CN221229997U

CN221229997U - Vacuum oil-water separation oil washing tank

Info

Publication number: CN221229997U
Application number: CN202323026631.4U
Authority: CN
Inventors: 彭波
Original assignee: Zhucheng Xinxudong Machinery Co ltd
Current assignee: Zhucheng Xinxudong Machinery Co ltd
Priority date: 2023-11-09
Filing date: 2023-11-09
Publication date: 2024-06-28
Anticipated expiration: 2033-11-09

Abstract

The utility model relates to the technical field of vacuum oil-water separation wash oil, in particular to a vacuum oil-water separation wash oil tank, which is provided with a condensing mechanism and a cleaning mechanism, so that resources generated in the process can be recycled in the oil-water separation process, resources can be saved, equipment can be cleaned, and the oil-water separation quality is improved; comprises a separating mechanism; the device also comprises a cleaning mechanism, a condensing mechanism, a vacuum mechanism and a heating mechanism, wherein the cleaning mechanism is arranged in the separating mechanism, the condensing mechanism is arranged at the right end of the separating mechanism, the vacuum mechanism is arranged at the right end of the condensing mechanism, and the heating mechanism is arranged on the separating mechanism; separating mechanism carries out oil-water separation, and clearance mechanism clears up separating mechanism, and condensing mechanism condenses steam, and vacuum mechanism carries out the evacuation, and heating mechanism heats the material.

Description

Vacuum oil-water separation oil washing tank

Technical Field

The utility model relates to the technical field of vacuum oil-water separation wash oil, in particular to a vacuum oil-water separation wash oil tank.

Background

The vacuum oil filter is a product for filtering and supplementing oil on site aiming at various oil immersed transformers, oil immersed current and voltage transformers and high-voltage oil-less circuit breakers.

In the existing vacuum oil-water separation oil washing tank, for example, the vacuum oil-water separation oil washing tank disclosed in the patent of the utility model with the application number 201820039329.2 is matched with a vacuum tank body, an annular spray header, spiral cooling fins and the like, oil liquid of the annular spray header is sprayed out in an annular shape, the annular diameter is smaller than that of the spiral cooling fins below, the oil liquid is just sprayed onto the spiral cooling fins, the spiral cooling fins are unfolded to naturally flow, the steam recovery efficiency is greatly improved, an inverted cone type hollow area is arranged in the middle of the spiral cooling fins, steam in the oil cannot be blocked by an upper rotor wing to form distilled water and fall into the oil, and the steam can be recovered from the hollow inverted cone type hollow area. And secondly, oil flows to the bottom of the vacuum tank through the rotor wing, the oil expands and flows on the surface of the rotor wing, and bubbles are separated out, so that the generation of bubbles is avoided, and the working stability is good.

However, the separated oil and water can remain in the equipment, thereby affecting the processing of oil and water separation again.

Disclosure of utility model

In order to solve the technical problems, the utility model provides the vacuum oil-water separation oil washing tank which is provided with the condensing mechanism and the cleaning mechanism, so that resources generated in the process can be recycled in the oil-water separation process, resources are saved, equipment can be cleaned, and the oil-water separation quality is improved.

The utility model relates to a vacuum oil-water separation oil washing tank, which comprises a separation mechanism; the device also comprises a cleaning mechanism, a condensing mechanism, a vacuum mechanism and a heating mechanism, wherein the cleaning mechanism is arranged in the separating mechanism, the condensing mechanism is arranged at the right end of the separating mechanism, the vacuum mechanism is arranged at the right end of the condensing mechanism, and the heating mechanism is arranged on the separating mechanism;

The separating mechanism performs oil-water separation, the cleaning mechanism cleans the separating mechanism, the condensing mechanism condenses water vapor, the vacuum mechanism performs vacuumizing, and the heating mechanism heats materials; the heating mechanism is opened to heat materials in the separating mechanism, the vacuum mechanism is opened to enable the separating mechanism to be in a vacuum environment, meanwhile, the vacuum mechanism sucks water vapor into the condensing mechanism to condense, and the cleaning mechanism is opened to clean equipment after separation is completed, so that resources generated in the process can be recycled in the oil-water separation process, resources are saved, the equipment can be cleaned, and the oil-water separation quality is improved.

