CN206799213U - The efficient oil separation equipment of bicavate - Google Patents

Abstract

It the utility model is related to field of mechanical technique.The efficient oil separation equipment of bicavate, including housing, housing is interior to be provided with water-oil separating chamber, water-oil separating chamber is provided with two, two water-oil separating chambers are setting up and down, using water-oil separating chamber above as the first water-oil separating chamber, using underlying water-oil separating chamber as the second water-oil separating chamber；A water inlet is offered in the side wall of second water-oil separating chamber；A water-supply-pipe being vertically arranged is additionally provided with housing, the lower end of water-supply-pipe is located at the second water-oil separating intracavitary, the upper end of water-supply-pipe is located at the first water-oil separating intracavitary, the top of water-supply-pipe is fixed with a kuppe that Open Side Down, the center of top of kuppe offers the mounting hole for being fixed on water-supply-pipe, the circular in cross-section of kuppe, the external diameter of kuppe are gradually incremented by from top to bottom.The utility model is by optimizing the structure of the efficient oil separation equipment of bicavate, and by improving oil-water separation provided with two water-oil separating chambers setting up and down, two water-oil separating chambers can realize the effect of water-oil separating.

Description

The efficient oil separation equipment of bicavate

Technical field

It the utility model is related to field of mechanical technique, more particularly to the efficient oil separation equipment of bicavate.

Background technology

Environmental protection and energy saving are one of topics that the current whole world is paid close attention to the most, wherein handling always people not to the utmost for blowdown mode Meaning.Especially the processing of oily waste water always when environmental protection industry (epi) pay close attention to the problem of, cannot always properly settle.Although current city Occurs the efficient oil separation equipment of many bicavates on face, but not only oil-water separation is undesirable for these equipment, makes Cost is also high.

Utility model content

The purpose of this utility model is, there is provided the efficient oil separation equipment of bicavate, is asked with solving above-mentioned at least one technology Topic.

The technical problem that the utility model solves can be realized using following technical scheme：

The efficient oil separation equipment of bicavate, including housing, the housing is interior to be provided with water-oil separating chamber, it is characterised in that described Water-oil separating chamber is provided with two, and two water-oil separating chambers are setting up and down, and the first profit is used as using water-oil separating chamber above Disengagement chamber, the second water-oil separating chamber is used as using underlying water-oil separating chamber；

A water inlet is offered in the side wall of the second water-oil separating chamber；

A water-supply-pipe being vertically arranged is additionally provided with the housing, the lower end of the water-supply-pipe is located at second profit point From intracavitary, the upper end of the water-supply-pipe is located at the first water-oil separating intracavitary, and the top of the water-supply-pipe is fixed with an opening Downward kuppe, the center of top of the kuppe offer the mounting hole for being fixed on water-supply-pipe, the kuppe External diameter from top to bottom gradually be incremented by, a polytetrafluorethylecoatings coatings are coated with the outer wall of the kuppe；

The top of the first water-oil separating chamber and the top of the second water-oil separating chamber offer an oil discharge outlet；

The bottom of the first water-oil separating chamber and the bottom of the second water-oil separating chamber offer a discharge outlet.

The utility model is separated step by step by two water-oil separating chambers setting up and down to profit, oil-water separation It is good.In addition, this patent also optimizes the structure of two water-oil separating chambers, making it, installation is more convenient, materials are less, so as to reduce Cost.

After water inlet enters the second water-oil separating chamber, sewage is stood sewage in the second water-oil separating intracavitary, is realized Oil reservoir is suspended in upper strata, when the sewage quantity that water inlet imports is more than the capacity of the second water-oil separating chamber, the second water-oil separating chamber Internal pressure by drive the second water-oil separating intracavitary liquid be poured into the first water-oil separating chamber along petroleum pipeline, kuppe, pass through Kuppe, the stability to liquid flowing is realized, rocking greatly when preventing from importing is poly- by being coated with the outer wall of kuppe Tetrafluoroethene, prevent oil reservoir to be adhered on the outer wall of kuppe, improve oil removal effect, in addition, the utility model is by by water conservancy diversion The external diameter of cover is gradually incremented by from top to bottom, is also easy for liquid downslide, prevents from sticking on the outer wall of kuppe.

