CN219346219U - Intelligent pressure monitoring nitrogen skid-mounted device - Google Patents

Abstract

The utility model discloses an intelligent pressure monitoring nitrogen skid-mounted device, which relates to the technical field of nitrogen cylinder group gas supply and comprises the following components: integrating an integrated nitrogen cylinder group, a high-pressure gas loop and a low-pressure gas loop; the output end of the integrated nitrogen cylinder group is connected with the input end of the high-pressure gas loop, and the output end of the high-pressure gas loop is connected with the input end of the low-pressure gas loop; the high-pressure gas loop is used for regulating the high-pressure gas output by the integrated nitrogen cylinder group into low-pressure gas and outputting the low-pressure gas to the low-pressure gas loop; the low-pressure gas loop is used for outputting the low-pressure gas after pressure regulation; the high-pressure gas loop and the low-pressure gas loop are respectively provided with a pressure gauge; the utility model realizes nitrogen pressure monitoring and nitrogen decompression and pressure overpressure protection.

Description

Intelligent pressure monitoring nitrogen skid-mounted device

Technical Field

The utility model relates to the technical field of nitrogen cylinder group gas supply, in particular to intelligent pressure monitoring, decompression and overpressure protection gas source supply, and specifically relates to an intelligent pressure monitoring nitrogen skid-mounted device.

Background

The statements in this section merely provide background information related to the present disclosure and may not constitute prior art.

Most production control equipment generally requires an additional power source in order to ensure the normal operation of the equipment; the conventional power air source is provided for the air compressor at present, is positioned in a city and urban and rural integrated area with sufficient electric power, and is not applicable to remote mountain areas, desert areas and the like.

The nitrogen skid-mounted device is an important device for air source supply of oilfield generation equipment, can provide power source for energy storage, provides a power source for production control equipment, effectively ensures safe operation of equipment in remote areas or places where air source power does not exist, and can provide a quick, convenient and effective solution; but the nitrogen skid-mounted device at present lacks of own monitoring and protecting functions.

Disclosure of Invention

The utility model aims at: aiming at the problems in the background art, the intelligent pressure monitoring nitrogen skid-mounted device is provided, the monitoring and protecting device and the nitrogen skid-mounted device are integrally designed, the nitrogen pressure monitoring, the nitrogen pressure reducing and the pressure overpressure protecting are realized, and therefore the problems are solved.

The technical scheme of the utility model is as follows:

an intelligent pressure monitoring nitrogen skid-mounted, comprising: integrating an integrated nitrogen cylinder group, a high-pressure gas loop and a low-pressure gas loop;

the output end of the integrated nitrogen cylinder group is connected with the input end of the high-pressure gas loop, and the output end of the high-pressure gas loop is connected with the input end of the low-pressure gas loop;

the high-pressure gas loop is used for regulating the high-pressure gas output by the integrated nitrogen cylinder group into low-pressure gas and outputting the low-pressure gas to the low-pressure gas loop; the low-pressure gas loop is used for outputting the low-pressure gas after pressure regulation;

the high-pressure gas loop and the low-pressure gas loop are provided with pressure gauges.

Further, the high pressure gas circuit includes:

a high-pressure gauge and a pressure regulating valve which are connected in sequence; the high-pressure gauge is used for displaying the pressure value of the high-pressure gas input into the high-pressure gas loop, and the pressure regulating valve is used for regulating the pressure of the high-pressure gas into low-pressure gas.

Further, the high pressure gas circuit further includes:

the filter is arranged in front of the high-pressure manometer and plays a role in filtering.

Further, the low pressure gas circuit includes:

the low-pressure manometer and the ball valve are connected in sequence; the low-pressure gauge is used for displaying the pressure value of the low-pressure gas input into the low-pressure gas loop, and the ball valve is used for controlling the output of the low-pressure gas.

Further, the low pressure gas circuit further includes:

and the pressure relief valve is arranged behind the ball valve.

Further, the integrated nitrogen cylinder group includes:

the nitrogen cylinder group comprises at least two nitrogen cylinders, and the output of each nitrogen cylinder after being connected in parallel is connected with the high-pressure gas loop through a first branch.

