CN116274193A

CN116274193A - Rust-proof device of oil extraction valve

Info

Publication number: CN116274193A
Application number: CN202310413512.XA
Authority: CN
Inventors: 于刚; 韩雪萍; 曹兴涛; 赵昌龙; 侍超; 陈辉; 程亚运; 孟庆国; 樊如忠; 滕远
Original assignee: Jiangsu Maike Special Valve Technology Co ltd
Current assignee: Jiangsu Maike Special Valve Technology Co ltd
Priority date: 2023-04-18
Filing date: 2023-04-18
Publication date: 2023-06-23
Anticipated expiration: 2043-04-18
Also published as: CN116274193B

Abstract

The invention relates to the field of rust prevention of oil extraction valves, in particular to a rust prevention device of an oil extraction valve. The invention aims to provide an anti-rust device for an oil extraction valve, which can timely clean the oil extraction valve and prevent the interior of the valve from rusting. The aim of the invention is achieved by the following technical scheme: the utility model provides an oil recovery valve's rust-resistant device, includes concave type frame and the annular frame of fixed connection in concave type frame middle part both sides, two annular frame mirror image sets up, the middle part of concave type frame rotates and is connected with the rotary rod, the left side fixedly connected with motor I of rotary rod, and I fixedly connected with of motor is in the left side of concave type frame, the left and right sides at rotary rod middle part is a laminating frame of fixedly connected with respectively, two laminating frame rotates with the inboard of two annular frames respectively and is connected, two the upside of laminating frame adjacent one side is fixed respectively and is linked together there is the both ends of valve, two the downside of laminating frame adjacent one side is fixed respectively and is linked together there is the left and right sides of communicating pipe.

Description

Rust-proof device of oil extraction valve

Technical Field

The invention relates to the field of rust prevention of oil extraction valves, in particular to a rust prevention device of an oil extraction valve.

Background

The valve is a control part in a fluid medium conveying system, is used for the fluid medium control system, and is a valve with a relatively large variety and specification from a simplest stop valve to a very complex automatic control system, the oil extraction valve is one of the valves, the valve is periodically checked and periodically maintained to prevent rust and damage of the valve, and in the prior art, for example, an efficient sealing device for the oil extraction valve of application number 201821341233.8 can solve the problems that the internal structure of the used oil extraction valve is relatively simple, valve core is easily worn in the long-term use process, the sealing effect in a valve body is poor, leakage is generated, the general internal pressure is relatively large during crude oil extraction, the valve body is easily damaged, and the phenomenon of oil injection occurs.

Disclosure of Invention

The invention aims to provide an anti-rust device for an oil extraction valve, which can timely clean the oil extraction valve and prevent the interior of the valve from rusting.

The aim of the invention is achieved by the following technical scheme: the utility model provides an oil recovery valve's rust-resistant device, includes concave type frame and the annular frame of fixed connection in concave type frame middle part both sides, two annular frame mirror image sets up, the middle part of concave type frame rotates and is connected with the rotary rod, the left side fixedly connected with motor I of rotary rod, and I fixedly connected with of motor is in the left side of concave type frame, the left and right sides at rotary rod middle part is a laminating frame of fixedly connected with respectively, two laminating frame rotates with the inboard of two annular frames respectively and is connected, two the upside of laminating frame adjacent one side is fixed respectively and is linked together there is the both ends of valve, two the downside of laminating frame adjacent one side is fixed respectively and is linked together there is the left and right sides of communicating pipe.

And the two attaching frames are arranged in a mirror image mode.

And a quadrangle joint is respectively arranged on the upper side of the outer side of each annular frame.

The bottom of each annular frame is respectively provided with a through hole.

The inside of communicating pipe evenly fixedly connected with a plurality of sieve pieces.

Drawings

The invention will be described in further detail with reference to the accompanying drawings and detailed description.

