CN210522004U - Sewage recycling system used in building mold cleaning - Google Patents

Abstract

The utility model relates to a building mould's washing sewage recovery recycles, concretely relates to used sewage cyclic utilization system in building mould washs. Its scheme is, including wasing the sewage pipeline, one-level water tank and second grade water tank, wash the sewage pipeline and be located under one-level water tank and the second grade water tank, wash the sewage pipeline and advance water piping connection one-level water tank's lower part through one-level water tank, the bottom of one-level water tank is conical, the connector of one-level water tank inlet tube and one-level water tank is located conical horizontal position more than, the upper portion of one-level water tank has the lower part of intercommunication tube coupling second grade water tank, the bottom of second grade water tank also is conical, the middle part or the upper portion of second grade water tank are connected with the third outlet pipe, one-level water tank bottom links to each other with wasing the sewage. The utility model is suitable for a sewage recovery in the building mould washs recycles, the succinct adaptation of structure, the energy saving.

Description

Sewage recycling system used in building mold cleaning

Technical Field

The utility model relates to a abluent sewage treatment of building mould, concretely relates to used sewage cycle utilizes system in building mould washs.

Background

Prefabricated buildings are a rapidly growing building technology in recent years, i.e. buildings are manufactured in batches like machine production, and are assembled by transporting prefabricated building components to the construction site. The assembly type building has high construction speed and low production cost, and is rapidly popularized and developed all over the world.

The technology of the prefabricated building can be used for well producing and maintaining house components such as external wall panels, internal wall panels, balconies, stairs, prefabricated beams, prefabricated columns and the like in a factory and then transporting the house components to a construction site to be assembled into the building. However, in the manufacturing process of prefabricated parts of assembly type building enterprises, a large number of moulds are needed, China is a big building country, the number of moulds is huge every year, most of moulds can be reused after being cleaned, and huge resource waste can be caused if the moulds are not reused.

At present, can produce a large amount of waste water in assembled building prefabricated component's mould washs, but basically this kind of waste water does not reuse well, has caused huge wasting of resources, because in building prefabricated component's mould washs, how to handle waste water effectively, with water resource cyclic utilization, resources are saved is the problem that needs solve now urgently.

SUMMERY OF THE UTILITY MODEL

For overcoming the abluent defect that does not have fine processing of prior art assembly type structure prefabricated component mould, the utility model provides an used sewage cyclic utilization system in the building mould washs handles to the cyclic utilization of assembly type structure prefabricated component mould cleaning wastewater specially, the utility model discloses can the effective cyclic utilization water resource, the practicality is strong.

The utility model provides a solution scheme is, a used sewage cyclic utilization system in building mould washs, including wasing the sewage pipeline, one-level water tank and second grade water tank, wherein, wash the sewage pipeline and be located under one-level water tank and the second grade water tank, wash the sewage pipeline and advance the lower part of water piping connection one-level water tank through one-level water tank, the bottom of one-level water tank is conical, the connector of one-level water tank inlet tube and one-level water tank is located conical horizontal position more than, there is the lower part of intercommunication tube coupling second grade water tank on the upper portion of one-level water tank, the bottom of second grade water tank is also conical, the middle part or the upper portion of second grade water tank are connected with the third outlet pipe, one-level water tank bottom links to each other with wasing. The sewage produced in the cleaning of the building mold enters the cleaning sewage pipeline after being collected, then one part of the sewage continues to flow in the cleaning sewage pipeline, one part of the sewage enters the primary water tank from the lower part of the primary water tank and is subjected to preliminary slag-water precipitation separation, the lower part of the primary water tank is set into a conical shape, so that the residue is convenient to gather to an outlet part along the tank wall, then the residue is discharged into the cleaning sewage pipeline, the water of the primary water tank flows out from the upper part and enters the secondary water tank from the lower part of the secondary water tank, the bottom of the secondary water tank is also set into a conical shape, the residue after being precipitated by the secondary water tank is collected and gathered to the residue outlet part of the secondary water tank and then enters the cleaning sewage pipeline, the water after being precipitated by the primary water tank and the secondary water tank flows out from a water outlet on the upper part of the secondary water tank and is supplied, and further precipitating, collecting residues, and supplying precipitated water to the die cleaning water, so that the water is fully recycled, and resources are saved.

The utility model discloses a another solution is, on the basis of above-mentioned scheme, still be provided with first filter screen in the one-level water tank inlet tube. First filter screen will wash sewage and carry out coarse filtration, isolate some granules or concrete piece that are big a bit, avoid large granule or concrete piece to block the export of one-level water tank, improve the filter effect.

