Continuity oil gas metering device for oil development
Technical Field
The invention relates to the field of oil exploitation, in particular to a continuous oil gas metering device for oil exploitation.
Background
With the development of the world petroleum science and technology, a metering station is an important component of an oil field, oil and gas metering refers to the measurement of the flow of petroleum and natural gas and mainly comprises oil well yield metering and output flow metering, wherein the oil well yield metering refers to the measurement of the oil quantity and the gas production quantity produced by a single well and is key data for carrying out oil well management and mastering the dynamic state of an oil layer.
Among the current oil gas measurement technique, survey oil gas flow in oil gas measurement station usually, many oil wells are connected to oil gas measurement station, once every oil well separates the definite time measurement through the manual work, and the oil gas after the measurement leans on well head pressure to mix and transport to the oil transfer station, and the manual work is measured oil gas, because human factor, the easy production error of measurement result causes the metering data not accurate enough, and separates the definite time measurement once comparatively troublesome.
Disclosure of Invention
The invention aims to provide a continuous oil-gas metering device which can continuously meter oil-gas flow, has accurate metering data and can prompt workers to use oil without entering the metering device, so as to solve the problems that manual difference exists in manual oil-gas metering, errors are easy to generate in metering results, and metering at certain intervals is troublesome.
The utility model provides a continuity oil gas metering device for oil development, including supporting the base, the bin, the separable set, oil mass perception subassembly and the control assembly that produces oil, fixed mounting has the bin on the support base, be provided with the separable set on the bin, the slidable connection has oil mass perception subassembly on the bin, the bin right side is provided with the control assembly that produces oil, the separable set can carry out oil-gas separation to the oil, the oil storage capacity in the perception bin under the operation of separable set of oil mass perception subassembly, the control assembly that produces oil under the operation of oil mass perception subassembly controls the volume of producing oil.
In a preferred embodiment of the invention, the separation assembly comprises an oil outlet pipe, an air outlet pipe, an oil inlet pipe, a first support frame and a partition plate, the oil outlet pipe is fixedly connected below the right side of the storage box, an oil outlet corresponding to the oil outlet pipe is formed below the right side of the storage box, the air outlet pipe is fixedly connected above the right side of the storage box, an air outlet corresponding to the air outlet pipe is formed above the right side of the storage box, the oil inlet pipe is arranged below the left side of the storage box, an oil inlet corresponding to the oil inlet pipe is formed below the left side of the storage box, the first support frame is welded at the right end of the oil outlet pipe, and the partition plate for opening and closing the oil outlet is slidably connected on the first support frame.
In a preferred embodiment of the invention, the oil quantity sensing assembly comprises a buoyancy frame, a poking frame and a first spring, the buoyancy frame extending into the storage box is connected on the storage box in a sliding mode, the poking frame is welded on the buoyancy frame, and the first spring is connected between the buoyancy frame and the storage box.
In a preferred embodiment of the invention, the oil outlet control assembly comprises a limit support frame, a first rotating block, a swinging frame, a second rotating block, a return spring and a slotting pushing frame, the limit support frame is fixedly installed on the right side of the storage box, the first rotating block is rotatably connected to the right side of the storage box, the swinging frame matched with the shifting frame is rotatably connected to the limit support frame, the second rotating block is rotatably connected to the swinging frame, the return spring is connected between the second rotating block and the first rotating block, the slotting pushing frame is welded to the top of the partition plate, and the slotting pushing frame is slidably matched with the second rotating block.
In a preferred embodiment of the invention, the oil-out metering device further comprises an oil-out metering component, the right side of the storage box is fixedly provided with the oil-out metering component, the oil-out metering component comprises a first support frame, a second support shell, a first flow guide pipe, a first rotating frame, a first straight gear, a first indicating frame, a second straight gear, a third straight gear, a second indicating frame, a fourth straight gear, a first graduated support frame and a first graduated frame, the right side of the storage box is fixedly provided with the first support frame, the second support shell is arranged below the first support frame, one side wall in the second support shell is in an arc-shaped bulge, the second support shell is communicated with the first support frame, the first flow guide pipe is fixedly connected on the second support shell, the first rotating frame is connected in the second support shell in a rotating manner, the first rotating frame is tightly attached to the second support shell, the first straight gear is fixedly connected on the first rotating frame, second support housing top rotary type is connected with first instruction frame, be provided with the second straight-tooth gear on the first instruction frame, second straight-tooth gear and first straight-tooth gear intermeshing, third straight-tooth gear rigid coupling is on first instruction frame, second instruction frame rotary type is connected in second support housing top, the rigid coupling has the fourth straight-tooth gear on the second instruction frame, fourth straight-tooth gear and third straight-tooth gear meshing, second support housing top surface fixed mounting has first area scale support frame, first area scale support frame and first instruction frame contactless, first scale frame fixed mounting supports housing top surface at the second, first scale frame and second instruction frame contactless.
