CN210786335U

CN210786335U - Self-deslagging oil-water separator

Info

Publication number: CN210786335U
Application number: CN201921002561.XU
Authority: CN
Inventors: 陈太宏
Original assignee: Taizhou Hongbo Energy Saving Environmental Protection Technology Co ltd
Current assignee: Taizhou Hongbo Energy Saving Environmental Protection Technology Co ltd
Priority date: 2019-07-01
Filing date: 2019-07-01
Publication date: 2020-06-19
Anticipated expiration: 2029-07-01

Abstract

The utility model discloses a from row sediment water oil separating machine, including the strainer that connects gradually, automatic row's sediment ware, the separation jar, vacuum cylinder and condenser, the sewage pump in the oil inlet of strainer and the effluent water sump links to each other, be provided with the oil feed ball valve between sewage pump and the strainer, the inside isolation filter core that all installs of separation jar and vacuum cylinder, the separation jar is including continuous separation jar I and separation jar II, all be provided with coalescence filter core and water oil separating filter core in separation jar I and the separation jar II, separation jar II is connected with drain pump and secondary filter with the vacuum cylinder bottom, the vacuum cylinder passes through out oil pipe and connects the oil storage tank, inside spray tube and the liquid level controller of being provided with of vacuum cylinder, the condenser is connected with vacuum pump and storage water tank. The utility model has the advantages that: full automatic control, it is efficient, get rid of the pollutant through full self-cleaning filter earlier, then thoroughly separate oil and water effectively, the separation effect is good, and the water after the separation is limpid transparent, and the oil after the separation can be collected.

Description

Self-deslagging oil-water separator

Technical Field

The utility model relates to a separating centrifuge especially relates to a from sediment water oil separating centrifuge.

Background

The oil-water separator is an instrument for separating oil from water, and has the principle of mainly utilizing gravity settling principle to remove impurities and water according to the density difference of water and fuel oil, and a diffusion cone, a filter screen and other separation elements are arranged in the separator. The existing oil-water separator does not have the function of removing slag firstly in the using process, so that impurities exist in oil products, and the obtained oil products have poor quality.

Therefore, a new technical scheme is provided for solving the problems.

SUMMERY OF THE UTILITY MODEL

The utility model provides a self-deslagging oil-water separator.

The utility model adopts the technical proposal that:

the utility model provides a from row sediment water oil separating machine, includes strainer, automatic row's sediment ware, separation jar, vacuum cylinder and the condenser that connects gradually, the oil inlet of strainer links to each other with the sewage pump in the effluent water sump, be provided with the oil feed ball valve between sewage pump and the strainer, separation jar and the inside isolation filter core that all installs of vacuum cylinder, the separation jar is including continuous separation jar I and separation jar II, all be provided with coalescence filter core and water oil separating filter core in separation jar I and the separation jar II, separation jar II is connected with drain pump and secondary filter with the vacuum cylinder bottom, the vacuum cylinder passes through out oil pipe and connects the oil storage tank, inside spray tube and the liquid level controller of being provided with of vacuum cylinder, the condenser is connected with vacuum pump and storage water tank.

Furthermore, an oil-water separation filter element in the separation cylinder I is connected with a coalescence filter element in the separation cylinder II, and an oil-water separation filter element in the separation cylinder II is connected with a spray pipe in the vacuum cylinder and is controlled by an electromagnetic valve.

Furthermore, a vacuum meter and a light-operated switch are installed at the top end of the vacuum cylinder, and a manual inflation valve and an automatic inflation electromagnetic valve are installed on one side of the vacuum cylinder.

Further, the bottom of separation jar II and vacuum jar is connected to the drain pump, the drain pump is connected with the secondary filter, install the ball valve between separation jar II and the drain pump, install check valve I between vacuum jar and the drain pump.