The utility model discloses a further solution is, on the basis of above-mentioned scheme, the intercommunication pipeline is the zigzag. The upper end of the Z-shaped communication pipeline is connected with the first-stage water tank, and the lower end of the Z-shaped communication pipeline is connected with the second-stage water tank, so that the first-stage water tank and the second-stage water tank can be placed horizontally relative to each other, a large fall does not need to be arranged between the first-stage water tank and the second-stage water tank like straight pipe communication, the space is saved, and the filtering effect is not influenced.

The utility model discloses a another solution is, on the basis of above-mentioned scheme, still be provided with the second filter screen in the second grade water tank, the second filter screen is located more than the intercommunication pipeline entry horizontal position of second grade water tank. Because the water inlet of second grade water tank is in the lower part, sets up the filter screen above water inlet horizontal position, and rivers get into the second grade water tank after, the second filter screen lid is in the top of entry, not only can block granule and the concrete piece that need deposit, still can block the pollutant that floats that density is little, has reduced the route of pollutant, avoids the pollutant that density is little directly to float to the surface of water, and whole rivers process all has the condition of pollutant.

The utility model discloses a further solution is, on the basis of above-mentioned scheme, the third outlet pipe is located the horizontal position of second filter screen more than. Namely, the water flows out of the third water outlet pipe after passing through the second filter screen, and is recycled.

The utility model discloses a further solution is, on the basis of above-mentioned scheme, third outlet pipe still is provided with the third filter screen with second grade water tank junction. The third screen further filters the water stream to filter out floating contaminants and smaller particles.

The utility model discloses a further solution is, on the basis of above-mentioned scheme, the third outlet pipe links to each other with the wiper mechanism who washs the mould. Therefore, the filtered water is directly recycled, the procedures are reduced, and the energy is saved.

The utility model discloses a further solution is, on the basis of above-mentioned scheme, the exit of wasing the sewage pipeline is provided with the sewage pump, and the sewage pump is delivered to sediment in the dregs sedimentation tank with water. After the dregs sedimentation tank sedimentates sewage, the dregs are collected and treated, and simultaneously, the sedimentated water can be sent into a cleaning mechanism for recycling.

The utility model discloses a another solution is, on the basis of above-mentioned scheme, still be provided with liquid level indicator in the one-level water tank. The liquid level indicator is convenient for operators to monitor the water level in real time and adjust the opening degree of the valve as required.

The utility model discloses a further solution is, on the basis of above-mentioned scheme, still be provided with the check valve on the third outlet pipe. The check valve prevents that rivers from flowing backward, influences the sediment and the filtration in the second water tank, prevents simultaneously that the backward flow from causing the accident.

Drawings

Fig. 1 is a schematic structural view of a sewage recycling system used in building mold cleaning.

Detailed Description

In the following, preferred embodiments of the present invention will be described in more detail with reference to the accompanying drawings to assist the understanding of the present invention, but the scope of the present invention is not limited to these examples.

Example 1

Fig. 1 is a schematic structural view of a sewage recycling system used in building mold cleaning. As shown in fig. 1, the sewage recycling system for use in the building mold cleaning of the present embodiment comprises a cleaning sewage pipeline 3, a primary water tank 1 and a secondary water tank 2, wherein the cleaning sewage pipeline is located below the horizontal positions of the primary water tank and the secondary water tank, the cleaning sewage pipeline is connected with the lower part of the primary water tank through a primary water tank inlet pipe 11, as shown in fig. 1, the bottom of the primary water tank is conical, a connection port of the primary water tank inlet pipe and the primary water tank is located above the conical horizontal position, a communication pipeline 5 is arranged on the upper part of the primary water tank and connected with the lower part of the secondary water tank, the communication pipeline 5 is zigzag, the bottom of the secondary water tank is also conical, the middle part of the secondary water tank is connected with a third outlet pipe 24, the third outlet pipe can also be located above the secondary water tank, the bottom, the bottom of the secondary water tank is connected with the cleaning sewage pipeline through a second water outlet pipe 26.

As shown in fig. 1, it can be further modified based on the above embodiment, and a first filter screen 12 is further disposed in the inlet pipe of the primary water tank.

As shown in fig. 1, it can be further improved on the basis of the above embodiment, and a second filter screen 22 is further disposed in the secondary water tank, and the second filter screen is located above the horizontal position of the inlet of the communication pipeline of the secondary water tank.

As shown in fig. 1, the third water outlet pipe can be further improved based on the above embodiment, and is located above the horizontal position of the second filter screen.

As shown in fig. 1, an improvement can be made on the basis of the above embodiment, and a third filter screen 23 is further disposed at a connection position of the third water outlet pipe and the secondary water tank.