Preferably, the separating mechanism comprises a separating bin, a discharge hole, a feed box, a feed inlet, a pump, an atomizing nozzle, a connecting pipe I and a three-way valve I, wherein the discharge hole is arranged at the rear end of the separating bin, the feed box is arranged at the upper end of the separating bin, the feed inlet is arranged at the upper end of the feed box, the pump is arranged at the rear end of the feed box, the input end of the pump extends to the inner side of the feed box, the atomizing nozzle is arranged in the separating bin, the input end of the atomizing nozzle extends to the upper side of the separating bin, the output end of the pump is connected with the input end of the atomizing nozzle through the connecting pipe I, and the three-way valve I is arranged on the connecting pipe I; the pump is turned on to spray the material in the material box into the separation bin through the connecting pipe and the matched atomizing nozzle.

Preferably, the cleaning mechanism comprises a motor, a brush and a bearing, wherein the motor is arranged in the separation bin, the brush is connected with the output end of the motor, and the brush is connected with the atomizing nozzle through the bearing; the motor is started to drive the brush, so that the brush is matched with the bearing to rotate to brush the inside of the separation bin.

Preferably, the condensing mechanism comprises a through pipe, a condensing bin, a water tank, a cold water bin, a water pump, a connecting pipe II, a three-way valve II and a connecting pipe III, wherein the through pipe is arranged at the right end of the separating bin, the condensing bin is arranged at the right end of the through pipe, the water tank is arranged at the lower end of the condensing bin, the cold water bin is arranged on the condensing bin, the water pump is arranged at the right end of the water tank, the input end of the water pump extends to the inner side of the water tank, the output end of the water pump is connected with the inner part of the cold water bin through the connecting pipe II, the inner part of the cold water bin is connected with the inner part of the water tank through the three-way valve II, and the three-way valve II is connected with the three-way valve I through the connecting pipe III; the water in the water tank is condensed in the cold water bin through the connecting pipe II by opening the water pump, and the water in the water tank is cleaned in the separation bin through the connecting pipe II, the cold water bin, the three-way valve II and the connecting pipe III by opening the water pump by adjusting the three-way valve I and the three-way valve II.

Preferably, the vacuum mechanism comprises a vacuum pump, an air box and a connecting pipe IV, wherein the vacuum pump is arranged at the right end of the condensation bin, the air box is arranged at the lower end of the water tank, and the output end of the vacuum pump is connected with the interior of the air box through the connecting pipe IV; the inside of the separation bin is made into a vacuum environment by opening the vacuum pump, and the air flow is used for cooling water in the water tank by the air box matched with the connecting pipe four.

Preferably, the heating mechanism comprises a heating bin and a heating wire, the heating bin is arranged on the separation bin, and the heating wire is arranged in the heating bin; the heating wire is electrified to heat the materials in the separation bin.

Compared with the prior art, the utility model has the beneficial effects that: the heating mechanism is opened to heat materials in the separating mechanism, the vacuum mechanism is opened to enable the separating mechanism to be in a vacuum environment, meanwhile, the vacuum mechanism sucks water vapor into the condensing mechanism to condense, and the cleaning mechanism is opened to clean equipment after separation is completed, so that resources generated in the process can be recycled in the oil-water separation process, resources are saved, the equipment can be cleaned, and the oil-water separation quality is improved.

