CN212365164U - Oil gas pipeline landslide monitoring facilities - Google Patents

Abstract

The utility model provides an oil gas pipeline landslide monitoring facilities, include: the monitoring device comprises a hollow I-shaped upright post, a movable I-shaped upright post and an integrated monitoring device; the hollow I-shaped upright post is provided with a hollow groove, and the movable I-shaped upright post is arranged in the hollow groove of the hollow I-shaped upright post; the integrated monitoring device is arranged on the movable I-shaped upright post; the hollow I-shaped upright post is provided with a plurality of through holes, the movable I-shaped upright post is provided with a plurality of through holes, and the through holes of the hollow I-shaped upright post and the movable I-shaped upright post are simultaneously penetrated and arranged through bolts so as to be connected with the hollow I-shaped upright post and the movable I-shaped upright post. The utility model discloses oil gas pipeline landslide monitoring facilities light in weight, small, simple structure, loading and unloading are convenient.

Description

Oil gas pipeline landslide monitoring facilities

Technical Field

The utility model relates to an oil gas pipeline landslide disaster prevention and cure technical field especially relates to an oil gas pipeline landslide monitoring facilities.

Background

In recent years, the economic development of China is rapid, and the demand for oil and gas resources is more urgent. With the development of the business of transporting western and east gas, a large number of oil and gas pipelines are continuously laid, but the western complex geological environment becomes a huge obstacle to the development of the oil and gas pipeline construction business in China, wherein landslide disasters are one of the main risk sources threatening the safety of the oil and gas pipelines. Compared with the landslide disaster, the method has the advantages that a large amount of manpower and financial resources are invested in treatment after the landslide disaster occurs, the geological condition along the line of the oil and gas pipeline laying is monitored in real time through professional monitoring means, the landslide disaster is early warned, the disaster is prevented from happening in the bud, the laying cost of the oil and gas pipeline can be reduced to the minimum, the construction economic investment of the oil and gas pipeline is reduced, and meanwhile, the life and property safety of people along the line of the pipeline is guaranteed. Therefore, the effective oil and gas pipeline landslide monitoring equipment for the landslide disasters along the oil and gas pipeline needs to be developed urgently to guarantee the normal and efficient development of oil and gas conveying work.

The fixed structure (upright post) of the existing oil and gas pipeline landslide monitoring equipment in China is mainly made of cylindrical metal materials, the whole weight and the size are large, the transportation and the installation are difficult, the adjustment is usually difficult after the installation and the forming, and the cost of the metal materials is high. In addition, the cylindrical column is generally small in diameter, and when the integrated monitoring device is complex or heavy, the stability of the integrated monitoring device is difficult to maintain.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

In view of the above, the main object of the present invention is to provide an oil and gas pipeline landslide monitoring device, so as to solve at least one of the above problems.

(II) technical scheme

In order to achieve the above object, according to the utility model discloses an aspect provides an oil gas pipeline landslide monitoring facilities, include: the monitoring device comprises a hollow I-shaped upright post, a movable I-shaped upright post and an integrated monitoring device;

wherein the hollow I-shaped upright post is provided with a hollow groove, and the movable I-shaped upright post is arranged in the hollow groove of the hollow I-shaped upright post;

the integrated monitoring device is arranged on the movable I-shaped upright post;

the hollow I-shaped upright post is provided with a plurality of through holes, the movable I-shaped upright post is provided with a plurality of through holes, and the through holes of the hollow I-shaped upright post and the movable I-shaped upright post are simultaneously penetrated and arranged through bolts so as to be connected with the hollow I-shaped upright post and the movable I-shaped upright post.

Further, the hollow I-shaped upright post is a reinforced concrete upright post, and the movable I-shaped upright post is a wood upright post.

Further, the integrated monitoring device is fixed on the movable I-shaped stand column through a bolt penetrating through the through hole of the movable I-shaped stand column.

The movable H-shaped upright post and the hollow H-shaped upright post are axially provided with a plurality of H-shaped grooves, and the lock is inserted along the opening of the H-shaped grooves to lock the opening of the H-shaped grooves.

