CN215712823U - Temporary chemical adding skid-mounted equipment - Google Patents

Abstract

The utility model relates to petroleum refining and chemical industry enterprises, in particular to temporary chemical adding equipment, which belongs to the technical field of temporary chemical adding equipment, and provides kinetic energy for a wind power mechanism through an air inlet pipeline, corrosion inhibitors enter a liquid outlet pipeline through the wind power mechanism through the liquid inlet pipeline, the corrosion inhibitors are injected into a normal pressure device through the liquid outlet pipeline, wherein a filtering mechanism is arranged on the liquid inlet pipeline and the air inlet pipeline, the filtering mechanism prevents impurities from entering the wind power mechanism to cause damage and influence the corrosion inhibitor injection construction, the wind power mechanism, the liquid inlet pipeline, the liquid outlet pipeline, the air inlet pipeline and the filtering mechanism are all skid-mounted on a skid base, then wheels are arranged at the bottom of the skid base, the whole temporary chemical adding skid-mounted equipment is conveniently moved to any normal pressure device needing temporary chemical adding to carry out chemical adding construction, the labor intensity of workers is reduced by adopting the temporary chemical adding equipment, the corrosion inhibitor adding efficiency is improved, meanwhile, the moving distance is convenient, the method is suitable for any construction needing adding the agent, and the applicability is strong.

Description

Temporary chemical adding skid-mounted equipment

Technical Field

The utility model relates to the technical field of temporary agent injection equipment in petroleum refining and chemical enterprises, in particular to temporary agent adding skid-mounted equipment.

Background

The neutralization corrosion inhibitor is an injection agent necessary for a normal pressure device, has strong neutralization capacity, can meet the requirement of corrosion prevention of equipment of a tower top system in the processing process of high-sulfur crude oil, and can obviously inhibit acid corrosion in an initial setting area. The PH value of the system is easy to be stably controlled, and the generated salt is easy to dissolve in water and does not generate solid deposition and under-deposit corrosion. Easy operation, low energy consumption, low equipment maintenance cost and high device safety.

The corrosion inhibitor raw agent is added into the normal pressure device in a manual filling mode, a worker lifts 25L/barrel of corrosion inhibitor to the inlet of the top of a raw agent tank with the height of 6 m through stairs, the dosage of the corrosion inhibitor added each time is 5 tons, the total amount is 200 barrels, the labor intensity of the worker is high, and potential safety hazards exist.

SUMMERY OF THE UTILITY MODEL

The utility model overcomes the defects of the prior art, provides temporary chemical adding skid-mounted equipment, and particularly has the characteristics of being capable of moving at any time, reducing the labor intensity of workers and improving the chemical adding efficiency of the corrosion inhibitor.

The technical problem solved by the utility model can be realized by adopting the following technical scheme:

the utility model provides a interim additive sled dress equipment, includes wind power mechanism, be provided with liquid inlet pipe way, play liquid pipeline and air-supply line on the wind power mechanism, all be provided with filter equipment on liquid inlet pipe way and the air-supply line.

Furthermore, a liquid flow cut-off mechanism is arranged on the liquid outlet pipeline.

Furthermore, the liquid inlet pipeline, the liquid outlet pipeline and the air inlet pipeline are all provided with flow control mechanisms.

Furthermore, flow control mechanism include first valve and second valve, first valve and second valve set up respectively on filtering mechanism's inlet pipeline and liquid outlet pipeline.

Furthermore, the flow control mechanism comprises a first valve and a second valve, and the first valve and the second valve are respectively arranged on a liquid inlet pipeline and a liquid outlet pipeline of the liquid flow cut-off mechanism.

Furthermore, the liquid flow cut-off mechanism is a regulating valve for controlling the liquid output or closing of the liquid outlet pipeline.

Furthermore, the filtering mechanism is a filtering device for filtering impurities in liquid in the liquid inlet pipeline and impurities in gas introduced into the air inlet pipeline, and the mesh number of a screen in the filtering device is 5-30 meshes.

Furthermore, the mesh number of the screen of the filtering device for filtering the impurities in the gas introduced into the air inlet pipeline is 5-20 meshes.

Furthermore, a liquid inlet hose is connected to a liquid inlet of the liquid inlet pipeline.

Further, still include the sled seat, sled seat bottom is provided with the wheel, is provided with brake mechanism on the wheel.

The utility model has the beneficial effects that:

compared with the prior art, the utility model provides kinetic energy for the wind power mechanism through the air inlet pipeline, the corrosion inhibitor enters the liquid outlet pipeline through the wind power mechanism through the liquid inlet pipeline, the corrosion inhibitor is injected into the normal pressure device through the liquid outlet pipeline, wherein the filtering mechanisms are arranged on the liquid inlet pipeline and the air inlet pipeline, the filtering mechanisms prevent impurities from entering the wind power mechanism to cause damage and influence the injection construction of the corrosion inhibitor, the wind power mechanism, the liquid inlet pipeline, the liquid outlet pipeline, the air inlet pipeline and the filtering mechanisms are all skid-mounted on the skid base, then wheels are mounted at the bottom of the skid base, the whole temporary additive skid-mounted equipment is conveniently moved to any normal pressure device needing temporary additive for additive construction, the labor intensity of workers is reduced by adopting the temporary additive skid-mounted equipment, the corrosion inhibitor additive efficiency is improved, and meanwhile, the moving distance is convenient for being applicable to any construction needing additive, the applicability is strong.