In a preferred embodiment of the invention, the gas outlet metering device further comprises a gas outlet metering component, the gas outlet metering component is fixedly arranged above the first support frame, the gas outlet metering component comprises a third support shell, a second flow guide pipe, a second rotating frame, a fifth straight gear, a third indicating frame, a sixth straight gear, a seventh straight gear, a fourth indicating frame, an eighth straight gear, a second support frame with scales and a second scale frame, the third support shell is arranged above the first support frame, one side wall in the third support shell is an arc-shaped bulge, the third support shell is communicated with the gas outlet pipe, the second flow guide pipe is communicated with the third support shell, the third support shell is internally and rotatably connected with the second rotating frame, the second rotating frame is tightly attached to the third support shell, the fifth straight gear is fixedly connected to the second rotating frame, the third indicating frame is rotatably connected to the top of the third support shell, the sixth straight gear is arranged on the third indicating frame, sixth straight-toothed gear and fifth straight-toothed gear intermeshing, sixth straight-toothed gear rigid coupling is on the third indication frame, fourth indication frame rotary type is connected in third support housing top, the rigid coupling has eighth straight-toothed gear on the fourth indication frame, eighth straight-toothed gear and seventh straight-toothed gear meshing, third support housing top surface fixed mounting has the second to take the scale support frame, the second takes scale support frame and third indication frame contactless each other, second scale frame fixed mounting supports housing top surface at the third, second scale frame and fourth indication frame contactless each other.
In a preferred embodiment of the invention, the oil-out sensing assembly is further included, the oil-out sensing assembly is arranged on the first scaled support frame, the oil-out sensing assembly includes a second support frame, reset wedge blocks, second springs, a first poking rod and a pushing frame, the second support frame is connected to the first scaled support frame in a sliding manner, the six reset wedge blocks are fixedly connected to the inner bottom surface of the second support frame in a distributed manner, a pair of second springs is connected between the second support frame and the first scaled support frame, the first poking rod is fixedly connected to the top surface of the first indicating frame, the top of the first poking rod is in contact with the bottom of the second support frame through the reset wedge blocks, and the pushing frame is fixedly connected to the second support frame.
In a preferred embodiment of the present invention, the present invention further comprises an air outlet sensing assembly, the air outlet sensing assembly is slidably connected to the second support frame with scales, the air outlet sensing assembly comprises a third support frame, a third spring, and a third rotating frame, the second poker rod, the rolling disc, promote a torsion spring and reset shelf, the second takes the sliding type to be connected with the third support frame on the scale support frame, third support frame and promotion frame movable contact, be connected with a pair of third spring between third support frame and the second area scale support frame, the last rotating type of third support frame is connected with the third rolling frame, the welding of third indication frame top surface has the second poker rod, the bottom rigid coupling of third rolling frame has the rolling disc, rolling disc bottom surface fixedly connected with promotes the piece, the rolling disc is through promoting piece and second poker rod mutual contact, be connected with torsion spring between rolling disc and the third support frame, the welding of second area scale support frame top surface has reset shelf.
In a preferred embodiment of the present invention, the support device further comprises an alarm fixedly mounted on the top surface of the third support frame, wherein the alarm is in movable contact with the third rotating frame.
In a preferred embodiment of the present invention, the device further comprises a first check valve and a second check valve, wherein the first flow guide pipe is internally provided with the first check valve, and the second flow guide pipe is internally provided with the second check valve.
The invention has the beneficial effects that: through baffle intermittent type nature upward movement, baffle intermittent type nature blocks out oil pipe, and the oil in the bin is discharged through going out oil pipe and first carriage to make oil intermittent type nature flow, be convenient for follow-up measuring it.
Promote the rotation of second rotating turret through gas, the first rotating turret of oil promotion rotates, make first instruction frame rotate the scale on the directional first scale support frame of taking, the scale on the directional first scale support frame of second instruction frame, third instruction frame rotates the scale on the directional second scale support frame of taking, the scale on the directional second scale support frame of fourth instruction frame, make the staff can be through first instruction frame, the second instruction frame, the scale that third instruction frame and fourth instruction frame instructed, and then judge what of gas output and oil output.
When no oil discharges in the storage box, the second rotating frame rotating angle can be increased, the second rotating frame can be in mutual contact with the warning device, the warning device is pressed by the second rotating frame, the warning device sends out an alarm to prompt a worker to find out the reason when no oil enters the storage box.