Further, install the oil-water mixing pump between vacuum cylinder and the oil storage tank, oil outlet pipe's oil inlet is located the top of keeping apart the filter core, install check valve II between oil-water mixing pump and the oil storage tank.

Furthermore, a cooling water pump is installed between the condenser and the water storage tank, and a water drain valve I is installed at the bottom of the condenser.

Furthermore, pressure controllers are respectively arranged between the automatic slag extractor and the separating cylinder I and between the draining pump and the fine filter.

Furthermore, a water drain valve II is installed at the bottom of the separation cylinder I.

Furthermore, an oil pump is arranged between the coarse filter and the automatic slag extractor.

The utility model has the advantages that: the device has the advantages of full-automatic control and high efficiency, pollutants are firstly removed through the full-automatic cleaning filter, then oil and water are effectively and thoroughly separated, the separation effect is good, the separated water is clear and transparent, the separated oil can be collected and can be recycled after being reprocessed, the device is energy-saving and environment-friendly, the aggregation technology, the gravity separation, the oil-water affinity separation technology, the separation technology and the vacuum flash evaporation technology are integrated, and the device can be widely applied to treatment of sewage and circulating water of metallurgy, electric power, video, petrifaction, papermaking, rubber, coal, automobiles, aquatic products and the like.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic structural diagram of the present invention.

Wherein: 1. the device comprises a coarse filter, 2, an automatic slag discharging device, 3, a vacuum cylinder, 4, a condenser, 5, a sewage tank, 6, a sewage pump, 7, an oil inlet ball valve, 8, an isolation filter element, 9, separation cylinders I and 10, separation cylinders II and 11, a coalescing filter element, 12, an oil-water separation filter element, 13, a drainage pump, 14, a fine filter, 15, an oil outlet pipeline, 16, an oil storage tank, 17, a spray pipe, 18, a liquid level controller, 19, a vacuum pump, 20, a water storage tank, 21, an electromagnetic valve, 22, an oil pump, 23, a ball valve, 24, check valves I and 25, water discharge valves II and 26, a vacuum meter, 27, a light-operated switch, 28, a manual inflation valve, 29, an automatic inflation electromagnetic valve, 30, an oil-water mixing pump, 31, check valves II and 32, a cooling water pump, 33, water discharge valves I and.

Detailed Description

In order to deepen the understanding of the present invention, the present invention will be further described in detail with reference to the following embodiments and the attached drawings, and the embodiments are only used for explaining the present invention, and do not constitute the limitation to the protection scope of the present invention.

As shown in fig. 1, the self-deslagging oil-water separator comprises a coarse filter 1, an automatic deslagging device 2, a separation cylinder, a vacuum cylinder 3 and a condenser 4 which are sequentially connected, wherein an oil inlet of the coarse filter 1 is connected with a sewage pump 6 in a sewage pool 5, an oil inlet ball valve 7 is arranged between the sewage pump 6 and the coarse filter 1, isolation filter elements 8 are respectively arranged in the separation cylinder and the vacuum cylinder 3, the separation cylinder comprises a separation cylinder I9 and a separation cylinder II 10 which are connected, a coalescence filter element 11 and an oil-water separation filter element 12 are respectively arranged in the separation cylinder I9 and the separation cylinder II 10, a drainage pump 13 and a fine filter 14 are connected to the bottoms of the separation cylinder II 10 and the vacuum cylinder 3, the vacuum cylinder 3 is connected with an oil storage tank 16 through an oil outlet pipeline 15, a spray pipe 17 and a liquid level controller 18 are arranged in the vacuum cylinder 3.