Drawings

The utility model is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of the present invention.

In the figure: 1-wind power mechanism, 2-liquid inlet pipeline, 3-liquid outlet pipeline, 4-wind inlet pipeline, 5-filtering mechanism, 6-liquid flow cut-off mechanism, 7-flow control mechanism, 8-first valve, 9-second valve, 10-pry seat and 11-wheel.

Detailed Description

The technical solution of the temporary chemical adding skid-mounted equipment provided by the embodiment of the present invention will be described in detail through several specific embodiments.

Referring to fig. 1, the skid-mounted temporary chemical adding equipment comprises a pneumatic power mechanism 1, wherein a liquid inlet pipeline 2, a liquid outlet pipeline 3 and an air inlet pipeline 4 are arranged on the pneumatic power mechanism 1, and a filtering mechanism 5 is arranged on each of the liquid inlet pipeline 2 and the air inlet pipeline 4.

In the embodiment, kinetic energy is provided for the wind power mechanism 1 through the air inlet pipeline 4, the corrosion inhibitor enters the liquid outlet pipeline 3 through the wind power mechanism 1 through the liquid inlet pipeline 2, the corrosion inhibitor is injected into the normal pressure device through the liquid outlet pipeline 3, the filtering mechanisms 5 are installed on the liquid inlet pipeline 2 and the air inlet pipeline 4, the filtering mechanisms 5 prevent impurities from entering the wind power mechanism 1 to be damaged and influence the injection construction of the corrosion inhibitor, the wind power mechanism 1 adopts a pneumatic pump, the power gas is nitrogen or purified air, and the air inlet pipeline 4 is temporarily connected with the air through an explosion-proof rubber tube to supply air.

Further, a liquid flow cut-off mechanism 6 is arranged on the liquid outlet pipe 3, the liquid flow cut-off mechanism 6 is used for controlling the output or closing of liquid in the liquid outlet pipe 3, and the liquid flow cut-off mechanism 6 adopts an adjusting valve.

Furthermore, the liquid inlet pipeline 2, the liquid outlet pipeline 3 and the air inlet pipeline 4 are all provided with a flow control mechanism 7.

Further, the flow control mechanism 7 includes a first valve 8 and a second valve 9, and the first valve 8 and the second valve 9 are respectively disposed on the liquid inlet pipeline and the liquid outlet pipeline of the filtering mechanism 5.

Flow control mechanisms 7 arranged on the liquid inlet pipeline 2, the liquid outlet pipeline 3 and the air inlet pipeline 4 in the above embodiment are used for controlling the flow input or output on each pipeline, each flow control mechanism 7 is composed of two identical valves and comprises a first valve 8 and a second valve 9, the first valve 8 and the second valve 9 are respectively arranged on a liquid inlet pipeline and a liquid outlet pipeline of the filtering mechanism 5 on the liquid inlet pipeline 2 and are used for respectively adjusting the flow of a liquid inlet and a liquid outlet of the filtering mechanism 5, or when one valve is damaged, the valve on the other side can be normally used for adjusting the flow, and the first valve 8 and the second valve 9 on the air inlet pipeline 4 are also used for controlling the flow of the power air.

Further, the flow control mechanism 7 includes a first valve 8 and a second valve 9, and the first valve 8 and the second valve 9 are respectively disposed on the liquid inlet pipeline and the liquid outlet pipeline of the liquid flow blocking mechanism 6.

Install first valve 8 and second valve 9 respectively on liquid flow cut-off mechanism 6's inlet pipeline and liquid outlet pipeline be convenient for the output size of controlled flow, also avoid one of them valve to damage simultaneously, another valve can also normally be controlled and used, also conveniently changes simultaneously.

Further, the liquid flow cut-off mechanism 6 is a regulating valve for controlling the liquid output or closing of the liquid outlet pipeline 3, the regulating valve is a hand valve, and the existing hand valve can be used in the utility model.

Furthermore, the filtering mechanism 5 is a filtering device for filtering impurities in liquid in the liquid inlet pipeline 2 and impurities in gas introduced into the air inlet pipeline 4, and the mesh number of a screen in the filtering device is 5-30 meshes.

Furthermore, the mesh number of the screen of the filtering device for filtering the impurities in the gas introduced into the air inlet pipeline 4 is 5-20 meshes.

