阅读说明：本技术 智能化的石油开采监测装置 (Intelligent oil exploitation monitoring devices ) 是由 万陆伟 封军明 梅海瑛 西秋敏 于 2020-07-16 设计创作，主要内容包括：本发明提供智能化的石油开采监测装置,包括石油开采输送管,抱箍片,测量管,透明球,导热铜片,温度计,第一输入法兰盘,密封圈一,第二输入法兰盘,第一输出法兰盘,密封圈二,第二输出法兰盘,可旋转式取样导出筒结构,可调节式落地管道支撑座结构,可调节式自身防护板结构和可智能监测远程控制柜结构,所述的石油开采输送管的外壁中间部位抱接有抱箍片；所述的抱箍片之间通过螺栓螺母连接设置；所述的测量管纵向一端螺纹连接在抱箍片的上部中间部位,另一端螺纹连接透明球。本发明旋转手柄,顶紧螺杆,密封塞,固定螺母,防护盖,取样筒,出油管和取样排嘴的设置,有利于增加石油取样功能。(The invention provides an intelligent oil exploitation monitoring device, which comprises an oil exploitation conveying pipe, a hoop sheet, a measuring pipe, a transparent ball, a heat conduction copper sheet, a thermometer, a first input flange plate, a first sealing ring, a second input flange plate, a first output flange plate, a second sealing ring, a second output flange plate, a rotatable sampling leading-out cylinder structure, an adjustable floor pipeline supporting seat structure, an adjustable self-protection plate structure and an intelligent monitoring remote control cabinet structure, wherein the hoop sheet is hooped at the middle part of the outer wall of the oil exploitation conveying pipe; the hoop sheets are connected through bolts and nuts; and one longitudinal end of the measuring tube is in threaded connection with the middle part of the upper part of the hoop sheet, and the other end of the measuring tube is in threaded connection with the transparent ball. The rotary handle, the jacking screw rod, the sealing plug, the fixing nut, the protective cover, the sampling cylinder, the oil outlet pipe and the sampling row nozzle are arranged, so that the petroleum sampling function is increased.)

1. The intelligent oil exploitation monitoring device is characterized by comprising an oil exploitation conveying pipe (1), a hoop sheet (2), a measuring pipe (3), a transparent ball (4), a heat conduction copper sheet (5), a thermometer (6), a first input flange plate (7), a first sealing ring (8), a second input flange plate (9), a first output flange plate (10), a second sealing ring (11), a second output flange plate (12), a rotatable sampling and leading-out cylinder structure (13), an adjustable floor pipeline supporting seat structure (14), an adjustable self-protection plate structure (15) and an intelligent monitoring remote control cabinet structure (16), wherein the hoop sheet (2) is hooped at the middle part of the outer wall of the oil exploitation conveying pipe (1); the hoop sheets (2) are connected through bolts and nuts; one longitudinal end of the measuring tube (3) is in threaded connection with the middle part of the upper part of the hoop sheet (2), and the other end of the measuring tube is in threaded connection with the transparent ball (4); the heat conduction copper sheet (5) is arranged on the inner wall of the measuring pipe (3) and is in contact with the outer wall of the oil production conveying pipe (1); the thermometer (6) is longitudinally arranged inside the measuring tube (3), one end of the thermometer (6) is positioned inside the transparent ball (4), and the other end of the thermometer (6) is closely contacted with the heat-conducting copper sheet (5); the first input flange plate (7) is arranged at the right part of the second input flange plate (9) through a first sealing ring (8); the first input flange (7) and the second input flange (9) are connected through bolts and nuts; the first input flange (7) is in threaded connection with the left end of the oil production conveying pipe (1); the first output flange plate (10) is arranged on the left side of the second output flange plate (12) through a second sealing ring (11); the first output flange plate (10) and the second output flange plate (12) are connected through bolts and nuts; the first output flange plate (10) is in threaded connection with the right end of the oil exploitation conveying pipe (1); the rotatable sampling guide cylinder structure (13), the adjustable floor pipeline supporting seat structure (14) and the adjustable self-protection plate structure (15) are connected with the oil exploitation conveying pipe (1); the intelligent monitoring remote control cabinet structure (16) is connected with the hoop sheet (2); the rotatable sampling guide-out cylinder structure (13) comprises a rotating handle (131), a jacking screw rod (132), a sealing plug (133), a fixing nut (134), a protective cover (135), a sampling cylinder (136), an oil outlet pipe (137) and a sampling row nozzle (138), wherein the rotating handle (131) is connected to the upper end of the jacking screw rod (132) through a bolt; the lower end of the jacking screw rod (132) is in threaded connection with the middle part of the interior of the sealing plug (133); the fixing nut (134) is embedded in the middle part of the inner part of the protective cover (135); the protective cover (135) is in threaded connection with the upper end of the sampling cylinder (136); the lower end of the sampling cylinder (136) is in threaded connection with the upper end of the oil outlet pipe (137); the right outlet of the sampling cylinder (136) is in threaded connection with a sampling row nozzle (138).