Further, the mobile H-shaped column comprises a data transmission line which is arranged in the H-shaped grooves of the mobile H-shaped column and the hollow H-shaped column.

Further, the monitoring device further comprises a rubber pad arranged at the contact part of the integrated monitoring device and the movable I-shaped stand column.

Further, the plurality of through holes of the movable i-shaped column are arranged in a plurality of rows, and each row of through holes is uniformly arranged along the axial direction of the movable i-shaped column;

the plurality of through holes of the hollow I-shaped stand column are arranged in multiple rows, and each row of through holes are evenly arranged along the axial direction of the hollow I-shaped stand column.

Furthermore, the integrated monitoring device comprises a solar power supply device and an integrated integration box; the solar power supply is arranged on one of the rows of through holes of the movable I-shaped upright post, and the integrated integration box is arranged on the other row of the rows of through holes of the movable I-shaped upright post.

Further, the latch is made of metal, and the bolt is made of austenitic stainless steel.

Further, the hollow I-shaped column comprises a concrete foundation which is used for supporting and fixing the hollow I-shaped column.

(III) advantageous effects

According to the above technical scheme, the utility model discloses oil gas pipeline landslide monitoring facilities has one of them of following beneficial effect at least:

(1) the wood movable I-shaped stand column is light in weight, convenient to move, install and disassemble, and capable of being disassembled when no monitoring requirement exists, so that the service life of the oil and gas pipeline landslide monitoring equipment is prolonged, the monitoring of the oil and gas pipeline landslide disaster is realized functionally, and the loss of the monitoring equipment is reduced;

(2) the concrete hollow I-shaped upright post is adopted, so that the cross section area is large, the strength is high, and the stability of the upright post is improved; and all the upright posts have the same style, so that industrial flow production can be realized, and the production efficiency is improved;

(3) the movable I-shaped upright post penetrates through the through hole through the bolt to be fixed in the hollow I-shaped upright post, so that the height can be adjusted according to the specific situation on site, and the optimal monitoring effect can be achieved according to local conditions;

(4) the integrated monitoring device can be fixed on the movable I-shaped upright column in advance, and the movable upright column is directly arranged in the hollow I-shaped upright column during field installation, so that the equipment installation process is simplified, and the equipment loading and unloading efficiency is improved;

(5) the data transmission line is arranged in the tool-shaped groove, so that the exposed area and time of the data line are reduced, and the aging of the monitoring equipment is slowed down.

Drawings

In order to more clearly explain the technical solution of the example technology of the present invention, the description will be made with reference to the accompanying drawings. It is obvious that the drawings described below are only some embodiments of the invention, and that for a person skilled in the art, other embodiments and drawings can also be obtained from the embodiments shown in the drawings.

Fig. 1 is the utility model discloses oil gas pipeline landslide monitoring facilities elevation.

Fig. 2 is the utility model discloses oil gas pipeline landslide monitoring facilities side view.

Fig. 3 is a schematic cross-sectional view of the oil-gas pipeline landslide monitoring device i-shaped column 1-1 according to the embodiment of the present invention.

Fig. 4 is the utility model discloses oil gas pipeline landslide monitoring facilities i-shaped stand 2-2 cross-sectional cut-away structure sketch map.

Fig. 5 is a schematic cross-sectional view of the section of the oil-gas pipeline landslide monitoring device i-shaped column 3-3 according to the embodiment of the present invention.

< description of reference >

01-movable I-shaped upright post, 02-bolt, 03-solar power supply equipment, 04-integrated integration box, 05-hollow I-shaped upright post, 06-latch, 07-through hole, 08-concrete foundation and 09-rubber pad.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in detail with reference to the accompanying drawings.

The utility model provides an oil gas pipeline landslide monitoring facilities, include: the monitoring device comprises a hollow I-shaped upright post, a movable I-shaped upright post and an integrated monitoring device; wherein the content of the first and second substances,

the hollow I-shaped upright post is provided with a hollow groove, and the movable I-shaped upright post is arranged in the hollow groove of the hollow I-shaped upright post;

the integrated monitoring device is arranged on the movable I-shaped upright post;

the hollow I-shaped upright post is provided with a plurality of through holes, the movable I-shaped upright post is provided with a plurality of through holes, and the through holes of the hollow I-shaped upright post and the movable I-shaped upright post are simultaneously penetrated and arranged through bolts so as to be connected with the hollow I-shaped upright post and the movable I-shaped upright post.