In the above embodiment, the filter devices on the liquid inlet pipeline 2 and the air inlet pipeline can be normally used with the mesh number of 5-30, but in order to prolong the service life of the whole system, the filter devices on the air inlet pipeline are used with the mesh number of 5-20, which is smaller than the mesh number on the liquid inlet pipeline 2, so that the effect is optimal, and the wind power mechanism 1, namely the pneumatic pump, is not easily damaged.

Further, the inlet of feed liquor pipeline 2 department still be connected with the feed liquor hose, wherein also can connect out the liquid hose on liquid outlet pipe 3, the feed liquor hose all can adopt same kind of hose with a play liquid hose, be convenient for be connected with the input device and the liquid input device of liquid, also can set up the inlet and the liquid outlet of feed liquor pipeline 2 and liquid outlet pipe 3 at certain height when sled dress, satisfy the input device and the liquid input device's of liquid connection. The liquid input device is a corrosion inhibitor original agent packaging barrel, a hose can be directly inserted into the corrosion inhibitor original agent packaging barrel, and the liquid input device is an atmospheric device.

Further, still include sled seat 10, sled seat 10 bottom is provided with wheel 11, is provided with brake mechanism on the wheel 11.

A wind power mechanism 1, a liquid inlet pipeline 2, a liquid outlet pipeline 3, an air inlet pipeline 4 and a filtering mechanism 5 are all skid-mounted on a skid base 10, then wheels 11 are mounted at the bottom of the skid base 10, so that the whole temporary chemical adding skid-mounted equipment can be conveniently moved to any normal pressure device needing temporary chemical adding to carry out chemical adding construction, when the corresponding position is reached, a brake mechanism mounted on the wheels 11 is adopted to brake the wheels 11 to carry out construction, when the temporary chemical adding skid-mounted equipment needs to be moved again, the wheels 11 can be moved from the original position only by lifting the wheels 11 of the brake mechanism to release, the wheels 11 and the brake mechanism adopt the existing wheels, the brake wheels with the functions of the utility model can be applied, the temporary chemical adding skid-mounted equipment reduces the labor intensity of workers, improves the chemical adding efficiency of the corrosion inhibitor, and simultaneously facilitates the moving distance to be applicable to any construction needing chemical adding, the applicability is strong.

While the embodiments of the present invention have been described in detail with reference to the drawings, the present invention is not limited to the above embodiments, and various changes can be made without departing from the spirit of the present invention within the knowledge of those skilled in the art, and the scope of the present invention is within the scope of the claims.

It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.

Technical solutions between various embodiments may be combined with each other, but must be realized by those skilled in the art, and when the technical solutions are contradictory or cannot be realized, such a combination should not be considered to exist, and is not within the protection scope of the present invention.

Claims (10)

1. The utility model provides a interim stoker sled dress equipment which characterized by: the wind power generation device comprises a wind power mechanism (1), wherein a liquid inlet pipeline (2), a liquid outlet pipeline (3) and an air inlet pipeline (4) are arranged on the wind power mechanism (1), and filtering mechanisms (5) are arranged on the liquid inlet pipeline (2) and the air inlet pipeline (4).

2. The temporary additive skid-mounted device according to claim 1, wherein: and a liquid flow cut-off mechanism (6) is arranged on the liquid outlet pipeline (3).

3. The temporary topping-up skid device according to claim 1 or 2, wherein: and flow control mechanisms (7) are arranged on the liquid inlet pipeline (2), the liquid outlet pipeline (3) and the air inlet pipeline (4).

4. The temporary additive skid-mounted device according to claim 3, wherein: flow control mechanism (7) include first valve (8) and second valve (9), first valve (8) and second valve (9) set up respectively on the inlet pipeline and the liquid outlet pipeline of filter mechanism (5).

5. The temporary additive skid-mounted device according to claim 3, wherein: the flow control mechanism (7) comprises a first valve (8) and a second valve (9), wherein the first valve (8) and the second valve (9) are respectively arranged on a liquid inlet pipeline and a liquid outlet pipeline of the liquid flow cut-off mechanism (6).

6. The temporary topping-up skid device according to claim 2 or 5, wherein: the liquid flow cut-off mechanism (6) is an adjusting valve used for controlling the output or closing of liquid on the liquid outlet pipeline (3).

7. The temporary additive skid-mounted device of claim 4, wherein: the filtering mechanism (5) is a filtering device for filtering impurities in liquid in the liquid inlet pipeline (2) and impurities in gas introduced into the air inlet pipeline (4), and the mesh number of a screen in the filtering device is 5-30 meshes.

8. The temporary additive skid-mounted device of claim 7, wherein: the mesh number of the screen of the filtering device for filtering the impurities in the gas introduced into the air inlet pipeline (4) is 5-20 meshes.

9. The temporary additive skid-mounted device according to claim 1, wherein: the liquid inlet of the liquid inlet pipeline (2) is also connected with a liquid inlet hose.

10. The temporary additive skid-mounted device according to claim 1, wherein: still include sled seat (10), sled seat (10) bottom is provided with wheel (11), is provided with brake mechanism on wheel (11).

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