2. The intelligent oil production monitoring device according to claim 1, wherein the adjustable floor pipe supporting seat structure (14) comprises a supporting tube (141), a supporting upright rod (142), a U-shaped lining seat (143), a movable adjusting plate (144), an inverted U-shaped sliding seat (145), a floor supporting seat (146), a fastening bolt (147), a stop block (148) and a mounting base (149), wherein the supporting tube (141) is in threaded connection with the upper end of the supporting upright rod (142); the middle parts of the left side and the right side of the supporting upright rod (142) are respectively connected with a U-shaped lining seat (143) through bolts; one end of the movable adjusting plate (144) is connected inside the inverted U-shaped sliding seat (145) in a shaft mode, and the other end of the movable adjusting plate is connected inside the U-shaped lining seat (143) in a shaft mode; the inverted U-shaped sliding seats (145) are sleeved on the outer walls of the left side and the right side of the upper part of the floor support seat (146) in a sliding mode and are arranged in a fastening connection mode through fastening bolts (147); the left side and the right side of the floor support seat (146) are both connected with a stop block (148) through bolts; and four corners of the bottom of the floor support seat (146) are connected with mounting bases (149) through bolts.

3. The intelligent oil production monitoring device according to claim 1, wherein the adjustable self-protection plate structure (15) comprises a sun visor (151), a self-adjustable protection plate (152), a vertical column (153), a connecting tube (154), a first connecting seat (155), an electric push rod (156) and a second connecting seat (157), wherein the sun visor (151) is transversely bolted to the upper surface of the self-adjustable protection plate (152); the self-adjustable guard plate (152) is transversely pivoted to the left part at the upper end of the upright post (153); the lower longitudinal end of the upright post (153) is in threaded connection with the inside of the connecting pipe (154); one end of the electric push rod (156) is connected inside the second connecting seat (157) in a shaft mode, and the other end of the electric push rod is connected inside the first connecting seat (155) in a shaft mode.

4. The intelligent oil exploitation monitoring device according to claim 1, wherein the intelligent monitoring remote control cabinet structure (16) comprises an intelligent control cabinet (161), an intelligent host (162), a data display screen (163), a remote monitoring module (164), a data line (165) and a flow sensor (166), wherein the intelligent control cabinet (161) is internally screwed with the intelligent host (162), the data display screen (163) and the remote monitoring module (164) from left to right; one end of the data line (165) is electrically connected with the flow sensor (166), and the other end of the data line is electrically connected with the intelligent host (162).

5. The intelligent oil production monitoring device as claimed in claim 1, wherein the tightening screw (132) is longitudinally threaded inside the fixing nut (134).

6. The intelligent oil production monitoring device according to claim 1, wherein the sealing plug (133) is disposed inside the sampling tube (136) and is disposed in close contact with the upper end of the oil outlet pipe (137).

