CN204799158U - Oil-water separation stirring barrel - Google Patents

Abstract

The utility model provides an oil-water separation agitator, it includes: the upper end of the barrel body is provided with an opening for oil-water mixture to enter, the opening at the upper end of the barrel body is connected with an upper cover in an openable and closable manner, the bottom end of the barrel body is closed, and the lower part of the barrel body is provided with a liquid outlet pipe communicated with the barrel body; the rotating shaft can be rotationally positioned in the barrel body, the upper end of the rotating shaft penetrates through the upper cover and extends to the outside of the barrel body, at least two stirring paddles are arranged on the rotating shaft in the barrel body at intervals along the axial direction, and all the stirring paddles synchronously rotate along with the rotating shaft. The utility model provides an oil-water separation agitator, when oil field crude oil analysis sampling operation, oil-water separation has been accelerated through the stirring rake, has reduced the contact time of sample with the air to reduced the change of crude oil nature in the sampling process, improved the accuracy of chemical examination data, and improved the work efficiency of sample greatly, reduced intensity of labour, and reduced the production of site pollution source.

Description

Water-oil separating agitator

Technical field

The utility model relates to petrochemical equipment technical field, particularly a kind of water-oil separating agitator.

Background technology

At present, when Oil Field gets " complete analysis " sample, be generally and piling oil sample with inside waste and old drum, then carry out water-oil separating by deadweight, but there is following problem in such sampling mode:

1, because disengaging time is long, light fraction has vapored away major part, in the process of refunding in sample bucket again, volatilized again moieties, and with air contact process, oil property there occurs larger change, and sampling will certainly be caused to be forbidden, chemical examination is inaccurate, measure is forbidden, oil well is also just difficult to the effect of increasing production reaching expection;

2, due to oil well oil property and moisture difference, only being separated by deadweight often causes the time difference getting complete analysis large, moisture high oil well is got a complete analysis and is reached 24 hours, moisture low, broad-minded oil well is got a complete analysis and is then reached 48 hours, a complete analysis got by a bite oil well needs 1 working day, some oil wells then reaches 2 working days, causes sampling operating efficiency and low;

3, sample bucket outside can be made in the process of pure oil in sample bucket to be stained with many greasy dirts, outside with cotton yarn wiping sample cylinder, thus be difficult to the station cleaner production of the class of realization, and add the labour intensity of operating personnel.

Utility model content

The purpose of this utility model is to provide a kind of when crude oil analytical sampling operates, the time of contact of crude oil sample and air can be reduced, reduce the change of oil property, thus improve the accuracy of chemical examination data, increase substantially sampling operating efficiency, and the water-oil separating agitator of on-the-spot pollution sources generation can be reduced.

For achieving the above object, the utility model provides a kind of water-oil separating agitator, it comprises: staving, its upper end is provided with the opening entered for oil water mixture, be connected with upper cover the opening part of the upper end of described staving is capable of opening and closing, the bottom end closure of described staving, is provided with the drain pipe be connected with described staving in the bottom of described staving; Rotating shaft, that can rotate is positioned in described staving, the upper end of described rotating shaft extends to the outside of described staving through described upper cover, the described rotating shaft in described staving is interval with at least two paddles vertically, and whole described paddle is with described rotating shaft synchronous axial system.

Water-oil separating agitator as above, wherein, paddle described in each includes the stirrer paddle on axle sleeve and the oblique outer surface being fixedly connected on described axle sleeve, paddle described in each is set on described rotating shaft by described axle sleeve, and the stirrer paddle of adjacent described paddle is contrary with the incline direction of the intersection that described axle sleeve junction is formed.

Water-oil separating agitator as above, wherein, described rotating shaft is interval with vertically two described paddles, and paddle described in two lays respectively at 1/3rd places and 2/3rds places of described staving height.

Water-oil separating agitator as above, wherein, be provided with liquid outlet at the sidewall of described staving and the junction of bottom surface, the liquid feeding end of described drain pipe is connected with described staving by described liquid outlet, and the outlet end of described drain pipe is connected with a switch control rule valve by screw thread head.

Water-oil separating agitator as above, wherein, described upper cover comprises fixed part and folding portion, described fixed part is fixedly connected with the upper end of described staving, described rotating shaft passes the outside that described fixed part extends to described staving, and described folding portion can be connected with described fixed part by hinge with turning down.

Water-oil separating agitator as above, wherein, the elongated end of described rotating shaft is connected with crank.

Water-oil separating agitator as above, wherein, the upper periphery of described staving is arranged with two handles.