The first water-oil separating intracavitary is additionally provided with filter mechanism made of the oleophobic water wetted material of a ring-type；The filtering The internal ring wall of mechanism is fixedly connected with the outer wall of the kuppe, the external annulus of the filter mechanism and first water-oil separating The inwall of chamber is fixedly connected.

The utility model is by provided with a filter mechanism, improving oil-water separation, being easy to implement oil being blocked in filtering The top of mechanism.

The filter mechanism is obliquely installed, and the oil discharge outlet of the first water-oil separating chamber is located at the top of filter mechanism, and Positioned at the lowest part close to the filter mechanism.

The utility model is obliquely installed by optimizing filter mechanism, is easy to export oil body.

The housing is double-decker, and the housing includes internal layer made of a stainless steel, outer layer made of an asbestos board, The outer layer is arranged on the periphery of the internal layer；

The outer layer is connected with the internal layer by connecting rod made of a carbon steel, and between the outer layer and the internal layer Provided with an electric heating tube, the electric heating tube is connected with the inner layer contacts, has between the electric heating tube and the outer layer Gap.

The utility model is realized oily with second to the first water-oil separating chamber by optimizing the structure of housing by electric heating tube The heating of water disengagement chamber, prevent oil body solidification from condensing in the first water-oil separating chamber and the second water-oil separating intracavitary, it is not tractable Problem.Stainless steel is chosen for by internal layer to be easy to conduct the heat of electric heating tube to the first water-oil separating chamber and the second profit point It is the outer layer made of asbestos by outer layer from the inside of chamber, improves effect of heat insulation.

The first water-oil separating intracavitary is provided with a temperature sensor, and the temperature sensor includes a float on liquid level Ball float, be fixed with a temperature-sensing element on the ball float, the temperature surface of the temperature-sensing element is located on the outer wall of the ball float, institute State temperature-sensing element and connect a signal processing module, the signal output part of the signal processing module connects a wireless communication module；

The electric heating tube connects a control system, what the control system connection matched with the wireless communication module Wireless receiving module；

The signal processing module is located at the inside of the ball float, and positioned at the ball float provided with interior at temperature-sensing element Side.

The temperature-sensing element of temperature sensor is fixed on ball float by the utility model by optimizing the structure of temperature sensor On, it is easy to move with the change of liquid level, realizes that temperature sensor detects to the temperature of liquid in real time, according to liquid Temperature conditions, and then judge currently whether need electric heating tube to open heating, oil body coagulates caused by causing fluid temperature too low Gu.

The inwall of the first water-oil separating chamber is fixed with the guide rail that a channeling direction is vertical direction, consolidates on the ball float Surely there is the projection to match with the guide rail, the ball float is slidably connected with the guide rail.

The restriction of the direction of motion of ball float is easy to implement, prevents ball float from arbitrarily being moved about in the first water-oil separating intracavitary.

Brief description of the drawings

Fig. 1 is part-structure schematic diagram of the present utility model.

Embodiment

In order that technological means, creation characteristic, reached purpose and effect that the utility model is realized are easy to understand, under Face, which combines to be specifically illustrating, is expanded on further the utility model.