7. The intelligent oil production monitoring device according to claim 1, wherein the lower longitudinal end of the oil outlet pipe (137) is screwed at the outlet of the middle position of the upper right side of the oil production conveying pipe (1).

8. The intelligent oil production monitoring device according to claim 2, wherein the upper longitudinal end of the support tube (141) is welded to the middle of the lower part of the hoop sheet (2).

9. The intelligent oil production monitoring device as claimed in claim 3, wherein the first connecting seat (155) is bolted to the right middle upper part of the upright column (153).

10. The intelligent oil production monitoring device according to claim 3, wherein the adapter tube (154) is longitudinally bolted to the upper left side of the oil production pipe (1).

Technical Field

The invention belongs to the technical field of oil exploitation equipment, and particularly relates to an intelligent oil exploitation monitoring device.

Background

Petroleum, one of the main objects of geological exploration, is a viscous, dark brown liquid, called "industrial blood", the upper part of the crust has petroleum storage, the main component is the mixture of various alkanes, cyclanes, aromatic hydrocarbons, the oil formation mechanism of petroleum has two theories of bio-deposition and oil change and petrochemical oil, the former is widely accepted, the petroleum is considered to be formed by the long evolution of the organisms in the ancient oceans or lakes, and belongs to bio-deposition and oil change and can not be regenerated; the latter is thought to be the generation of petroleum from its own carbon within the earth's crust, which is biologically unrelated and renewable, and petroleum is used primarily as fuel and gasoline, as well as a feedstock for many chemical industry products such as solutions, fertilizers, pesticides, and plastics.

At present, the device is applied to an oil exploitation monitoring device in order to ensure the oil transportation efficiency.

But current oil development monitoring devices still have self protective effect poor and cause the damage easily, can't take a sample and wait to examine, do not possess the fixed function of auxiliary stay and intelligent control process degree low problem.

Therefore, the intelligent oil exploitation monitoring device is very necessary to be invented.

Disclosure of Invention

In order to solve the technical problems, the invention provides an intelligent oil exploitation monitoring device, which aims to solve the problems that the existing oil exploitation monitoring device is poor in self-protection effect, easy to damage, incapable of sampling and detecting, free of an auxiliary supporting and fixing function and low in intelligent control degree. The intelligent oil exploitation monitoring device comprises an oil exploitation conveying pipe, a hoop sheet, a measuring pipe, a transparent ball, a heat conduction copper sheet, a thermometer, a first input flange plate, a first sealing ring, a second input flange plate, a first output flange plate, a second sealing ring, a second output flange plate, a rotatable sampling and guiding cylinder structure, an adjustable floor pipeline supporting seat structure, an adjustable self-protection plate structure and an intelligent monitoring remote control cabinet structure, wherein the hoop sheet is hooped at the middle part of the outer wall of the oil exploitation conveying pipe; the hoop sheets are connected through bolts and nuts; one longitudinal end of the measuring tube is in threaded connection with the middle part of the upper part of the hoop sheet, and the other end of the measuring tube is in threaded connection with the transparent ball; the heat conduction copper sheet is arranged on the inner wall of the measuring pipe and is in contact with the outer wall of the oil exploitation conveying pipe; the thermometer is longitudinally arranged inside the measuring tube, one end of the thermometer is positioned inside the transparent ball, and the other end of the thermometer is tightly contacted with the heat-conducting copper sheet; the first input flange plate is arranged at the right part of the second input flange plate through a first sealing ring; the first input flange plate and the second input flange plate are connected through bolts and nuts; the first input flange plate is in threaded connection with the left end of the oil exploitation conveying pipe; the first output flange plate is arranged on the left side of the second output flange plate through a second sealing ring; the first output flange plate and the second output flange plate are connected through bolts and nuts; the first output flange plate is in threaded connection with the right end of the oil exploitation conveying pipe; the rotatable sampling guide cylinder structure, the adjustable floor pipeline supporting seat structure and the adjustable self-protection plate structure are connected with the oil exploitation conveying pipe; the intelligent monitoring remote control cabinet structure is connected with the hoop sheet; the rotatable sampling guide-out cylinder structure comprises a rotating handle, a jacking screw rod, a sealing plug, a fixing nut, a protective cover, a sampling cylinder, an oil outlet pipe and a sampling row nozzle, wherein the rotating handle is connected to the upper end of the jacking screw rod through a bolt; the lower end of the jacking screw rod is in threaded connection with the middle part inside the sealing plug; the fixing nut is embedded in the middle of the inner part of the protective cover; the protective cover is in threaded connection with the upper end of the sampling tube; the lower end of the sampling cylinder is in threaded connection with the upper end of the oil outlet pipe; and a sampling row nozzle is in threaded connection with the right outlet of the sampling tube.