Compared with prior art, advantage of the present utility model is as follows:

The water-oil separating agitator that the utility model provides, when crude oil analytical sampling operates, water-oil separating is accelerated by paddle, decrease the time of contact of sample and air, thus the change reduced in sampling process Crude Oil character, improve the accuracy of chemical examination data, and substantially increase the operating efficiency of sampling, decrease labour intensity, meanwhile, the setting of drain pipe, the situation that sample bucket outside can either be avoided to be stained with many greasy dirts occurs, can make again in bucket substantially can not residual liquid, thus effectively reduces the generation of on-the-spot pollution sources.

Accompanying drawing explanation

The following drawings is only intended to schematically illustrate the utility model and explain, does not limit scope of the present utility model.Wherein:

Fig. 1 is the structural representation of the water-oil separating agitator provided according to the utility model one embodiment.

Drawing reference numeral illustrates:

1-staving; 2-drain pipe; 3-upper cover; 31-fixed part; 32-folding portion; 4-rotating shaft; 5-paddle; 6-crank; 7-handle.

Detailed description of the invention

In order to have clearer understanding to the technical solution of the utility model, object and effect, existing accompanying drawings detailed description of the invention of the present utility model.

It should be noted that, in FIG, in order to structure and the position of rotating shaft and paddle clearly can be shown, the rotating shaft in staving and paddle are adopted and is shown in broken lines.

As shown in Figure 1, the water-oil separating agitator that the utility model provides, it comprises: staving 1 and rotating shaft 4, wherein, the upper end of staving 1 is provided with the opening entered for oil water mixture, be connected with upper cover 3 the opening part of the upper end of staving 1 is capable of opening and closing, the bottom end closure of staving 1, the drain pipe 2 be connected with staving 1 is provided with in the bottom of staving 1, drain pipe 2 is closed in water-oil separating operating process, drain pipe 2 is opened when water-oil separating has operated, oil after separation and water can flow out from drain pipe 2, thus avoid the situation generation that many greasy dirts are stained with in sample bucket outside, and then decrease the generation of on-the-spot pollution sources, and decrease the labour intensity of operating personnel, what rotating shaft 4 can rotate is positioned in staving 1, the upper end of rotating shaft 4 extends to the outside of staving 1 through upper cover 3, rotating shaft 4 in staving 1 is interval with at least two paddles 5 vertically, and whole paddle 5 is with rotating shaft 4 synchronous axial system, when crude oil analytical sampling operates, the oil water mixture (liquid level of oil water mixture is higher than the position of drain pipe 2) of q.s is poured in bucket, rotate the elongated end of rotating shaft 4, paddle 5 stirs oil water mixture with rotating shaft 4 synchronous axial system and accelerates water-oil separating, both achieved when crude oil analytical sampling operates, decrease the time of contact of sample and air, thus the change reduced in sampling process Crude Oil character, substantially increase again the operating efficiency of sampling.

Further, each paddle 5 includes axle sleeve and the oblique stirrer paddle be fixedly connected on the outer surface of axle sleeve, each paddle 5 is on the rotary shaft sheathed by axle sleeve, and the stirrer paddle of adjacent paddle 5 is contrary with the incline direction of the intersection that axle sleeve junction is formed, like this, can make paddle 5 leaf in the process with rotating shaft 4 synchronous axial system, produce larger centrifugal force, oil water mixture in staving 1 is fully stirred, thus accelerate water-oil separating further, reduce the time of contact of sample and air, and then the change that reduce further in sampling process Crude Oil character.

In the utility model concrete example, as shown in Figure 1, rotating shaft 4 is interval with vertically two paddles 5, and two paddles 5 lay respectively at 1/3rd places and 2/3rds places of staving 1 height, both two paddles 5 were distributed on staving 1 inside, such set-up mode, ensure that the oil mixing with water in staving 1 all can be stirred fully.

Alternatively, in order to avoid because of oil water mixture recovery measure imperfection remaining in staving 1, part is caused to pollute, as shown in Figure 1, liquid outlet is provided with at the sidewall of staving 1 and the junction of bottom surface, the liquid feeding end of drain pipe 2 is connected with staving 1 by liquid outlet, and the outlet end of drain pipe 2 is connected with a switch control rule valve (not shown) by screw thread head, this switching control pilot is in normally off, when the oil water mixture after being separated in bucket needs to take out, open switch control rule valve, oil after separation and water are flowed out from drain pipe 2 respectively, because liquid outlet is located at the sidewall of staving 1 and the junction of bottom surface, then can make in bucket substantially can not residual liquid, thus further reduce the generation of on-the-spot pollution sources.

Alternatively, upper cover 3 comprises fixed part 31 and folding portion 32, fixed part 31 is fixedly connected with the upper end of staving 1, rotating shaft 4 passes the outside that fixed part 31 extends to staving 1, folding portion 32 can be connected with fixed part 31 by hinge with turning down, specifically, when crude oil analytical sampling operates, upwards turn down the opening that folding portion 32 opens staving 1 top, in staving 1, oil water mixture is poured into from opening part, then the opening that folding portion 32 closes staving 1 top is turned down downwards, the elongated end rotating rotating shaft 4 can be started, oil water mixture in staving 1 is stirred, wherein, it is simple to operation that folding portion 32 makes to open with closing openings by the mode that hinge is connected with fixed part 31.

