both ends of a clamp 15 of below.

When the device is used, sewage is led into the water tank 21, the water level of the sewage is grasped by the aid of the probe 2181 positioned above the liquid level meter 218, when the water level of the sewage reaches a certain height, the control box 3 is operated to start the pump body 22 to work, the sewage in the water tank 21 enters the filter 25 through the first water inlet pipe 24 and the first water outlet pipe 23 to preliminarily filter floating impurities in the sewage, the preliminarily filtered sewage continuously flows through the first flow meter 27 under the action of the pump body 22 and enters the second water inlet pipe 29 through the third water inlet pipe 28, then flows through the plurality of ultrafiltration membranes 211 through the first shunt pipe 210 to carry out membrane filtration, the water after membrane filtration all flows into the third water outlet pipe 213 through the second shunt pipe 212, then flows through the second flow meter 214 through the fourth water outlet pipe 216 and enters the pipeline type ultraviolet sterilizer 217 through the second water outlet pipe 215 to carry out ultraviolet sterilization, the sterilized clean water is discharged outwards through the water outlet of the pipeline type ultraviolet sterilizer 217, and the first flow meter 27 and the second flow meter 214 are used for monitoring the flow value of the water flow.

If the sewage before membrane filtration needs to be sampled, the first sampling valve 225 can be opened to enable the sewage in the second water inlet pipe 29 to enter the second sampling pipe 224 through the first large tee 221, the first sampling pipe 222 and the first small tee 223, and finally to be discharged from the water outlet of the first sampling valve 225, and the first pressure gauge 226 is used for monitoring the pressure value during sampling.

If the clear water after membrane filtration needs to be sampled, the second sampling valve 220 may be opened to allow the clear water in the third water outlet pipe 213 to enter the third sampling pipe 228 through the second large tee 227 and the second small tee 219, and finally to be discharged from the water outlet of the second sampling valve 220, and the second pressure gauge 26 is used to monitor the pressure value during sampling.

The utility model discloses an integral type structure is in order with each purifier with sewage treatment system in order, orderly concentration together in order to save more space, and operating personnel need not frequent walking when carrying out routine maintenance, and then has reached labour saving and time saving's effect.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims

1. An integrated sewage treatment system is characterized by comprising a cabinet body, a control box embedded at the right upper corner of the front side of the cabinet body and a main body arranged in the cabinet body, wherein the main body comprises a water tank fixed at the top of the cabinet body, a pump body and a pipeline type ultraviolet sterilizer which are fixed at the bottom of the cabinet body and connected with the control box, a first water inlet pipe connected between the bottom of the water tank and a water inlet of the pump body, a first flowmeter and a second flowmeter which are embedded above the front side of the cabinet body, a first water outlet pipe connected between a water outlet of the pump body and a water inlet of the first flowmeter, a filter connected in series on the first water outlet pipe and a second water outlet pipe connected between a water inlet of the pipeline type ultraviolet sterilizer and a water outlet of the second flowmeter, a water outlet of the pipeline type ultraviolet sterilizer penetrates through the cabinet body rightwards and extends out of the right side of the cabinet body, and the integrated sewage treatment system also comprises a membrane filtering component fixed in the left side of the cabinet body, the membrane filtering component comprises a second water inlet pipe, a first shunt pipe, an ultrafiltration membrane, a third water outlet pipe, a second shunt pipe, a third water inlet pipe and a fourth water outlet pipe; the second shunt pipe and the first shunt pipe are transversely arranged and vertically distributed, the ultrafiltration membranes comprise a plurality of ultrafiltration membranes, the ultrafiltration membranes are vertically arranged between the second shunt pipe and the first shunt pipe, a lower water inlet of each ultrafiltration membrane is connected to the first shunt pipe in parallel, an upper water outlet of each ultrafiltration membrane is connected to the second shunt pipe in parallel, one end of the second water inlet pipe is connected to one end of the first shunt pipe, one end of the third water inlet pipe is connected to the other end of the second water inlet pipe, the other end of the third water inlet pipe is connected to a water outlet of the first flowmeter, one end of the third water outlet pipe is connected to one end of the second shunt pipe, one end of the fourth water outlet pipe is connected to the other end of the third water outlet pipe, and the other end of the fourth water outlet pipe is connected to a water inlet of the second flowmeter; the other ends of the first shunt pipe and the second shunt pipe are sealed; and the second water inlet pipe and the third water outlet pipe are respectively provided with a first sampling assembly and a second sampling assembly.

2. The integrated sewage treatment system of claim 1 wherein the first sampling assembly comprises a first large tee, a first sampling pipe, a first small tee, a second sampling pipe, a first sampling valve and a first pressure gauge; two of the interfaces of the first big tee are connected in series with the second water inlet pipe, and two ends of the first sampling pipe are respectively connected with the rest interface of the first big tee and one of the interfaces of the first small tee; the first sampling valve and the first pressure gauge are embedded above the front side of the cabinet body, one end of the second sampling pipe and the first pressure gauge are fixed on the two remaining connectors of the first small tee respectively, and the water inlet of the first sampling valve is connected with the other end of the second sampling pipe.

3. The integrated sewage treatment system according to claim 1, wherein the second sampling assembly comprises a second large tee, a third sampling pipe, a second small tee, a second sampling valve and a second pressure gauge, the second sampling valve and the second pressure gauge are embedded above the front side of the cabinet body, two of the connectors of the second large tee are connected in series with the third water outlet pipe, one of the connectors of the second small tee is connected with the rest connector of the second large tee, one end of the third sampling pipe and the second pressure gauge are respectively fixed on the rest connectors of the second small tee, and a water inlet of the second sampling valve is connected with the other end of the third sampling pipe.

4. The integrated sewage treatment system of claim 1, wherein the inside of the water tank is further provided with a vertically distributed liquid level meter, and the lower end of the liquid level meter is hermetically inserted and fixed at the bottom of the water tank; two probes are formed outwards on the outer wall of the liquid level meter and are connected with the control box.

5. The integrated sewage treatment system according to claim 1, wherein two first doors that are bilaterally symmetrical and can be opened are further provided at the bottom of the front side of the cabinet body, a second door that can be opened is further provided at the left side of the cabinet body, and two third doors that are bilaterally symmetrical and can be opened are further provided at the bottom of the rear side of the cabinet body.

6. The integrated sewage treatment system of claim 1, wherein two U-shaped frames are fixed on the left inner wall of the cabinet body and distributed up and down, and each ultrafiltration membrane is arranged inside the two U-shaped frames.

7. The integrated sewage treatment system of claim 6 wherein each of said ultrafiltration membranes is further sleeved with two clamps, wherein each of said upper clamps is detachably fixed at both ends thereof to an upper U-shaped frame, and each of said lower clamps is detachably fixed at both ends thereof to a lower U-shaped frame.