Preferably, the adjustable floor pipeline supporting seat structure comprises a supporting tube, a supporting upright rod, a U-shaped liner seat, a movable adjusting plate, an inverted U-shaped sliding seat, a floor supporting seat, a fastening bolt, a stop block and an installation base, wherein the supporting tube is in threaded connection with the upper end of the supporting upright rod; the middle parts of the left side and the right side of the supporting upright stanchion are both connected with a U-shaped lining seat through bolts; one end of the movable adjusting plate is connected inside the inverted U-shaped sliding seat in a shaft mode, and the other end of the movable adjusting plate is connected inside the U-shaped lining seat in a shaft mode; the inverted U-shaped sliding seats are sleeved on the outer walls of the left side and the right side of the upper part of the floor type supporting seat in a sliding mode and are fastened and connected through fastening bolts; the left side and the right side of the floor support seat are both connected with a stop block through bolts; the bottom four corners of the floor support seat are connected with an installation base through bolts.

Preferably, the adjustable self-protection plate structure comprises a sun-proof plate, a self-adjustable protection plate, a stand column, a connecting pipe, a first connecting seat, an electric push rod and a second connecting seat, wherein the sun-proof plate is transversely bolted to the upper surface of the self-adjustable protection plate; the self-adjustable guard plate is transversely coupled to the upper end of the upright post at the left part; the longitudinal lower end of the upright post is in threaded connection with the inside of the connecting pipe; one end of the electric push rod is connected inside the second connecting seat in a shaft mode, and the other end of the electric push rod is connected inside the first connecting seat in a shaft mode.

Preferably, the intelligent monitoring remote control cabinet structure comprises an intelligent control cabinet, an intelligent host, a data display screen, a remote monitoring module, a data line and a flow sensor, wherein the intelligent control cabinet is internally and sequentially connected with the intelligent host, the data display screen and the remote monitoring module by screws from left to right; one end of the data line is electrically connected with the flow sensor, and the other end of the data line is electrically connected with the intelligent host.

Preferably, the tightening screw is longitudinally and threadedly connected inside the fixing nut.

Preferably, the sealing plug is arranged inside the sampling tube and is tightly contacted with the upper end of the oil outlet pipe.

Preferably, the lower longitudinal end of the oil outlet pipe is in threaded connection with an outlet at the middle part of the upper right side of the oil production conveying pipe.

Preferably, the upper end of the supporting tube in the longitudinal direction is welded at the middle part of the lower part of the hoop sheet.

Preferably, the connecting seat is connected to the middle upper part of the right side of the upright post through a bolt.

Preferably, the connecting pipe is longitudinally bolted on the left upper side of the oil production conveying pipe.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the arrangement of the rotating handle, the tightening screw rod, the sealing plug, the fixing nut, the protective cover, the sampling cylinder, the oil outlet pipe and the sampling row nozzle is favorable for increasing the oil sampling function, the tightening screw rod can be rotated clockwise by holding the rotating handle to act inside the fixing nut, so that the sealing plug moves upwards inside the sampling cylinder, at the moment, oil is discharged through the oil outlet pipe and is guided out through the sampling row nozzle, the oil can be accepted through the sampling test tube, the subsequent sampling detection work is convenient to perform, the tightening screw rod can be driven to move the sealing plug downwards by rotating the rotating handle anticlockwise until the upper end of the oil outlet pipe is tightened by the sealing plug, and the use and conveying work can be continued.