Further, the integrated nitrogen cylinder group further includes:

and the pressure transmitter is connected with the pressure transmitter through a branch II after the nitrogen cylinders are connected in parallel, and converts pressure signals of high-pressure gas output by the nitrogen cylinders after the nitrogen cylinders are connected in parallel into electric signals.

Further, the integrated nitrogen cylinder group further includes:

and the output of each nitrogen cylinder after being connected in parallel is connected with the discharge valve through a branch III.

Compared with the prior art, the utility model has the beneficial effects that:

an intelligent pressure monitoring nitrogen skid-mounted, comprising: integrating an integrated nitrogen cylinder group, a high-pressure gas loop and a low-pressure gas loop; the output end of the integrated nitrogen cylinder group is connected with the input end of the high-pressure gas loop, and the output end of the high-pressure gas loop is connected with the input end of the low-pressure gas loop; the high-pressure gas loop is used for regulating the high-pressure gas output by the integrated nitrogen cylinder group into low-pressure gas and outputting the low-pressure gas to the low-pressure gas loop; the low-pressure gas loop is used for outputting the low-pressure gas after pressure regulation; the high-pressure gas loop and the low-pressure gas loop are respectively provided with a pressure gauge; therefore, the nitrogen pressure monitoring, nitrogen decompression and pressure overpressure protection are realized.

Drawings

FIG. 1 is a schematic diagram of an intelligent pressure monitoring nitrogen skid-mounted system.

Reference numerals: 1-nitrogen cylinder group, 2-pressure transmitter, 3-filter, 4-high pressure gauge, 5-pressure regulating valve, 6-low pressure gauge, 7-ball valve, 8-relief valve, 9-relief valve.

Detailed Description

It is noted that relational terms such as "first" and "second", and the like, are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article, or apparatus that comprises the element.

The features and capabilities of the present utility model are described in further detail below in connection with examples.

Example 1

Referring to fig. 1, an intelligent pressure monitoring nitrogen skid-mounted device includes:

the integrated nitrogen cylinder group 1, the high-pressure gas loop and the low-pressure gas loop are integrated;

the output end of the integrated nitrogen cylinder group 1 is connected with the input end of a high-pressure gas loop, and the output end of the high-pressure gas loop is connected with the input end of a low-pressure gas loop;

the high-pressure gas loop is used for regulating the high-pressure gas output by the integrated nitrogen cylinder group 1 into low-pressure gas and outputting the low-pressure gas to the low-pressure gas loop; the low-pressure gas loop is used for outputting the low-pressure gas after pressure regulation;

the high-pressure gas loop and the low-pressure gas loop are respectively provided with a pressure gauge;

preferably, the integrated skid frame is further included, the integrated skid frame can be specifically designed according to specific size requirements and installation requirements, and is mainly used for installing and fixing all components in the integrated nitrogen cylinder group 1, the high-pressure gas loop and the low-pressure gas loop, and a person skilled in the art can complete the design and preparation of the integrated skid frame without performing creative labor, and details are not repeated here.

In this embodiment, specifically, the high-pressure gas circuit includes:

a high-pressure gauge 4 and a pressure regulating valve 5 which are connected in sequence; the high-pressure gauge 4 is used for displaying the pressure value of the high-pressure gas input into the high-pressure gas circuit, and the pressure regulating valve 5 is used for regulating the pressure of the high-pressure gas into low-pressure gas.

In this embodiment, specifically, the high-pressure gas circuit further includes:

and a filter 3, wherein the filter 3 is arranged in front of the high-pressure gauge 4 and is used for filtering.

In this embodiment, specifically, the low-pressure gas circuit includes:

the low-pressure gauge 6 and the ball valve 7 are connected in sequence; the low-pressure gauge 6 is used for displaying the pressure value of the low-pressure gas input into the low-pressure gas loop, and the ball valve 7 is used for controlling the output of the low-pressure gas; specifically, the output of the ball valve 7 is externally connected with an external output air source.

In this embodiment, specifically, the low-pressure gas circuit further includes:

and a pressure relief valve 8, wherein the pressure relief valve 8 is arranged behind the ball valve 7.