An oil-water separation filter element 12 in a separation cylinder I9 is connected with a coalescence filter element 11 in a separation cylinder II 10, the oil-water separation filter element 12 in the separation cylinder II 10 is connected with a spray pipe 17 in a vacuum cylinder 3 and is controlled by an electromagnetic valve 21, the bottom of the separation cylinder II 10 and the bottom of the vacuum cylinder 3 are connected with a drainage pump 13, the drainage pump 13 is connected with a fine filter 14, a ball valve 23 is arranged between the separation cylinder II 10 and the drainage pump 13, a check valve I24 is arranged between the vacuum cylinder 3 and the drainage pump 13, and a drainage valve II 25 is arranged at the bottom of the separation cylinder I9;

a vacuum meter 26 and a light-operated switch 27 are installed at the top end of the vacuum cylinder 3, a manual inflation valve 28 and an automatic inflation electromagnetic valve 29 are installed at one side of the vacuum cylinder 3, an oil-water mixing pump 30 is installed between the vacuum cylinder 3 and the oil storage tank 16, an oil inlet of the oil outlet pipeline 15 is located above the isolation filter element 8, and a check valve II 31 is installed between the oil-water mixing pump 30 and the oil storage tank 16;

a cooling water pump 32 is arranged between the condenser 4 and the water storage tank 20, and a water drain valve I33 is arranged at the bottom of the condenser 4;

pressure controllers 34 are respectively arranged between the automatic slag extractor 2 and the separation cylinder I9 and between the drainage pump 13 and the fine filter 14, and oil pumps 22 are arranged between the coarse filter 1 and the automatic slag extractor 2.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, but also to cover any modifications or equivalent changes made in the technical spirit of the present invention, which fall within the scope of the present invention.

Claims

1. The utility model provides a from sediment water oil separating machine which characterized in that: including the strainer that connects gradually, automatic row's sediment ware, separation jar, vacuum cylinder and condenser, the oil inlet of strainer links to each other with the sewage pump in the effluent water sump, be provided with the oil feed ball valve between sewage pump and the strainer, separation jar and the inside isolation filter core of all installing of vacuum cylinder, the separation jar is including continuous separation jar I and separation jar II, all be provided with coalescence filter core and water oil separating filter core in separation jar I and the separation jar II, separation jar II is connected with drain pump and secondary filter with the vacuum cylinder bottom, the vacuum cylinder passes through oil pipeline and connects the oil storage tank, inside spray tube and the liquid level controller of being provided with of vacuum cylinder, the condenser is connected with vacuum pump and storage water tank.

2. The self-deslagging separator as set forth in claim 1, wherein: the oil-water separation filter element in the separation cylinder I is connected with the coalescence filter element in the separation cylinder II, and the oil-water separation filter element in the separation cylinder II is connected with the spray pipe in the vacuum cylinder and is controlled by the electromagnetic valve.

3. The self-deslagging separator as set forth in claim 1, wherein: the top end of the vacuum cylinder is provided with a vacuum meter and a light-operated switch, and one side of the vacuum cylinder is provided with a manual inflation valve and an automatic inflation electromagnetic valve.

4. The self-deslagging separator as set forth in claim 1, wherein: the bottom of separation jar II and vacuum jar is connected to the drain pump, the drain pump is connected with the secondary filter, install the ball valve between separation jar II and the drain pump, install check valve I between vacuum jar and the drain pump.

5. The self-deslagging separator as set forth in claim 1, wherein: install the oil-water mixing pump between vacuum cylinder and the oil storage tank, oil outlet pipe's oil inlet is located the top of keeping apart the filter core, install check valve II between oil-water mixing pump and the oil storage tank.

6. The self-deslagging separator as set forth in claim 1, wherein: a cooling water pump is installed between the condenser and the water storage tank, and a water drain valve I is installed at the bottom of the condenser.

7. The self-deslagging separator as set forth in claim 1, wherein: and pressure controllers are respectively arranged between the automatic slag extractor and the separation cylinder I and between the drainage pump and the fine filter.

8. The self-deslagging separator as set forth in claim 1, wherein: and a water drain valve II is installed at the bottom of the separation cylinder I.

9. The self-deslagging separator as set forth in claim 1, wherein: an oil pump is arranged between the coarse filter and the automatic slag discharging device.