As shown in fig. 1, it can be modified on the basis of the above embodiment, and a sewage pump 6 is arranged before the outlet 32 of the cleaning sewage pipeline, and the sewage pump sends water to the residue soil sedimentation tank for sedimentation.

As shown in fig. 1, a modification can be made on the basis of the above embodiment, and a liquid level indicator 14 is further provided in the primary water tank.

As shown in fig. 1, a modification can be made on the basis of the above embodiment, and a check valve is further disposed on the third water outlet pipe 24.

The sewage recycling system used in the cleaning of the building mould of the utility model can also be fixed on the movable bracket 5, the device of the system is moved to the place to be used at any time according to the requirement, when the utility model works, the sewage flowing out from the working time of the mould cleaning mechanism enters the sewage recycling system used in the cleaning of the building mould of the utility model from the inlet 31 of the cleaning sewage pipeline 3 after being collected, one part enters the first-level water tank through the first-level water tank inlet pipe 11, the first filter screen 12 filters the sewage for the first time, the first valve 13 controls the water quantity entering the first-level water tank, then the residue precipitated in the primary water tank is discharged into the cleaning sewage pipeline 3 through the first water outlet pipe 16 after the precipitation in the primary water tank, a second valve 17 arranged at the bottom of the primary water tank controls the amplitude and frequency of the residue entering the cleaning sewage pipeline; the liquid level indicating ball 14 arranged in the first-stage water tank can help to monitor the height of the water surface in the first-stage water tank, the first exhaust valve 15 can be arranged on the top of the first-stage water tank to prevent the air pressure in the first-stage water tank from being too large and keep the internal and external air pressures basically balanced, sewage enters the first-stage water tank to be primarily precipitated and then flows into the second-stage water tank through the Z-shaped communication pipeline 5, the bottom of the second-stage water tank is also conical, when the water flow moves upwards, the water flow is blocked by the second filter screen 22, particles, floating objects, concrete blocks and the like are isolated below the second-stage water tank and then is discharged into the cleaning sewage pipeline 3 through the second exhaust pipe 26, the third valve 27 controls the discharge of residues in the second-stage water tank, the second exhaust valve 28 can be arranged on the top of the second-stage water tank to keep the air pressure, a third filter screen 23 is further arranged at the joint of the third water outlet pipe and the second-stage water tank for further filtering the outlet water, the third water outlet pipe is connected with a cleaning mechanism of the cleaning mould, the treated water is sent into the cleaning mechanism to be directly used or mixed with clean water in proportion for use, the check valve 29 prevents water from flowing backwards, residue and waste water of a cleaning sewage pipeline at the lower part of the system are discharged through the sewage pump 6, an outlet 32 of the cleaning sewage pipeline can be further connected to a sedimentation tank, and the sedimentation tank carries out sedimentation separation on the residue and the sewage.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (10)

1. The utility model provides a used sewage cyclic utilization system in building mold washs, including wasing the sewage pipeline, one-level water tank and second grade water tank, characterized by, it is located under one-level water tank and the second grade water tank to wash the sewage pipeline, wash the sewage pipeline and advance the lower part of water piping connection one-level water tank through one-level water tank, the bottom of one-level water tank is conical, the connector of one-level water tank inlet tube and one-level water tank is located conical horizontal position more than, there is the lower part of intercommunication tube coupling second grade water tank on the upper portion of one-level water tank, the bottom of second grade water tank is also conical, middle part or upper portion of second grade water tank are connected with the third outlet pipe, one-level water tank bottom links to each other.

2. The system of claim 1, wherein the first screen is disposed in the inlet of the first tank.

3. The system for recycling sewage water used in cleaning of construction molds according to claim 1, wherein said communication pipe is zigzag-shaped.

4. The system for recycling sewage generated during the cleaning of construction molds as set forth in claim 1, wherein a second strainer is further provided in the secondary water tank, the second strainer being positioned above the level of the inlet of the communicating pipe of the secondary water tank.

5. A system for recycling sewage water used in cleaning of construction molds according to claim 1, wherein the third outlet pipe is located above the horizontal position of the second filter screen.

6. The system of claim 1, wherein a third screen is further disposed at a connection between the third outlet pipe and the second water tank.

7. The system for recycling sewage water used in washing the construction molds according to claim 1, wherein the third water outlet pipe is connected to a washing mechanism for washing the molds.

8. The system for recycling sewage water used in cleaning building molds according to claim 1, wherein a sewage pump is provided at an outlet of the cleaning sewage pipeline, and the sewage pump sends water to the muck sedimentation tank for sedimentation.

9. The system for recycling sewage water used in cleaning building molds according to claim 1, wherein a liquid level indicator is further provided in the primary water tank.

10. The system for recycling sewage from washing building molds of claim 1, wherein the third outlet pipe is further provided with a check valve.

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