FIG. 1 is a schematic view of a portion of the structure of a concave frame of the present invention;

FIG. 2 is a schematic view of a portion of a conformable frame according to the present invention;

FIG. 3 is a schematic view of a semi-sectional structure of a conformable frame of the present invention;

FIG. 4 is a schematic view showing a part of the structure of a communication pipe according to the present invention;

FIG. 5 is a schematic view showing a semi-sectional structure of a communication pipe according to the present invention;

FIG. 6 is a schematic view of a portion of the structure of the mobile frame of the present invention;

FIG. 7 is a schematic view of a part of the structure of a shower head according to the present invention;

FIG. 8 is an enlarged schematic view of the partial structure of FIG. 6 in accordance with the present invention;

FIG. 9 is a schematic view of a portion of the structure of a liquid storage barrel of the present invention;

fig. 10 and 11 are schematic views of the overall structure of the present invention.

In the figure: a concave frame 101; an annular frame 102; a rotating lever 103; a laminating frame 104; a valve 105; a motor I106; communication pipe 201; a screen sheet 202; a moving rack 301; a lead screw 302; motor ii 303; motor iii 304; a belt 305; a cleaning roller 306; a rotating rod 307; a nozzle 308; a liquid storage tank 401; a flow-through box 402.

Detailed Description

The working procedure according to the expression in figures 1-5 and 10, 11 is: in order to facilitate timely cleaning the oil extraction valve and prevent the interior of the valve from rusting, a concave frame 101 is further provided, an annular frame 102 is fixedly connected to the left side and the right side of the middle part of the concave frame 101 respectively through welding, and a pipeline for conveying the extracted oil is communicated with the outer sides of the upper sides of the two annular frames 102, further, an attaching frame 104 is connected to the inner sides of the two annular frames 102 in an embedded rotating manner respectively, so that the condition of no leakage of residual oil inside can occur when the two attaching frames 104 rotate with the two annular frames 102, at the moment, the upper sides of the inner sides of the two attaching frames 104 are respectively fixed through bolts and communicated with the two ends of the valve 105, so that the two ends of the valve 105 can normally control the circulating extracted oil through the valve 105 when the upper sides of the two annular frames 102 are in butt joint and the valve 105 is required to be subjected to rust-proof cleaning work regularly, the valve 105 is enabled to circularly move by taking the center of the two attaching frames 104 as the center, so that the position of the valve 105 is changed, the valve 105 is enabled to rotate to the lower sides of the two annular frames 102 to change the position, the interior of the valve 105 is cleaned in time, rust inside the valve 105 is prevented, the service life of the valve 105 is prolonged, the circular movement position of the valve 105 is adjusted, the middle part of the concave frame 101 is rotationally connected with a rotary rod 103, the left side and the right side of the middle part of the rotary rod 103 are respectively fixedly connected with the middle parts of the two attaching frames 104 through bolts, at the moment, the left side of the rotary rod 103 is fixedly connected with the output shaft of a motor I106 through a coupler, the motor I106 is fixedly connected to the left side of the concave frame 101 through bolts, the motor I106 is driven to enable the rotary rod 103 to stably rotate, and further the valve 105 is driven to uniformly circularly move, the motor I106 is a reducing motor, so that the interior of the valve 105 can be cleaned in time, rust in the valve 105 can be prevented, the service life of the valve 105 can be prolonged, the structure is simple, the use is convenient, and the effort is less;

the two ends of the valve 105 are respectively attached to the inner parts of the adjacent side surfaces of the two annular frames 102 for rotary connection and sliding.

The working procedure according to the expression in figures 1-5 and 10, 11 is: in order to facilitate the complete embedded rotation connection of the two attaching frames 104 and the two mirror-image arranged annular frames 102, the two attaching frames 104 are arranged in a mirror image manner synchronously.