2. According to the invention, the support tube, the support vertical rod, the U-shaped lining seat, the movable adjusting plate, the inverted U-shaped sliding seat, the floor support seat, the fastening bolt, the stop block and the installation base are arranged, so that the support stability is increased and can be adjusted, the connection stability between pipelines is ensured, the floor support seat can be installed on the ground through the installation base, the position of the inverted U-shaped sliding seat on the outer wall of the floor support seat is movably adjusted by loosening the fastening bolt, the movable adjusting plate can move between the inverted U-shaped sliding seat and the U-shaped lining seat, the support vertical rod can drive the support tube to move upwards or downwards, the fastening bolt is locked after the height position of the petroleum exploitation conveying pipe is determined, the butt joint stability of the pipelines is ensured, and the petroleum conveying.

3. According to the sun-proof board, the adjustable guard plate, the stand column, the connecting pipe, the first connecting seat, the electric push rod and the second connecting seat are arranged, so that the self-protection function is increased, the electric push rod acts between the first connecting seat and the second connecting seat, the adjustable guard plate can tilt and adjust at the upper end of the stand column to ensure the protection effect, the sun-proof board plays a good protection role, and the device is prevented from being influenced by dust.

4. According to the intelligent monitoring system, the intelligent control cabinet, the intelligent host, the data display screen, the remote monitoring module, the data line and the flow sensor are arranged, the intelligent monitoring capacity is favorably improved, the oil flow is monitored in real time through the flow sensor, information processing is carried out through the intelligent host, data display can be carried out through the data display screen at last, the remote monitoring module is connected with an external intelligent mobile phone through a wireless signal, intelligent remote checking of monitoring data can be carried out, and the intelligent and convenient operation is guaranteed.

5. According to the invention, the arrangement of the hoop sheets is beneficial to fixedly mounting the measuring tube, and the mounting convenience is ensured.

6. According to the invention, the arrangement of the measuring tube and the transparent ball is favorable for protecting and ensuring the safety of the thermometer.

7. According to the invention, the arrangement of the heat-conducting copper sheet and the thermometer is beneficial to monitoring the petroleum temperature in real time, the freezing problem caused by over-low temperature is avoided, and the conveying efficiency is ensured.

8. According to the invention, the arrangement of the first input flange plate, the first sealing ring and the second input flange plate is beneficial to connecting an input pipeline, the petroleum conveying effect is ensured, and a good sealing effect can be achieved.

9. According to the invention, the arrangement of the first output flange plate, the second sealing ring and the second output flange plate is beneficial to connecting an output pipeline, is convenient for conveying petroleum and can play a good sealing role.

10. According to the invention, the arrangement of the oil exploitation delivery pipe is beneficial to delivering the exploited oil, and the delivery effect is ensured.

Drawings

Fig. 1 is a schematic structural view of the present invention.

Fig. 2 is a schematic structural diagram of a rotatable sampling derivation cartridge structure of the present invention.

Fig. 3 is a schematic structural view of the adjustable floor pipe support base structure of the present invention.

FIG. 4 is a schematic structural diagram of an adjustable self-protection plate structure according to the present invention.

Fig. 5 is a schematic structural diagram of the structure of the intelligent monitoring remote control cabinet of the invention.