Drawings

FIG. 1 is a schematic view of a first axial structure of the present utility model;

FIG. 2 is a schematic view of a second axial structure of the present utility model;

FIG. 3 is a schematic elevational view of the present utility model;

FIG. 4 is a schematic illustration of an isometric cross-sectional view of the present utility model;

FIG. 5 is an enlarged schematic view of the cleaning mechanism of the present utility model in section A of FIG. 4;

The reference numerals in the drawings: 1. a separation mechanism; 11. a separation bin; 12. a discharge port; 13. a feed box; 14. a feed inlet; 15. a pump machine; 16. an atomizing nozzle; 17. a connecting pipe I; 18. a first three-way valve; 2. a cleaning mechanism; 21. a motor; 22. a brush; 23. a bearing; 3. a condensing mechanism; 31. a through pipe; 32. a condensation bin; 33. a water tank; 34. a cold water bin; 35. a water pump; 36. a connecting pipe II; 37. a three-way valve II; 38. a connecting pipe III; 4. a vacuum mechanism; 41. a vacuum pump; 42. a wind box; 43. a connecting pipe IV; 5. a heating mechanism; 51. a heating bin; 52. and (5) heating wires.

Detailed Description

In order that the utility model may be readily understood, a more complete description of the utility model will be rendered by reference to the appended drawings. This utility model may be embodied in many different forms and is not limited to the embodiments described herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

Example 1

As shown in fig. 1 to 4, the device comprises a separation mechanism 1, a cleaning mechanism 2, a condensation mechanism 3, a vacuum mechanism 4 and a heating mechanism 5, wherein the cleaning mechanism 2 is arranged in the separation mechanism 1, the condensation mechanism 3 is arranged at the right end of the separation mechanism 1, the vacuum mechanism 4 is arranged at the right end of the condensation mechanism 3, and the heating mechanism 5 is arranged on the separation mechanism 1;

The separation mechanism 1 performs oil-water separation, the cleaning mechanism 2 cleans the separation mechanism 1, the condensing mechanism 3 condenses water vapor, the vacuum mechanism 4 performs vacuumizing, and the heating mechanism 5 heats materials;

The separating mechanism 1 comprises a separating bin 11, a discharge opening 12, a feed box 13, a feed inlet 14, a pump 15, an atomizing nozzle 16, a connecting pipe I17 and a three-way valve I18, wherein the discharge opening 12 is arranged at the rear end of the separating bin 11, the feed box 13 is arranged at the upper end of the separating bin 11, the feed inlet 14 is arranged at the upper end of the feed box 13, the pump 15 is arranged at the rear end of the feed box 13, the input end of the pump 15 extends to the inner side of the feed box 13, the atomizing nozzle 16 is arranged in the separating bin 11, the input end of the atomizing nozzle 16 extends to the upper side of the separating bin 11, the output end of the pump 15 is connected with the input end of the atomizing nozzle 16 through the connecting pipe I17, and the three-way valve I18 is arranged on the connecting pipe I17;

The condensing mechanism 3 comprises a through pipe 31, a condensing bin 32, a water tank 33, a cold water bin 34, a water pump 35, a connecting pipe II 36, a three-way valve II 37 and a connecting pipe III 38, wherein the through pipe 31 is arranged at the right end of the separating bin 11, the condensing bin 32 is arranged at the right end of the through pipe 31, the water tank 33 is arranged at the lower end of the condensing bin 32, the cold water bin 34 is arranged on the condensing bin 32, the water pump 35 is arranged at the right end of the water tank 33, the input end of the water pump 35 extends to the inner side of the water tank 33, the output end of the water pump 35 is connected with the inner side of the cold water bin 34 through the connecting pipe II 36, the inner side of the cold water bin 34 is connected with the inner side of the water tank 33 through the three-way valve II 37, and the three-way valve II 37 is connected with the three-way valve I18 through the connecting pipe III 38;

The vacuum mechanism 4 comprises a vacuum pump 41, a bellows 42 and a connecting pipe IV 43, wherein the vacuum pump 41 is arranged at the right end of the condensation bin 32, the bellows 42 is arranged at the lower end of the water tank 33, and the output end of the vacuum pump 41 is connected with the inside of the bellows 42 through the connecting pipe IV 43;

The heating mechanism 5 comprises a heating bin 51 and a heating wire 52, the heating bin 51 is arranged on the separation bin 11, and the heating wire 52 is arranged in the heating bin 51;