In this embodiment, specifically, the integrated nitrogen cylinder set 1 includes:

the nitrogen cylinder group 1 comprises at least two nitrogen cylinders, and the output of each nitrogen cylinder after being connected in parallel is connected with a high-pressure gas loop through a first branch.

In this embodiment, specifically, the integrated nitrogen cylinder group 1 further includes:

the output of each nitrogen cylinder after being connected in parallel is connected with the pressure transmitter 2 through a branch II, and the pressure transmitter 2 converts a pressure signal of high-pressure gas output by each nitrogen cylinder after being connected in parallel into an electric signal; through the pressure transmitter 2, after converting the pressure signal into the electrical signal, output to control center, can carry out pressure real-time supervision by control center.

In this embodiment, specifically, the integrated nitrogen cylinder group 1 further includes:

and the discharge valve 9 is connected with the output of each nitrogen cylinder after being connected in parallel through a branch III, and the output of each nitrogen cylinder is connected with the discharge valve 9.

Through the structure, the embodiment realizes nitrogen pressure monitoring, nitrogen decompression and pressure overpressure protection.

The foregoing examples merely represent specific embodiments of the present application, which are described in more detail and are not to be construed as limiting the scope of the present application. It should be noted that, for those skilled in the art, several variations and modifications can be made without departing from the technical solution of the present application, which fall within the protection scope of the present application.

This background section is provided to generally present the context of the present utility model and the work of the presently named inventors, to the extent it is described in this background section, as well as the description of the present section as not otherwise qualify as prior art at the time of filing, are neither expressly nor impliedly admitted as prior art against the present utility model.

Claims (6)

1. An intelligent pressure monitoring nitrogen skid-mounted, characterized by comprising: integrating an integrated nitrogen cylinder group, a high-pressure gas loop and a low-pressure gas loop;

the output end of the integrated nitrogen cylinder group is connected with the input end of the high-pressure gas loop, and the output end of the high-pressure gas loop is connected with the input end of the low-pressure gas loop;

the high-pressure gas loop is used for regulating the high-pressure gas output by the integrated nitrogen cylinder group into low-pressure gas and outputting the low-pressure gas to the low-pressure gas loop; the low-pressure gas loop is used for outputting the low-pressure gas after pressure regulation;

the high-pressure gas loop and the low-pressure gas loop are respectively provided with a pressure gauge;

the high pressure gas circuit includes:

a high-pressure gauge and a pressure regulating valve which are connected in sequence; the high-pressure gauge is used for displaying the pressure value of the high-pressure gas input into the high-pressure gas loop, and the pressure regulating valve is used for regulating the pressure of the high-pressure gas into low-pressure gas;

the high pressure gas circuit further comprises:

the filter is arranged in front of the high-pressure manometer and plays a role in filtering.

2. The intelligent pressure monitoring nitrogen skid of claim 1, wherein said low pressure gas loop comprises:

the low-pressure manometer and the ball valve are connected in sequence; the low-pressure gauge is used for displaying the pressure value of the low-pressure gas input into the low-pressure gas loop, and the ball valve is used for controlling the output of the low-pressure gas.

3. The intelligent pressure monitoring nitrogen skid of claim 2, wherein said low pressure gas loop further comprises:

and the pressure relief valve is arranged behind the ball valve.

4. The intelligent pressure monitoring nitrogen skid of claim 1, wherein said integrated nitrogen cylinder set comprises:

the nitrogen cylinder group comprises at least two nitrogen cylinders, and the output of each nitrogen cylinder after being connected in parallel is connected with the high-pressure gas loop through a first branch.

5. The intelligent pressure monitoring nitrogen skid of claim 4, wherein said integrated nitrogen cylinder stack further comprises:

and the pressure transmitter is connected with the pressure transmitter through a branch II after the nitrogen cylinders are connected in parallel, and converts pressure signals of high-pressure gas output by the nitrogen cylinders after the nitrogen cylinders are connected in parallel into electric signals.

6. The intelligent pressure monitoring nitrogen skid of claim 4, wherein said integrated nitrogen cylinder stack further comprises:

and the output of each nitrogen cylinder after being connected in parallel is connected with the discharge valve through a branch III.

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