The working procedure according to the expression in figures 1-5 and 10, 11 is: when the extracted oil flows to the outer sides of the two annular frames 102, a four-corner joint is fixedly connected to the outer sides of the upper sides of the two annular frames 102 through welding, so that the oil flowing pipelines can be conveniently butted.

The working procedure according to the expression in figures 1-5 and 10, 11 is: when the valve 105 moves circularly to the bottoms of the two annular frames 102 by means of the two attaching frames 104 to clean the interior of the valve 105 regularly, a through hole is machined in the bottoms of the two annular frames 102 by a machine tool, and when the valve 105 moves to the bottoms of the two annular frames 102, the interior of the valve 105 is cleaned conveniently by the two through holes, and the interior of the valve 105 is prevented from rusting.

The working procedure according to the expression in figures 1-5 and 10, 11 is: when the valve 105 moves to the bottom to perform regular cleaning, the original communicating pipe 201 positioned at the bottom of the two attaching frames 104 is positioned above the annular frame 102 to circulate oil, so that the valve 105 can be cleaned without affecting the circulation of the oil, and the circulating oil is further filtered through the plurality of sieve sheets 202 inside the communicating pipe 201, so that the purity of the circulating oil is conveniently improved, the impurities inside the communicating pipe are reduced, and then the function adjustment work is formed.

The bottom sliding connection of concave frame 101 has movable frame 301, and the front and back both sides of movable frame 301 upside are rotated respectively and are connected with a rotary rod 307, every on the rotary rod 307 all fixedly connected with clearance roller 306, two the right side of rotary rod 307 passes through belt 305 transmission connection, is located the rear side the right side fixedly connected with motor III 304 of rotary rod 307, motor III 304 fixed connection is on movable frame 301.

This part works according to what is expressed in fig. 1-11: when the valve 105 below the two annular frames 102 is cleaned, the driving motor III 304 enables the rotating rods 307 at the rear side to rotate, so that the two rotating rods 307 rotate synchronously under the transmission of the belt 305, the cleaning rollers 306 on the two rotating rods 307 rotate synchronously, the movable frame 301 moves leftwards at the moment, and the two cleaning rollers 306 with rough surfaces and rotating extend into the valve 105 through the through holes at the bottom of the annular frames 102, so that the interior of the valve 105 is cleaned timely, hidden danger that the valve 105 can rust after long-time use is prevented, and the service life of the valve 105 is prolonged synchronously.

Each of the cleaning rollers 306 is made of plastic and has a rough surface.

Every the inside cavity setting of rotary rod 307, every the right side of rotary rod 307 all is equipped with an aperture that upwards runs through, and two the right side of rotary rod 307 is rotated respectively and is connected in the front and back both sides of circulation frame 402, is located two the aperture on the circulation frame 402 all is located the inside of circulation frame 402, and the top of circulation frame 402 is fixed and is linked together has stock solution bucket 401, and stock solution bucket 401 fixed connection is at the top of removing the frame 301.

A nozzle 308 is fixedly connected to the left side of each rotary rod 307.

This part works according to what is expressed in fig. 1-11: the synchronous utilization inside hollow rotary rod 307 carries out the scour cleaning in advance to valve 105 inside through circulating cleaning solution when two cleaning rollers 306 stretch into the inside of valve 105, the cleaning solution is not detailed for prior art product, and then make the inside prestore a certain amount of cleaning solution of stock solution bucket 401, make the inside cleaning solution circulation of stock solution bucket 401 to circulate in the frame 402 that circulates, circulate the frame 402 and circulate the cleaning solution to its inside through the aperture on two rotary rod 307 right sides, and make the cleaning solution circulate under the rotatory work that does not influence every rotary rod 307, and then spout the cleaning solution through the shower nozzle 308 of every rotary rod 307 one side, make drive the cleaning roller 306 and get into valve 105 inside at the rotary rod 307 simultaneously in advance through shower nozzle 308 with the inside scour of valve 105 be convenient for improve the cleaning efficiency of cleaning roller 306 to valve 105 inside, further improvement prevents rusty operating mass.