Drawings
Fig. 1 is a schematic perspective view of a first embodiment of the present invention.
Fig. 2 is a schematic perspective view of a second embodiment of the present invention.
Fig. 3 is a schematic perspective view of the oil quantity sensing assembly according to the present invention.
Fig. 4 is a schematic separated perspective view of the oil sensing assembly of the present invention.
Fig. 5 is a schematic perspective view of the oil quantity sensing assembly and the oil outlet control assembly according to the present invention.
Fig. 6 is a schematic view of a partially cut-away perspective structure of the oil outlet metering assembly of the present invention.
Fig. 7 is a schematic partial perspective view of the oil outlet metering assembly of the present invention.
Fig. 8 is a schematic partial perspective view of the air outlet metering assembly of the present invention.
Fig. 9 is a schematic perspective view of the oil outlet sensing assembly according to the present invention.
Fig. 10 is a schematic perspective view of a second support frame according to the present invention.
Fig. 11 is a schematic partial perspective view of the oil outlet sensing assembly according to the present invention.
Fig. 12 is a schematic perspective view of a portion of an outgassing sensing component according to the present invention.
The meaning of the reference symbols in the figures: 1-a supporting base, 2-a storage tank, 3-a separating component, 31-an oil outlet pipe, 32-an air outlet pipe, 33-an oil inlet pipe, 34-a first supporting frame, 35-a partition plate, 4-an oil quantity sensing component, 41-a floating frame, 42-a stirring frame, 43-a first spring, 5-an oil outlet control component, 51-a limiting supporting frame, 52-a first rotating block, 53-a swinging frame, 54-a second rotating block, 541-a reset spring, 55-a slotted pushing frame, 6-an oil outlet metering component, 61-a first supporting frame, 62-a second supporting shell, 621-a first flow guide pipe, 63-a first rotating frame, 64-a first straight gear, 65-a first indicating frame, 66-a second straight gear and 67-a third straight gear, 68-a second indicating frame, 681-a fourth spur gear, 69-a first graduated support frame, 610-a first graduated frame, 60-an air outlet metering assembly, 602-a third support shell, 6021-a second draft tube, 603-a second rotating frame, 604-a fifth spur gear, 605-a third indicating frame, 606-a sixth spur gear, 607-a seventh spur gear, 608-a fourth indicating frame, 6081-an eighth spur gear, 609-a second graduated support frame, 6010-a second graduated frame, 7-an oil outlet sensing assembly, 71-a second support frame, 711-a reset wedge block, 72-a second spring, 73-a first poke rod, 74-a pushing frame, 8-an air outlet sensing assembly, 81-a third support frame, 82-a third spring, 83-a third rotating frame, 831-second poke rod, 832-rotating disc, 833-pushing block, 84-torsion spring, 85-reset rack, 9-alarm, 101-first one-way valve, 102-second one-way valve.
Detailed Description
In the description of the present invention, unless otherwise specified, "plurality" means two or more, and the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the referred device or element must have a specific orientation, be constructed and operated in a specific orientation, and thus, are not to be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
Example 1
The utility model provides a continuity oil gas metering device for oil development, as shown in fig. 1-5, including supporting base 1, bin 2, separator module 3, oil mass perception subassembly 4 and the control assembly 5 that produces oil, support fixed mounting has bin 2 on the base 1, is provided with the separator module 3 that is used for oil-gas separation on the bin 2, and bin 2 goes up the sliding connection and has oil mass perception subassembly 4, and bin 2 right side is provided with the control assembly 5 that produces oil that is used for controlling the volume of producing oil.
Separation module 3 is including going out oil pipe 31, outlet duct 32, advance oil pipe 33, first carriage 34 and baffle 35, 2 right side below rigid couplings of bin have an oil pipe 31, 2 right side below division of bin have with the oil-out that goes out oil pipe 31 corresponding, 2 right side top rigid couplings of bin have outlet duct 32, 2 right side top divisions of bin have with the gas outlet that outlet duct 32 is corresponding, 2 left side below of bin is provided with the oil pipe 33 that advances that is used for going into the oil, 2 left side below divisions of bin have with advance the oil inlet that oil pipe 33 is corresponding, first carriage 34 welding is at an oil pipe 31 right-hand member, sliding type is connected with the baffle 35 that is used for the switch oil-out on first carriage 34, baffle 35 is used for blocking the oil-out of first carriage 34.