In the figure:

1. a petroleum production delivery pipe; 2. a hoop sheet; 3. a measurement tube; 4. a transparent ball; 5. a thermally conductive copper sheet; 6. a thermometer; 7. a first input flange; 8. a first sealing ring; 9. a second input flange; 10. a first output flange; 11. a second sealing ring; 12. a second output flange; 13. a rotatable sampling and guiding cylinder structure; 131. rotating the handle; 132. tightly pushing the screw; 133. a sealing plug; 134. fixing a nut; 135. a protective cover; 136. a sampling tube; 137. an oil outlet pipe; 138. a sampling row nozzle; 14. an adjustable floor pipeline supporting seat structure; 141. supporting a tube; 142. supporting the upright stanchion; 143. a U-shaped lining seat; 144. a movable adjusting plate; 145. an inverted U-shaped slide; 146. a landing support seat; 147. fastening a bolt; 148. a stopper; 149. installing a base; 15. an adjustable self-protection plate structure; 151. a sun visor; 152. the self-adjustable guard plate; 153. a column; 154. connecting the pipe; 155. a first connecting seat; 156. an electric push rod; 157. a second connecting seat; 16. the structure of the remote control cabinet can be intelligently monitored; 161. an intelligent control cabinet; 162. an intelligent host; 163. a data display screen; 164. a remote monitoring module; 165. a data line; 166. a flow sensor.

Detailed Description

The invention is described in detail with reference to the accompanying drawings, as shown in fig. 1 and fig. 2, an intelligent oil exploitation monitoring device comprises an oil exploitation conveying pipe 1, a hoop sheet 2, a measuring pipe 3, a transparent ball 4, a heat conduction copper sheet 5, a thermometer 6, a first input flange 7, a first sealing ring 8, a second input flange 9, a first output flange 10, a second sealing ring 11, a second output flange 12, a rotatable sampling leading-out cylinder structure 13, an adjustable floor pipeline supporting seat structure 14, an adjustable self-protection plate structure 15 and an intelligent monitoring remote control cabinet structure 16, wherein the hoop sheet 2 is clasped at the middle part of the outer wall of the oil exploitation conveying pipe 1; the hoop sheets 2 are connected through bolts and nuts; one longitudinal end of the measuring tube 3 is in threaded connection with the middle part of the upper part of the hoop sheet 2, and the other end of the measuring tube is in threaded connection with the transparent ball 4; the heat conduction copper sheet 5 is arranged on the inner wall of the measuring pipe 3 and is in contact with the outer wall of the oil exploitation conveying pipe 1; the thermometer 6 is longitudinally arranged inside the measuring tube 3, one end of the thermometer 6 is positioned inside the transparent ball 4, and the other end of the thermometer 6 is closely contacted with the heat-conducting copper sheet 5; the first input flange 7 is arranged at the right part of the second input flange 9 through a first sealing ring 8; the first input flange 7 and the second input flange 9 are connected through bolts and nuts; the first input flange 7 is in threaded connection with the left end of the oil exploitation conveying pipe 1; the first output flange plate 10 is arranged on the left side of the second output flange plate 12 through a second sealing ring 11; the first output flange plate 10 and the second output flange plate 12 are connected through bolts and nuts; the first output flange plate 10 is in threaded connection with the right end of the oil exploitation delivery pipe 1; the rotatable sampling guide cylinder structure 13, the adjustable floor pipeline supporting seat structure 14 and the adjustable self-protection plate structure 15 are connected with the oil exploitation conveying pipe 1; the intelligent monitoring remote control cabinet structure 16 is connected with the hoop sheet 2; the rotatable sampling guide cylinder structure 13 comprises a rotating handle 131, a tightening screw 132, a sealing plug 133, a fixing nut 134, a protective cover 135, a sampling cylinder 136, an oil outlet pipe 137 and a sampling nozzle 138, wherein the rotating handle 131 is connected to the upper end of the tightening screw 132 through a bolt; the lower end of the tightening screw 132 is connected with the middle part of the interior of the sealing plug 133 by screw thread; the fixing nut 134 is embedded in the middle of the protective cover 135; the protecting cover 135 is screwed on the upper end of the sampling tube 136; the lower end of the sampling tube 136 is in threaded connection with the upper end of the oil outlet pipe 137; sampling row mouth 138 is connected with to the right side exit threaded connection of sampling tube 136, tight screw rod 132 in fixation nut 134 internal motion in clockwise rotation top through handheld twist grip 131, make sealing plug 133 shift up in sampling tube 136 inside, the oil passes through oil pipe 137 and discharges this moment, and export through sample row mouth 138, the accessible sample test tube is accepted, be convenient for carry out the detection work of subsequent sample, through anticlockwise rotation twist grip 131, can make the tight screw rod 132 in top drive sealing plug 133 move down, the upper end of tight oil pipe 137 is pushed up to sealing plug 133, can continue to use the transport work.