The bottom of concave frame 101 rotates and is connected with lead screw 302, and the left side fixedly connected with motor II 303 of lead screw 302, motor II 303 fixed connection are in the bottom of concave frame 101, the bottom rear side of moving frame 301 is connected with the drive of lead screw 302.

This part works according to what is expressed in fig. 1-11: when the moving frame 301 drives the two cleaning rollers 306 to enter the valve 105, the driving motor II 303 enables the screw rod 302 to rotate, and when the screw rod 302 rotates, the moving frame 301 in threaded transmission connection with the screw rod 302 drives the two cleaning rollers 306 to enter the valve 105 to perform cleaning work.

Claims

1. The utility model provides an oil recovery valve's rust protection device, includes concave frame (101) and annular frame (102) of fixed connection in concave frame (101) middle part both sides, its characterized in that: two ring frame (102) mirror image sets up, the middle part of concave type frame (101) rotates and is connected with rotary rod (103), and the left side fixedly connected with motor I (106) of rotary rod (103), motor I (106) fixedly connected with are in the left side of concave type frame (101), the left and right sides at rotary rod (103) middle part is fixedly connected with laminating frame (104) respectively, two laminating frame (104) rotate with the inboard of two ring frame (102) respectively and are connected, two the upside of laminating frame (104) adjacent one side is fixed respectively and is linked together there is the both ends of valve (105), two the downside of laminating frame (104) adjacent one side is fixed respectively and is linked together there is the left and right sides of communicating pipe (201).

2. The rust prevention device for oil extraction valves according to claim 1, wherein: the two attaching frames (104) are arranged in a mirror image mode.

3. The rust prevention device for oil extraction valve according to claim 2, wherein: the upper side of the outer side of each annular frame (102) is respectively provided with a quadrangle joint.

4. A rust prevention apparatus for an oil extraction valve according to claim 3, characterized in that: the bottom of each annular frame (102) is provided with a through hole.

5. The rust prevention device for oil extraction valves according to claim 4, wherein: a plurality of sieve sheets (202) are uniformly and fixedly connected to the inside of the communicating pipe (201).

6. The rust prevention device for oil extraction valves according to claim 1, wherein: the bottom sliding connection of concave frame (101) has movable frame (301), and the front and back both sides of movable frame (301) upside are rotated respectively and are connected with rotary rod (307), every on rotary rod (307) all fixedly connected with clearance roller (306), two the right side of rotary rod (307) is passed through belt (305) transmission and is connected, is located the rear side the right side fixedly connected with motor III (304) of rotary rod (307), motor III (304) fixed connection is on movable frame (301).

7. The rust prevention apparatus for oil extraction valve according to claim 6, wherein: each cleaning roller (306) is made of plastic and has a rough surface.

8. The rust prevention apparatus for oil extraction valve according to claim 7, wherein: every the inside cavity setting of rotary rod (307), every the right side of rotary rod (307) all is equipped with a aperture that upwards runs through, and two the right side of rotary rod (307) is rotated respectively and is connected in the front and back both sides of circulation frame (402), is located two aperture on circulation frame (402) all are located the inside of circulation frame (402), and the top of circulation frame (402) is fixed and is linked together have stock solution bucket (401), and stock solution bucket (401) fixed connection is at the top of removing frame (301).

9. The rust prevention apparatus for oil extraction valve according to claim 8, wherein: the left side of each rotary rod (307) is fixedly connected with a spray head (308).

10. The rust prevention apparatus for oil extraction valve according to claim 9, wherein: the bottom of concave frame (101) rotates and is connected with lead screw (302), and the left side fixedly connected with motor II (303) of lead screw (302), motor II (303) fixed connection are in the bottom of concave frame (101), the bottom rear side of moving frame (301) is connected with lead screw (302) transmission.