The heating wire 52 is electrified to heat the materials in the separation bin 11, the vacuum pump 41 is turned on to enable the inside of the separation bin 11 to be in a vacuum environment, the bellows 42 is matched with the connecting pipe IV 43 to enable air flow to cool water in the water tank 33, meanwhile, the vacuum mechanism 4 sucks water vapor into the condensing mechanism 3, the water pump 35 is turned on to enable the water in the water tank 33 to enter the cold water bin 34 through the connecting pipe II 36 to condense the water vapor in the condensing bin 32 and flow into the water tank 33, and the water in the cold water bin 34 flows back into the water tank 33, so that resources generated in the process can be recycled in the oil-water separation process, and resources are saved.

Example 2

As shown in fig. 1 to 5, the device comprises a separation mechanism 1, a cleaning mechanism 2, a condensation mechanism 3, a vacuum mechanism 4 and a heating mechanism 5, wherein the cleaning mechanism 2 is arranged in the separation mechanism 1, the condensation mechanism 3 is arranged at the right end of the separation mechanism 1, the vacuum mechanism 4 is arranged at the right end of the condensation mechanism 3, and the heating mechanism 5 is arranged on the separation mechanism 1;

The cleaning mechanism 2 comprises a motor 21, a brush 22 and a bearing 23, wherein the motor 21 is arranged in the separation bin 11, the brush 22 is connected with the output end of the motor 21, and the brush 22 is connected with the atomizing nozzle 16 through the bearing 23;

The heating wire 52 is electrified to heat the materials in the separation bin 11, the vacuum pump 41 is turned on to enable the inside of the separation bin 11 to be in a vacuum environment, the bellows 42 is matched with the connecting pipe IV 43 to enable air flow to cool water in the water tank 33, meanwhile, the vacuum mechanism 4 sucks water vapor into the condensing mechanism 3, the water in the water tank 33 enters the cold water bin 34 through the connecting pipe II 36 to condense the water vapor in the condensing bin 32 and flow into the water tank 33, the water in the cold water bin 34 flows back into the water tank 33, during cleaning, the water in the water tank 33 enters the atomization nozzle 16 through the connecting pipe II 36, the cold water bin 34, the three-way valve II 37 and the connecting pipe III 38 to clean the separation bin 11 by opening the water pump 35, the brush 22 is driven by opening the motor 21 to rotate by matching with the bearing 23 to clean the separation bin 11, and therefore the device can be cleaned in the oil-water separation process, and the oil-water separation quality is improved.

As shown in fig. 1 to 5, in the vacuum oil-water separation oil washing tank of the present utility model, when the vacuum oil-water separation oil washing tank is in operation, the heating wire 52 is electrified to heat the material in the separation chamber 11, the vacuum pump 41 is turned on to make the interior of the separation chamber 11 become a vacuum environment, the bellows 42 is matched with the connecting pipe four 43 to cool the water in the water tank 33, the vacuum mechanism 4 sucks water vapor into the condensing mechanism 3, the water pump 35 is turned on to make the water in the water tank 33 enter the cold water chamber 34 through the connecting pipe two 36 to condense the water vapor in the condensing chamber 32 and flow into the water tank 33, and the water in the cold water chamber 34 flows back into the water tank 33, and during cleaning, the water in the water tank 33 enters the atomization nozzle 16 through the connecting pipe two 36, the three-way valve two 37 and the connecting pipe three 38 to clean the interior of the separation chamber 11, and the motor 21 is turned on to drive the brush 22 to rotate in cooperation with the bearing 23 to brush 22 to brush the interior of the separation chamber 11.

The pump 15, motor 21, water pump 35 and vacuum pump 41 of the present utility model are commercially available and will be installed and operated by those skilled in the art in accordance with their attendant instructions without the need for creative effort by those skilled in the art.