In this embodiment, referring to fig. 3, the adjustable floor pipe supporting seat structure 14 includes a supporting tube 141, a supporting upright rod 142, a U-shaped bushing 143, a movable adjusting plate 144, an inverted U-shaped sliding seat 145, a floor supporting seat 146, a fastening bolt 147, a stopper 148 and a mounting base 149, wherein the supporting tube 141 is screwed on the upper end of the supporting upright rod 142; the middle parts of the left side and the right side of the supporting upright rod 142 are respectively connected with a U-shaped lining seat 143 through bolts; one end of the movable adjusting plate 144 is coupled inside the inverted U-shaped sliding seat 145, and the other end is coupled inside the U-shaped lining seat 143; the inverted U-shaped sliding seats 145 are sleeved on the outer walls of the left side and the right side of the upper part of the floor support seat 146 in a sliding manner and are fastened and connected through fastening bolts 147; the left side and the right side of the floor support seat 146 are both connected with a stop block 148 through bolts; all bolted connection has the installation base 149 in the bottom four corners position of falling to the ground supporting seat 146, can install through falling to the ground supporting seat 146 through installation base 149, and through loosening fastening bolt 147, the position of the type of falling U slide 145 at falling to the ground supporting seat 146 outer wall is adjusted in the removal, make activity regulating plate 144 remove between type of falling U slide 145 and U type liner seat 143, can make support pole setting 142 drive stay tube 141 shift up or descend, after confirming the high position of oil development conveyer pipe 1, locking fastening bolt 147, guarantee pipeline butt joint stationarity, and then improve oil transportation efficiency.

In this embodiment, referring to fig. 4, the adjustable self-protection plate structure 15 includes a sun visor 151, a self-adjustable protection plate 152, a column 153, a connecting pipe 154, a first connecting seat 155, an electric push rod 156 and a second connecting seat 157, wherein the sun visor 151 is transversely bolted to the upper surface of the self-adjustable protection plate 152; the transverse left part of the self-adjustable guard plate 152 is coupled to the upper end of the upright 153; the lower longitudinal end of the upright column 153 is screwed into the interior of the connecting pipe 154; one end of the electric push rod 156 is connected inside the second connecting seat 157 in a shaft mode, the other end of the electric push rod 156 is connected inside the first connecting seat 155 in a shaft mode, the electric push rod 156 acts between the first connecting seat 155 and the second connecting seat 157, the self adjustable guard plate 152 can tilt and adjust on the upper end of the upright 153, the protection effect is guaranteed, the sun-proof plate 151 plays a good protection role, and the device is prevented from being influenced by dust.

In this embodiment, as shown in fig. 5, the intelligent monitoring remote control cabinet structure 16 includes an intelligent control cabinet 161, an intelligent host 162, a data display screen 163, a remote monitoring module 164, a data line 165 and a flow sensor 166, wherein the intelligent control cabinet 161 is internally screwed with the intelligent host 162, the data display screen 163 and the remote monitoring module 164 in sequence from left to right; data line 165 one end electric connection flow sensor 166, other end electric connection intelligent host computer 162, through flow sensor 166 real-time supervision oil flow to carry out information processing through intelligent host computer 162, accessible data display screen 163 carries out data display at last, accessible remote monitoring module 164 wireless signal connects outside smart mobile phone, can carry out the long-range monitoring data of looking over of intelligence, guarantee the operation intellectuality, it is convenient.

In this embodiment, specifically, the tightening screw 132 is longitudinally screwed inside the fixing nut 134.