Alternatively, the elongated end of rotating shaft 4 is connected with crank 6, the setting of crank 6, makes operating personnel that rotating shaft 4 can be driven more easily to rotate, thus makes crude oil analytical sampling operation become more simple and convenient.

Alternatively, water-oil separating agitator is picked and placeed for the ease of operating personnel, two handles 7 are arranged with at the upper periphery of staving 1, when needs carry out crude oil analytical sampling operation, the taking-up of water-oil separating agitator is placed into Experimental Area by handle 7 and carries out sampling operation by operating personnel, after crude oil analytical sampling has operated, it is for subsequent use that water-oil separating agitator has been recycled to storeroom by handle 7 by operating personnel.

Connection with figures illustrates the logical specific operation process of water-oil separating that the utility model provides below:

As shown in Figure 1, step one, oil water mixture is injected: operating personnel open the opening that the folding portion 32 upwards turning down upper cover 3 opens staving 1 in bucket, and the oil mixing with water matter sample taken out from oil well sampling pipe is poured in staving 1 from opening part, the folding portion 32 then turning down upper cover 3 downwards closes the opening of staving 1;

Step 2, oil-water separation mixture: it (can be rotate clockwise that operating personnel drive crank 6 to rotate to a direction, also can be rotate counterclockwise), crank 6 drives driving shaft synchronous axial system, driving shaft drives the oil water mixture in paddle 5 synchronous axial system agitator, oil water mixture is separated, and after stirring general 20min, profit has been separated thoroughly;

Step 3, takes out oil water mixture: open switch control rule valve, the oil after separation and water are flowed out from drain pipe 2 respectively, takes out water and oil samples respectively, and the oil of taking-up, water sample are delivered to laboratory and chemically examined.

In sum, the water-oil separating agitator that the utility model provides, when crude oil analytical sampling operates, water-oil separating is accelerated by paddle, decrease the time of contact of sample and air, thus the change reduced in sampling process Crude Oil character, improve the accuracy of chemical examination data, and substantially increase the operating efficiency of sampling, decrease labour intensity, simultaneously, the setting of drain pipe, the situation that sample bucket outside can either be avoided to be stained with many greasy dirts occurs, can make again in bucket substantially can not residual liquid, thus effectively reduce the generation of on-the-spot pollution sources.

The foregoing is only the schematic detailed description of the invention of the utility model, and be not used to limit scope of the present utility model.Any those of ordinary skill in the art, equivalent variations done under the prerequisite not departing from design of the present utility model and principle and amendment, all should belong to the scope of the utility model protection.

Claims (7)

1. a water-oil separating agitator, is characterized in that, described water-oil separating agitator comprises:

Staving, its upper end is provided with the opening entered for oil water mixture, is connected with upper cover, the bottom end closure of described staving the opening part of the upper end of described staving is capable of opening and closing, is provided with the drain pipe be connected with described staving in the bottom of described staving;

Rotating shaft, that can rotate is positioned in described staving, the upper end of described rotating shaft extends to the outside of described staving through described upper cover, the described rotating shaft in described staving is interval with at least two paddles vertically, and whole described paddle is with described rotating shaft synchronous axial system.

2. water-oil separating agitator according to claim 1, is characterized in that,

Paddle described in each includes the stirrer paddle on axle sleeve and the oblique outer surface being fixedly connected on described axle sleeve, paddle described in each is set on described rotating shaft by described axle sleeve, and the stirrer paddle of adjacent described paddle is contrary with the incline direction of the intersection that described axle sleeve junction is formed.

3. water-oil separating agitator according to claim 2, is characterized in that,

Described rotating shaft is interval with vertically two described paddles, and paddle described in two lays respectively at 1/3rd places and 2/3rds places of described staving height.

4. water-oil separating agitator according to claim 1, is characterized in that,

Be provided with liquid outlet at the sidewall of described staving and the junction of bottom surface, the liquid feeding end of described drain pipe is connected with described staving by described liquid outlet, and the outlet end of described drain pipe is connected with a switch control rule valve by screw thread head.

5. water-oil separating agitator according to claim 1, is characterized in that,

Described upper cover comprises fixed part and folding portion, and described fixed part is fixedly connected with the upper end of described staving, and described rotating shaft passes the outside that described fixed part extends to described staving, and described folding portion can be connected with described fixed part by hinge with turning down.

6. water-oil separating agitator according to any one of claim 1 to 5, is characterized in that,

The elongated end of described rotating shaft is connected with crank.

7. water-oil separating agitator according to any one of claim 1 to 5, is characterized in that,

The upper periphery of described staving is arranged with two handles.