The main functions realized by the utility model are as follows: in the working process of vacuum oil-water separation and oil washing, the condensing mechanism and the cleaning mechanism are arranged, so that resources generated in the process can be recycled in the oil-water separation process, resources are saved, equipment can be cleaned, and the oil-water separation quality is improved.

The foregoing is merely a preferred embodiment of the present utility model, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present utility model, and these modifications and variations should also be regarded as the scope of the utility model.

Claims

1. The vacuum oil-water separation oil washing tank comprises a separation mechanism (1); the device is characterized by further comprising a cleaning mechanism (2), a condensing mechanism (3), a vacuum mechanism (4) and a heating mechanism (5), wherein the cleaning mechanism (2) is arranged in the separating mechanism (1), the condensing mechanism (3) is arranged at the right end of the separating mechanism (1), the vacuum mechanism (4) is arranged at the right end of the condensing mechanism (3), and the heating mechanism (5) is arranged on the separating mechanism (1);

The separating mechanism (1) performs oil-water separation, the cleaning mechanism (2) cleans the separating mechanism (1), the condensing mechanism (3) condenses water vapor, the vacuum mechanism (4) performs vacuumizing, and the heating mechanism (5) heats materials.

2. The vacuum oil-water separation oil washing tank as claimed in claim 1, wherein the separation mechanism (1) comprises a separation bin (11), a discharge port (12), a feed box (13), a feed inlet (14), a pump (15), an atomizer (16), a connecting pipe I (17) and a three-way valve I (18), the discharge port (12) is arranged at the rear end of the separation bin (11), the feed box (13) is arranged at the upper end of the separation bin (11), the feed inlet (14) is arranged at the upper end of the feed box (13), the pump (15) is arranged at the rear end of the feed box (13), the input end of the pump (15) extends to the inner side of the feed box (13), the atomizer (16) is arranged in the separation bin (11), the input end of the atomizer (16) extends to the upper side of the separation bin (11), the output end of the pump (15) is connected with the input end of the atomizer (16) through the connecting pipe I (17), and the three-way valve I (18) is arranged on the connecting pipe I (17).

3. A vacuum oil and water separation tank as claimed in claim 2, characterized in that the cleaning means (2) comprise a motor (21), a brush (22) and a bearing (23), the motor (21) is mounted in the separation chamber (11), the brush (22) is connected to the output of the motor (21), and the brush (22) is connected to the atomizer (16) via the bearing (23).

4. The vacuum oil-water separation oil washing tank as claimed in claim 2, wherein the condensing mechanism (3) comprises a through pipe (31), a condensing bin (32), a water tank (33), a cold water bin (34), a water pump (35), a connecting pipe II (36), a three-way valve II (37) and a connecting pipe III (38), the through pipe (31) is arranged at the right end of the separating bin (11), the condensing bin (32) is arranged at the right end of the through pipe (31), the water tank (33) is arranged at the lower end of the condensing bin (32), the cold water bin (34) is arranged on the condensing bin (32), the water pump (35) is arranged at the right end of the water tank (33), the input end of the water pump (35) extends to the inner side of the water tank (33), the output end of the water pump (35) is connected with the inner side of the cold water bin (34) through the connecting pipe II (36), the inner side of the cold water bin (34) is connected with the inner side of the water tank (33) through the three-way valve II (37), and the three-way valve II (37) is connected with the three-way valve I (18) through the connecting pipe III (38).

5. The vacuum oil-water separation oil washing tank as claimed in claim 4, wherein the vacuum mechanism (4) comprises a vacuum pump (41), a bellows (42) and a connecting pipe IV (43), the vacuum pump (41) is arranged at the right end of the condensation bin (32), the bellows (42) is arranged at the lower end of the water tank (33), and the output end of the vacuum pump (41) is connected with the inside of the bellows (42) through the connecting pipe IV (43).

6. A vacuum oil and water separation oil washing tank as claimed in claim 2, characterized in that the heating means (5) comprises a heating bin (51) and a heating wire (52), the heating bin (51) being mounted on the separation bin (11), the heating wire (52) being mounted in the heating bin (51).