In this embodiment, specifically, the sealing plug 133 is disposed inside the sampling tube 136 and is disposed in close contact with the upper end of the oil outlet pipe 137.

In this embodiment, specifically, the lower longitudinal end of the oil outlet pipe 137 is screwed to the outlet of the middle position of the upper right side of the oil production delivery pipe 1.

In this embodiment, specifically, the upper end of the support tube 141 in the longitudinal direction is welded to the middle of the lower portion of the hoop sheet 2.

In this embodiment, specifically, the first connecting seat 155 is bolted to the right middle upper portion of the upright column 153.

In this embodiment, specifically, the connecting pipe 154 is longitudinally bolted to the upper left side of the oil production pipe 1.

In this embodiment, specifically, the horizontal screw of the intelligent control cabinet 161 is connected to the front middle part of the hoop sheet 2.

In this embodiment, specifically, the flow sensors 166 are all screwed to the upper and lower walls of the middle portion of the left side inside the oil extraction pipe 1.

In this embodiment, specifically, the sealing plug 133 is a cylindrical rubber plug, and the protecting cover 135 is an aluminum alloy cover.

In this embodiment, specifically, the stopper 148 is located outside the inverted U-shaped sliding seat 145.

In this embodiment, specifically, the movable adjusting plate 144 is made of two aluminum alloy plates.

In this embodiment, the sun visor 151 is specifically a white corrugated aluminum alloy sheet.

In this embodiment, specifically, the self-adjustable guard plate 152 is made of a stainless steel plate.

In this embodiment, specifically, the first seal ring 8 and the second seal ring 11 both use rubber rings.

In this embodiment, specifically, the electric push rod 156, the data display screen 163, the remote monitoring module 164, the data line 165 and the flow sensor 166 are all electrically connected to the intelligent host 162.

In this embodiment, specifically, the electric push rod 156 is an LX600 electric push rod.

In this embodiment, specifically, the data display screen 163 adopts an LCD1602 liquid crystal display, the remote monitoring module 164 adopts an HC-08 type bluetooth module, the intelligent host 162 adopts an stm32f103 type single chip microcomputer, and the flow sensor 166 adopts an LWGY type flow sensor.

Principle of operation

In the invention, the tightening screw 132 is clockwise rotated by holding the rotating handle 131 to act in the fixing nut 134, so that the sealing plug 133 moves upwards in the sampling cylinder 136, at the moment, the oil is discharged through the oil outlet pipe 137 and is led out through the sampling discharge nozzle 138, and can be received through the sampling test tube, so that the subsequent sampling detection work is convenient, the tightening screw 132 can drive the sealing plug 133 to move downwards by rotating the rotating handle 131 anticlockwise until the sealing plug 133 presses the upper end of the oil outlet pipe 137 tightly, so that the use and conveying work can be continued, the ground can be installed through the mounting base 149 by the floor type supporting base 146, the position of the inverted U-shaped sliding base 145 on the outer wall of the floor type supporting base 146 can be movably adjusted by loosening the fastening bolt 147, so that the movable adjusting plate 144 moves between the inverted U-shaped sliding base 145 and the U-shaped lining base 143, and the supporting upright rod 142 can, confirm behind the high position of oil development conveyer pipe 1, locking fastening bolt 147, guarantee pipeline butt joint stationarity, and then improve oil transportation efficiency, through electric putter 156 action between connecting seat 155 and connecting seat two 157, can make self adjustable backplate 152 adjust the action in the slope of stand 153 upper end, in order to guarantee the safeguard effect, play good guard action through sun-proof board 151, avoid the device to receive the dust influence, 166 real-time supervision oil flow through flow sensor, and carry out information processing through intelligent host computer 162, last accessible data display screen 163 carries out data display, accessible remote monitoring module 164 wireless signal connects outside smart mobile phone, can carry out the long-range monitoring data of looking over of intelligence, guarantee to operate intellectuality, it is convenient.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention.