CN212790536U - Online oil blending system - Google Patents

Abstract

The utility model discloses an online oil mediation system, including base oil conveyer pipe and mediation hybrid tube, the base oil conveyer pipe includes 2 at least, the output of all base oil conveyer pipes all communicates with the input of mediation hybrid tube, all be provided with flow control valve on all base oil conveyer pipes, flow ratio controller and flowmeter, flow control valve on each base oil conveyer pipe sets up between flowmeter above that and the mediation hybrid tube, flowmeter and flow control valve on each base oil conveyer pipe all communicate rather than the flow ratio controller who corresponds, each flow ratio controller is through the flow control valve that corresponds on its base oil conveyer pipe at its place of flowmeter measuring data control on its place of base oil conveyer pipe that corresponds. The utility model provides an online oil mediation system can carry out accurate mediation to the oil on line, and is with low costs, and the work load is little.

Description

Online oil blending system

Technical Field

The utility model relates to a chemical production technical field especially relates to online oil mediation system.

Background

In chemical production, it is often necessary to blend two or more different grades of oils and chemicals (such as lubricating oil, diesel oil, gasoline, naphtha, etc.). At present, the blending of large-scale oil products and chemicals with different brands mostly adopts an off-line mode, and needs investment for building off-line blending equipment, wherein the off-line blending equipment mainly comprises a reaction kettle, a stirring kettle, a blending kettle, a heater, a filter and the like, so that the building cost is high, and the workload is large.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an online oil mediation system can carry out accurate mediation to the oil on line, and is with low costs, and the work load is little.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

the utility model discloses an on-line oil product blending system, which comprises a base oil conveying pipe and a blending mixing pipe, the base oil conveyer pipe includes 2 at least, all the output of base oil conveyer pipe all with the input intercommunication of mediation hybrid tube, all be provided with flow control valve, flow ratio controller and flowmeter on the base oil conveyer pipe, each on the base oil conveyer pipe flow control valve set up on it the flowmeter with between the hybrid tube, each on the base oil conveyer pipe the flowmeter with flow control valve all with it is last to correspond flow ratio controller communicates, each flow ratio controller is through its place correspond on the base oil conveyer pipe it is located to correspond the data control of flowmeter measurement on the base oil conveyer pipe it is last to correspond the flow control valve.

The utility model has the advantages that: the oil that carries in each base oil conveyer pipe flows into behind the flow control valve and harmonizes in the mediation hybrid tube, the mediation is gone on line, sustainable stable provides the mediation product, flow ratio controller detects the flow control valve of the base oil conveyer pipe input of correspondence in order to adjust the flow of the oil of each base oil conveyer pipe input mediation hybrid tube according to the flowmeter that corresponds, mediation accuracy, automatically regulated, reducible frequent for the disturbance to the influence of mediation, with low costs, the work load is little, can realize the stepless mediation of multiple oil.

The flow meters and the flow rate ratio controllers on all the base oil conveying pipes are communicated with the control equipment, and each flow rate ratio controller controls the corresponding flow rate control valve on the base oil conveying pipe through data measured by the corresponding flow meter on the base oil conveying pipe where the flow rate ratio controller is located and a preset value of the control equipment.

The beneficial effect of adopting the further scheme is that: the blending parameters can be changed conveniently according to the requirements of different blending products, the remote control can be realized through the control equipment, manual adjustment and intervention on site are not needed, and the working efficiency is improved.

Further, the device also comprises a storage tank, and the output end of the blending and mixing pipe is communicated with the storage tank.

The beneficial effect of adopting the further scheme is that: the blended product can be stored in a storage tank.

Furthermore, each base oil conveying pipe is provided with a bypass pipeline, the input end of each bypass pipeline is arranged between the flow meter and the flow control valve on the base oil conveying pipe where the bypass pipeline is located, and all the bypass pipelines are provided with valve switches.

The beneficial effect of adopting the further scheme is that: the oil products in each base oil conveying pipe can be conveyed through the bypass pipeline, and the independent production of the oil products in the base oil conveying pipes is not influenced.

Furthermore, the inner wall of the mixing and mixing pipe is provided with spiral flow guide lines, and the flow guide lines are used for enabling the fluid in the mixing and mixing pipe to generate rotational flow.

The beneficial effect of adopting the further scheme is that: the generated rotational flow is beneficial to uniform mixing of oil in the blending mixing pipe and formation of a blended product.

Furthermore, the input end and the output end of the flow control valve are both provided with a flow guiding and sprinkling device.

The beneficial effect of adopting the further scheme is that: the device is beneficial to draining residual liquid in pipelines and valves and cleaning the pipelines and the valves.

Furthermore, the input end and the output end of the flow control valve are both provided with a reducing device.

The beneficial effect of adopting the further scheme is that: do benefit to being connected of flow control valve and base oil conveyer pipe, can choose different reducing device for use according to the different pipe diameters of pipeline, the suitability is good.

Further, all of the flow control valves have a manual control structure.

The beneficial effect of adopting the further scheme is that: the flow control valve can be manually controlled, and can be manually adjusted when the automatic control fails.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention having 2 base oil delivery tubes;

FIG. 2 is a schematic diagram of an embodiment of the present invention having 4 base oil delivery tubes;

FIG. 3 is a schematic view of an embodiment of the present invention having a bypass line;

in the figure: 1. a base oil delivery pipe; 2. a mixing and mixing pipe; 3. a flow meter; 4. a flow ratio controller; 5. a flow control valve; 6. a storage tank; 7. a control device; 8. a bypass line; 9. opening and closing a valve;

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings.

As shown in fig. 1 and fig. 2, the embodiment of the on-line oil blending system disclosed by the present invention comprises a base oil delivery pipe 1 and a blending mixing pipe 2, the base oil delivery pipe 1 at least comprises 2, the base oil delivery pipe 1 can be set according to the type of oil required by the blending product, 2, 3, 4 or more base oil delivery pipes can be set, each base oil delivery pipe 1 delivers different grades of primary or semi-finished oil, the output ends of all base oil delivery pipes 1 are all communicated with the input end of the blending mixing pipe 2, all base oil delivery pipes 1 are provided with a flow control valve 5, a flow ratio controller 4 and a flow meter 3, the flow control valve 5 on each base oil delivery pipe 1 is arranged between the flow meter 3 and the blending mixing pipe 2, the flow meter 3 and the flow control valve 5 on each base oil delivery pipe 1 are all communicated with the corresponding flow ratio controller 4, each flow ratio controller 4 controls the corresponding flow control valve 5 on the base oil delivery pipe 1 through the data measured by the corresponding flow meter 3 on the base oil delivery pipe 1 on which it is located.

As a further scheme of the above embodiment, the system further includes a control device 7, the flow meters 3 and the flow ratio controllers 4 on all the base oil delivery pipes 1 are all in communication with the control device 7, each flow ratio controller 4 controls the corresponding flow control valve 5 on the base oil delivery pipe 1 through data measured by the corresponding flow meter 3 on the base oil delivery pipe 1 where the flow ratio controller is located and a preset value of the control device 7, the control device 7 may be disposed in a remote control cabinet and connected through a cable, and the flow output by the output end of each base oil delivery pipe 1 may be set through the control device 7.

As a further solution to the above embodiment, a storage tank 6 is further included, and the output end of the mixing and mixing pipe 2 is communicated with the storage tank 6.

As a further scheme of the above embodiment, the inner wall of the mixing and mixing tube 2 has spiral flow guide lines, and the flow guide lines are used for enabling the fluid in the mixing and mixing tube 2 to generate rotational flow.

As a further scheme of the above embodiment, both the input end and the output end of the flow control valve 5 are provided with a shower guide device.

As a further scheme of the above embodiment, the input end and the output end of the flow control valve 5 are both provided with a diameter-variable device.

As shown in fig. 3, as a further solution of the above embodiment, each of the base oil conveying pipes 1 has a bypass line 8, an input end of the bypass line 8 is located between the flow meter 3 and the flow control valve 5 on the base oil conveying pipe 1, and all the bypass lines 8 are provided with valve switches 9.

As a further aspect of the above embodiment, all the flow control valves 5 have a manual control structure.

Of course, the present invention may have other embodiments, and those skilled in the art may make various corresponding changes and modifications according to the present invention without departing from the spirit and the essence of the present invention, and these corresponding changes and modifications should fall within the protection scope of the appended claims.

Claims (8)

1. An online oil blending system which is characterized in that: including base oil conveyer pipe (1) and mediation hybrid tube (2), base oil conveyer pipe (1) includes 2 at least, all the output of base oil conveyer pipe (1) all with the input intercommunication of mediation hybrid tube (2), all be provided with flow control valve (5), flow ratio controller (4) and flowmeter (3) on base oil conveyer pipe (1), each on base oil conveyer pipe (1) flow control valve (5) set up on it flowmeter (3) with between mediation hybrid tube (2), each on base oil conveyer pipe (1) flowmeter (3) with flow control valve (5) all correspond rather than on flow ratio controller (4) communicate, each flow ratio controller (4) are through its place correspond on base oil conveyer pipe (1) flowmeter (3) measured data control its place And the corresponding flow control valve (5) is arranged on the base oil conveying pipe (1).

2. The on-line oil blending system of claim 1, wherein: the base oil conveying pipe flow control system is characterized by further comprising control equipment (7), wherein the flow meters (3) and the flow ratio controllers (4) on the base oil conveying pipes (1) are communicated with the control equipment (7), and the flow ratio controllers (4) control the corresponding flow control valves (5) on the base oil conveying pipes (1) through data measured by the corresponding flow meters (3) on the base oil conveying pipes (1) where the flow meters are located and preset values of the control equipment (7).

3. The on-line oil blending system of claim 1, wherein: the device also comprises a storage tank (6), and the output end of the blending and mixing pipe (2) is communicated with the storage tank (6).

4. The on-line oil blending system of claim 1, wherein: each all have bypass pipeline (8) on base oil conveyer pipe (1), the input of bypass pipeline (8) is in its place on base oil conveyer pipe (1) flowmeter (3) with between flow control valve (5), all be provided with valve switch (9) on bypass pipeline (8).

5. The on-line oil blending system of claim 1, wherein: the inner wall of the mixing and mixing pipe (2) is provided with spiral flow guide lines, and the flow guide lines are used for enabling fluid in the mixing and mixing pipe (2) to generate rotational flow.

6. The on-line oil blending system of claim 1, wherein: and the input end and the output end of the flow control valve (5) are both provided with a shower guiding device.

7. The on-line oil blending system of claim 1, wherein: the input end and the output end of the flow control valve (5) are both provided with a reducing device.

8. The on-line oil blending system of claim 1, wherein: all the flow control valves (5) have a manual control structure.

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