The integrated monitoring device is arranged on the movable I-shaped upright post through hole in a penetrating mode through a bolt and fixed on the movable I-shaped upright post.

Therefore, the integrated monitoring device of the oil-gas pipeline landslide monitoring equipment can be fixed on the movable I-shaped stand column in advance, and the movable stand column is directly fixed in the hollow I-shaped stand column through field installation, so that the equipment installation process is simplified, and the equipment loading and unloading efficiency is improved; and the movable I-shaped upright post penetrates through the through hole through the bolt to be fixed in the hollow I-shaped upright post, so that the height of the fixing device can be adjusted according to the specific situation on site, and the optimal monitoring effect can be achieved according to local conditions.

The hollow I-shaped upright post is a reinforced concrete upright post, and the movable I-shaped upright post is a wood upright post. The wood movable I-shaped stand column is light in weight, convenient to move, install and disassemble and capable of being disassembled in seasons without monitoring requirements, the service life of the integrated monitoring device is prolonged, functionally, the monitoring of landslide disasters of the oil and gas pipeline is realized, and the loss of the integrated monitoring device is reduced; the concrete I-shaped upright post is selected, the cross section area of the upright post is large, the strength is high, and the stability of the upright post is improved.

Furthermore, the oil and gas pipeline landslide monitoring equipment also comprises a latch, a rubber pad and a data transmission line; a plurality of I-shaped grooves are formed in the axial direction of the movable I-shaped stand column and the hollow I-shaped stand column, and the clamping lock is inserted along the opening of the I-shaped groove to lock the opening of the I-shaped groove; the data transmission line is arranged in the H-shaped grooves of the movable H-shaped upright post and the hollow H-shaped upright post; the data transmission line is arranged at the contact part of the integrated monitoring device and the movable I-shaped upright post. Because the data transmission line can be placed in the I-shaped groove, the exposed area and time of the data line can be reduced, and the aging of the integrated monitoring equipment is slowed down.

The embodiment of the utility model provides an oil gas pipeline landslide monitoring facilities is described in detail below with reference to fig. 1-5. As shown in fig. 1 to 5, the oil and gas pipeline landslide monitoring device includes a movable i-shaped upright 01, a hollow i-shaped upright 05 and an integrated monitoring device. The integrated monitoring device comprises a solar power supply device 03 and an integrated integration box 04. The movable I-shaped column and the hollow I-shaped column are connected through a bolt 02, and the solar power supply equipment and the integrated integration box are also connected with the movable I-shaped column through the bolt 02. Wherein the movable I-shaped upright post for adjusting the placement height of the integrated monitoring device can be embedded into the hollow I-shaped upright post and fixed by inserting a bolt into the through hole.

Specifically, the hollow I-shaped upright post is a reinforced concrete upright post and a movable I-shaped upright post position wood upright post. The hollow i-shaped upright is provided with a hollow groove, and the movable i-shaped upright extends into the hollow groove of the hollow i-shaped upright along the opening of the hollow groove. A plurality of through holes 07 are opened on the movable i-shaped column and the hollow i-shaped column along the axial direction of the movable i-shaped column and the hollow i-shaped column (the axial direction is the vertical direction of the hollow i-shaped column), bolts are placed in the through holes of the movable i-shaped column and the hollow i-shaped column to connect the hollow i-shaped column and the movable i-shaped column, and bolts are placed in the through holes of the movable i-shaped column to fix the solar power supply device and the integrated integration box on the movable i-shaped column. The bolts are made of austenitic stainless steel materials suitable for the through holes of the I-shaped stand columns.

And a rubber pad 09 is arranged at the contact part of the solar power supply equipment, the integrated integration box and the movable I-shaped upright post, and is used for increasing elasticity and reducing equipment damage.

A plurality of I-shaped grooves perpendicular to the axial direction are formed in the movable I-shaped stand column and the hollow I-shaped stand column along the axial direction of the movable I-shaped stand column and the hollow I-shaped stand column, and the openings of the I-shaped grooves are locked by inserting open grooves formed in the I-shaped grooves along the axial direction through the locking blocks 06. The lock is made of metal materials including a galvanized pipe and a steel pipe. Preferably, the data transmission line of the integrated monitoring device is disposed in the tool-shaped groove of the movable i-shaped column and the hollow i-shaped column, and is connected with the data acquisition, display and transmission device.

In this embodiment, the installation height of the solar power supply device and the installation height of the integrated integration box can be adjusted, specifically, the installation height of the solar power supply device and the integrated integration box can be changed by changing the positions of the solar power supply device and the integrated integration box mounted on the movable i-shaped column through different through holes of the movable i-shaped column through which the bolts penetrate, and the installation height of the integrated integration box can also be changed by changing the connection position of the movable i-shaped column and the hollow i-shaped column through different through holes of the movable i-shaped column and the hollow i-shaped column through which the bolts penetrate. Preferably, the placement height of the integrated monitoring device is 2-4 m, so that the best solar energy obtaining effect can be achieved.

In this embodiment, the hollow i-shaped column and the movable i-shaped column are provided with a plurality of rows of through holes, and each row of through holes is uniformly arranged along the axial direction of the hollow i-shaped column and the movable i-shaped column. Of course, only one row of through holes may be provided as desired.

In addition, this embodiment oil gas pipeline landslide monitoring facilities can also further include concrete foundation 08, sets up and predetermines the position at oil gas pipeline deformation monitoring, predetermine the relevant research result of oil gas pipeline landslide prevention and cure engineering that the position accessible was carried out in advance and obtain. The concrete foundation is embedded into the hollow I-shaped upright post and is used for supporting and fixing the embedded I-shaped upright post. The hollow I-shaped column is embedded into a concrete foundation buried underground, and the extending depth of the hollow I-shaped column can be determined according to the actual situation on site, and can be set to be not less than 80cm for example. The concrete foundation can be a cylinder or a cube, the diameter of the cylinder can be 80cm, and the side length of the cube can be 70 cm.

Preferably, the bolt holes of the solar power supply device and the integrated integration box are suitable for the arrangement form of the through holes of the movable I-shaped upright posts, and the fixing bolts are inserted into the through holes of the movable I-shaped upright posts and the bolt holes of the solar power supply device and the integrated integration box for fixing. The size of the movable I-shaped upright post is slightly smaller than that of the hollow groove in the hollow I-shaped upright post, so that the movable I-shaped upright post can be better embedded into the hollow I-shaped upright post and is inserted into the through hole for fixation through the fixing bolt. In practical application, the height of the integrated monitoring device and the height of the stand column can be adjusted according to the actual requirements of field monitoring.

The following describes the manufacturing process of the embodiment of the present invention, and the manufacturing process includes:

a1, prefabricating the concrete hollow I-shaped column and the wood structure movable I-shaped column, uniformly arranging through holes in the two columns, and arranging one or more columns according to actual requirements.

The steps can realize industrial streamlined production of the two I-shaped columns, improve the production efficiency and reduce the time cost and the capital investment.

And A2, adopting concrete to pour a compact concrete foundation, and inserting the hollow I-shaped upright posts into the concrete foundation and reinforcing the concrete foundation.

A3, placing bolts in the through holes of the movable I-shaped stand columns to fix the oil-gas pipeline landslide integrated monitoring device in advance, and placing rubber pads at the contact positions of the integrated monitoring device and the I-shaped stand columns.

A4, placing bolts in the through holes of the hollow I-shaped upright posts to fix the movable I-shaped upright posts of the oil and gas pipeline landslide monitoring equipment in advance.

And A5, adjusting the placement height of the monitoring device according to the actual situation of the monitoring site.

A6, after height adjustment, a latch is placed on top of the active drum column to lock the drum column opening.

The utility model discloses thereby adjustable integrated monitoring devices set up the height and reach the best acquisition effect of solar energy in order to adapt to the site environment to can be fixed in integrated monitoring devices in advance on the activity i-shaped stand again with its whole hollow groove of arranging hollow i-shaped stand in, also can be in the maintenance of dismantling activity i-shaped stand and integrated monitoring devices wholly in risk-free season, improved integrated monitoring devices's loading and unloading and availability factor, prolonged its life, reduced oil gas pipeline landslide calamity's prevention and cure cost. In addition, the oil gas pipeline landslide calamity mainly takes place in rainy season, and other monitoring devices in season can not effectively exert an effect, the utility model discloses the example adopts wooden activity i-shaped stand, light convenient to detach, and rainy season is used for oil gas pipeline landslide calamity monitoring, does not have the monitoring demand to pull down it in season, has both played landslide calamity monitoring effect, has reduced integrated monitoring device again and has arranged outdoor time in, has prolonged the life of equipment, has reduced landslide calamity monitoring cost. Furthermore, the concrete I-shaped upright post is adopted, the cross section area of the upright post is large, the strength is high, and the stability of the upright post is improved.

The above-mentioned embodiments, further detailed description of the objects, technical solutions and advantages of the present invention, it should be understood that the above-mentioned embodiments are only specific embodiments of the present invention, and are not intended to limit the present invention, and any modifications, equivalent substitutions, improvements, etc. made within the spirit and principle of the present invention should be included in the scope of the present invention.

Claims (10)

1. The utility model provides an oil and gas pipeline landslide monitoring facilities which characterized in that includes: the monitoring device comprises a hollow I-shaped upright post, a movable I-shaped upright post and an integrated monitoring device; wherein the content of the first and second substances,

the hollow I-shaped upright post is provided with a hollow groove, and the movable I-shaped upright post is arranged in the hollow groove of the hollow I-shaped upright post;

the integrated monitoring device is arranged on the movable I-shaped upright post;

the hollow I-shaped upright post is provided with a plurality of through holes, the movable I-shaped upright post is provided with a plurality of through holes, and the through holes of the hollow I-shaped upright post and the movable I-shaped upright post are simultaneously penetrated and arranged through bolts so as to be connected with the hollow I-shaped upright post and the movable I-shaped upright post.

2. The oil and gas pipeline landslide monitoring device of claim 1, wherein said hollow i-shaped column is a reinforced concrete column and said movable i-shaped column is a wood column.

3. The oil and gas pipeline landslide monitoring device of claim 1, wherein said integrated monitoring device is secured to said mobile i-column by bolting through said mobile i-column through hole.

4. The oil and gas pipeline landslide monitoring device of claim 1, further comprising a latch, wherein a plurality of i-shaped grooves are formed in the axial direction of the movable i-shaped column and the hollow i-shaped column, and the latch is inserted along the opening of the i-shaped groove to lock the opening of the i-shaped groove.

5. The oil and gas pipeline landslide monitoring device of claim 4, further comprising a data transmission line disposed in said i-shaped grooves of said active i-shaped column and said hollow i-shaped column.

6. The oil and gas pipeline landslide monitoring device of claim 1, further comprising a rubber pad disposed at a contact location of the integrated monitoring device and the movable i-column.

7. The oil and gas pipeline landslide monitoring device of claim 1,

the plurality of through holes of the movable I-shaped stand column are arranged in multiple rows, and each row of through holes are uniformly arranged along the axial direction of the movable I-shaped stand column;

the plurality of through holes of the hollow I-shaped stand column are arranged in multiple rows, and each row of through holes are evenly arranged along the axial direction of the hollow I-shaped stand column.

8. The oil and gas pipeline landslide monitoring device of claim 7,

the integrated monitoring device comprises solar power supply equipment and an integrated integration box; the solar power supply is arranged on one of the rows of through holes of the movable I-shaped upright post, and the integrated integration box is arranged on the other row of the rows of through holes of the movable I-shaped upright post.

9. The oil and gas pipeline landslide monitoring device of claim 4, wherein said latch is metal and said bolt is austenitic stainless steel.

10. The oil and gas pipeline landslide monitoring device of any one of claims 1-9, further comprising a concrete foundation for supporting and securing said hollow i-column.

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