Referring to Fig. 1, the efficient oil separation equipment of bicavate, including housing, housing is interior to be provided with water-oil separating chamber, and water-oil separating chamber is set Have two, two water-oil separating chambers are setting up and down, using water-oil separating chamber above as the first water-oil separating chamber, with positioned at The water-oil separating chamber of lower section is as the second water-oil separating chamber；A water inlet 3 is offered in the side wall of second water-oil separating chamber；Housing A water-supply-pipe 4 being vertically arranged inside is additionally provided with, the lower end of water-supply-pipe 4 is located at the second water-oil separating intracavitary, the upper end position of water-supply-pipe 4 In the first water-oil separating intracavitary, the top of water-supply-pipe 4 is fixed with a kuppe 5 that Open Side Down, and the center of top of kuppe 5 is opened Provided with the mounting hole for being fixed on water-supply-pipe 4, the cross section of kuppe 5 is preferably rounded, and the external diameter of kuppe 5 is from up to It is lower to be gradually incremented by, a polytetrafluorethylecoatings coatings are coated with the outer wall of kuppe 5；The top of first water-oil separating chamber and the second oil The top of water disengagement chamber offers an oil discharge outlet 1；The bottom of first water-oil separating chamber and the bottom of the second water-oil separating chamber are equal Offer a discharge outlet 2.The utility model is by optimizing the structure of the efficient oil separation equipment of bicavate, by provided with setting up and down Two water-oil separating chambers and then oil-water separation is improved, two water-oil separating chambers can realize the effect of water-oil separating.Sewage After water inlet enters the second water-oil separating chamber, sewage is stood in the second water-oil separating intracavitary, is realized oil reservoir and is suspended in Layer, when the sewage quantity that water inlet imports is more than the capacity of the second water-oil separating chamber, the internal pressure of the second water-oil separating chamber will drive The liquid of second water-oil separating intracavitary is poured into the first water-oil separating chamber along petroleum pipeline, kuppe 5, by kuppe 5, realizes To the stability of liquid flowing, rocking greatly when preventing from importing, by being coated with polytetrafluoroethylene (PTFE) on the outer wall of kuppe 5, Prevent oil reservoir to be adhered on the outer wall of kuppe 5, improve oil removal effect, in addition, the utility model is by by the external diameter of kuppe 5 Gradually it is incremented by from top to bottom, is also easy for liquid downslide, prevents from sticking on the outer wall of kuppe 5.

First water-oil separating intracavitary is additionally provided with filter mechanism made of the oleophobic water wetted material of a ring-type；Filter mechanism it is interior Ring wall is fixedly connected with the outer wall of kuppe 5, and the external annulus of filter mechanism are fixedly connected with the inwall of the first water-oil separating chamber.This Utility model is by provided with a filter mechanism, improving oil-water separation, being easy to implement the top that oil is blocked in filter mechanism.

Filter mechanism is obliquely installed, and the oil discharge outlet of the first water-oil separating chamber is located at the top of filter mechanism, and positioned at close The lowest part of filter mechanism.The utility model is obliquely installed by optimizing filter mechanism, is easy to export oil body.

Water inlet is provided with a screen pack.Prevent large granular impurity from entering water-oil separating chamber.

The distance from bottom of the lower end of water-supply-pipe 4 and the second water-oil separating chamber be not less than the 1/3 of water-oil separating chamber height, and No more than the 1/2 of water-oil separating chamber height.The utility model prevents water-supply-pipe 4 by by limiting the height of the lower end of water-supply-pipe 4 The oil reservoir that two water-oil separating intracavitary are isolated introduces the first water-oil separating chamber and separated again.

Housing is double-decker, and housing includes internal layer made of a stainless steel, outer layer made of an asbestos board, and outer layer 9 is set Put in the periphery of internal layer 10；Outer layer 9 is connected with internal layer 10 by connecting rod 8 made of a carbon steel, and is set between outer layer and internal layer There is an electric heating tube 6, electric heating tube 6 is connected with inner layer contacts, has gap between electric heating tube 6 and outer layer.The utility model By optimizing the structure of housing, the heating to the first water-oil separating chamber and the second water-oil separating chamber is realized by electric heating tube 6, prevented Only oil body solidification condenses in the first water-oil separating chamber and the second water-oil separating intracavitary, it is not disposable the problem of.Chosen by internal layer It is easy to the heat of electric heating tube 6 conducting inside to the first water-oil separating chamber and the second water-oil separating chamber for stainless steel, passes through Outer layer is outer layer 9 made of asbestos, improves effect of heat insulation.The heating-up temperature of control electric heating tube 6 is in 60 DEG C~70 DEG C models In enclosing.Electric heating tube 6 is provided with least three, and at least three electric heating tubes 6 are vertically arranged between internal layer and outer layer.Realize uniform The effect of heating.

Blanket of glass wool is stained with the outside of outer layer.Improve heat insulating effect.

First water-oil separating intracavitary is provided with a temperature sensor 7, and it is floating on liquid level that temperature sensor 7 includes a float Ball, a temperature-sensing element is fixed with ball float, the temperature surface of temperature-sensing element is located on the outer wall of ball float, and temperature-sensing element connects a signal Processing module, the signal output part of signal processing module connect a wireless communication module；Electric heating tube connects a control system, control The wireless receiving module that system connection processed matches with wireless communication module；Signal processing module is located at the inside of ball float, and position The inner side at temperature-sensing element is provided with ball float.The utility model is by optimizing the structure of temperature sensor 7, by temperature sensor 7 Temperature-sensing element be fixed on ball float, be easy to move with the change of liquid level, realize temperature sensor 7 in real time to the temperature of liquid Degree is detected, and according to the temperature conditions of liquid, and then is judged currently whether need electric heating tube to open heating, is caused liquid temperature Spend it is low caused by oil body solidify.

The inwall of first water-oil separating chamber is fixed with the guide rail 11 that a channeling direction is vertical direction, be fixed with ball float with The projection that guide rail 11 matches, ball float are slidably connected with guide rail.The restriction of the direction of motion of ball float is easy to implement, prevents ball float from existing First water-oil separating intracavitary is arbitrarily moved about.

The inwall of first water-oil separating chamber and the second water-oil separating chamber is coated with a hydrophobic oleophobic coating.Prevent oily adhesion In the first water-oil separating chamber and the inwall of the second water-oil separating chamber.It is easy to clear up.

Hydrophobic oleophobic coating is prior art, can be chosen for hydrophobic oleophobic coating made of fluosilicic hydrophobic oleophobic material. Coating made of polytetrafluoroethylene (PTFE) can also be chosen.

The advantages of general principle and principal character of the present utility model and the utility model has been shown and described above.One's own profession The technical staff of industry is it should be appreciated that the utility model is not restricted to the described embodiments, described in above-described embodiment and specification Simply illustrate principle of the present utility model, on the premise of the spirit and scope of the utility model is not departed from, the utility model is also Various changes and modifications are had, these changes and improvements are both fallen within claimed the scope of the utility model.The utility model Claimed scope is by appended claims and its equivalent thereof.

Claims (3)

1. the efficient oil separation equipment of bicavate, including housing, the housing is interior to be provided with water-oil separating chamber, it is characterised in that the oil Water disengagement chamber is provided with two, and two water-oil separating chambers are setting up and down, is divided using water-oil separating chamber above as the first profit From chamber, the second water-oil separating chamber is used as using underlying water-oil separating chamber；

A water inlet is offered in the side wall of the second water-oil separating chamber；

A water-supply-pipe being vertically arranged is additionally provided with the housing, the lower end of the water-supply-pipe is located at the second water-oil separating chamber Interior, the upper end of the water-supply-pipe is located at the first water-oil separating intracavitary, and the top of the water-supply-pipe is fixed with one, and Open Side Down Kuppe, the center of top of the kuppe offers the mounting hole for being fixed on water-supply-pipe, the kuppe it is outer Footpath is gradually incremented by from top to bottom, and a polytetrafluorethylecoatings coatings are coated with the outer wall of the kuppe；

The top of the first water-oil separating chamber and the top of the second water-oil separating chamber offer an oil discharge outlet；

The bottom of the first water-oil separating chamber and the bottom of the second water-oil separating chamber offer a discharge outlet.

2. the efficient oil separation equipment of bicavate according to claim 1, it is characterised in that the first water-oil separating intracavitary is also Provided with filter mechanism made of the oleophobic water wetted material of a ring-type；The outer wall of the internal ring wall of the filter mechanism and the kuppe It is fixedly connected, the external annulus of the filter mechanism are fixedly connected with the inwall of the first water-oil separating chamber.

3. the efficient oil separation equipment of bicavate according to claim 1, it is characterised in that the housing is double-decker, institute Stating housing includes internal layer made of a stainless steel, outer layer made of an asbestos board, and the outer layer is arranged on the periphery of the internal layer；

The outer layer is connected with the internal layer by connecting rod made of a carbon steel, and is provided between the outer layer and the internal layer One electric heating tube, the electric heating tube are connected with the inner layer contacts, have gap between the electric heating tube and the outer layer.