The oil quantity sensing assembly 4 comprises a buoyancy frame 41, a poking frame 42 and a first spring 43, the storage tank 2 is connected with the buoyancy frame 41 used for sensing the oil quantity in a sliding mode, the poking frame 42 is welded on the buoyancy frame 41, and the first spring 43 is connected between the buoyancy frame 41 and the storage tank 2.
The oil outlet control assembly 5 comprises a limiting support frame 51, a first rotating block 52, a swinging frame 53, a second rotating block 54, a return spring 541 and a slotting pushing frame 55, the limiting support frame 51 is fixedly mounted on the right side of the storage tank 2, the first rotating block 52 is rotatably connected to the right side of the storage tank 2, the swinging frame 53 matched with the shifting frame is rotatably connected to the limiting support frame 51, the second rotating block 54 is rotatably connected to the swinging frame 53, the return spring 541 is connected between the second rotating block 54 and the first rotating block 52, the slotting pushing frame 55 is welded to the top of the partition plate 35, and the slotting pushing frame 55 is slidably matched with the second rotating block 54.
This equipment sets up in the oil field, when the oil gas flow in the needs are surveyd the oil gas flow in the exploitation, it is connected with oil pipeline to advance oil pipe 33, oil pipeline carries oil to the bin 2 in through advancing oil pipe 33, gas in the oil can be discharged through outlet duct 32, because baffle 35 blocks oil pipe 31, oil can deposit the bottom in bin 2, the oil that deposits in bin 2 increases, the oil liquid level can increase, oil can promote buoyancy frame 41 and dial frame 42 upward movement, dial frame 42 and can promote the upward movement of second rotor 54, second rotor 54 pulling fluting pushes away frame 55 and baffle 35 upward movement, baffle 35 no longer blocks oil pipe 31, oil in the bin 2 is discharged through oil pipe 31 and first carriage 34. When the oil inlet amount is reduced, the liquid level of the petroleum descends, the buoyancy frame 41 and the stirring frame 42 move downwards under the influence of gravity, the stirring frame 42 can push the second rotating block 54 to move downwards, the second rotating block 54 drives the slotted pushing frame 55 and the partition plate 35 to move downwards, the partition plate 35 blocks the oil outlet pipe 31, the petroleum does not flow out through the oil outlet pipe 31 and the first supporting frame 34 any more, and the above steps are repeated, so that the petroleum intermittently flows out, and the petroleum can be conveniently measured subsequently.
Example 2
Based on embodiment 1, as shown in fig. 6 to 11, the oil-discharging metering device 6 is further included, the oil-discharging metering device 6 is fixedly installed on the right side of the storage tank 2, the oil-discharging metering device 6 is used for metering oil-discharging amount, the oil-discharging metering device 6 includes a first support frame 61, a second support frame 62, a first guide pipe 621, a first rotating frame 63, a first straight gear 64, a first indication frame 65, a second straight gear 66, a third straight gear 67, a second indication frame 68, a fourth straight gear 681, a first support frame 69 with scales and a first scale frame 610, the first support frame 61 is fixedly installed on the right side of the storage tank 2, the second support frame 62 is arranged below the first support frame 61, the second support frame 62 is communicated with the first support frame 34, the first guide pipe 621 for discharging oil is communicated with the second support frame 62, the first rotating frame 63 is rotatably connected to the second support frame 62, the first rotating frame 63 is closely attached to the second supporting shell 62, a first straight gear 64 is fixedly connected to the first rotating frame 63, a first indicating frame 65 for indicating is rotatably connected to the top of the second supporting shell 62, a second straight gear 66 is arranged on the first indicating frame 65, the second straight gear 66 is meshed with the first straight gear 64, a third straight gear 67 is fixedly connected to the first indicating frame 65, a second indication frame 68 rotary type for instructing is connected in the top of second support housing 62, the rigid coupling has fourth spur gear 681 on the second indication frame 68, fourth spur gear 681 and third spur gear 67 meshing, second support housing 62 top surface fixed mounting has first scale support frame 69, first scale support frame 69 and first indication frame 65 contact each other, first scale frame 610 fixed mounting supports the top surface of housing 62 at the second, first scale frame 610 and second indication frame 68 contact each other.
The gas outlet metering device comprises a gas outlet metering component 60, the gas outlet metering component 60 is fixedly arranged above a first supporting frame 61, the gas outlet metering component 60 is used for metering gas outlet quantity, the gas outlet metering component 60 comprises a third supporting shell 602, a second guide pipe 6021, a second rotating frame 603, a fifth straight gear 604, a third indicating frame 605, a sixth straight gear 606, a seventh straight gear 607, a fourth indicating frame 608, an eighth straight gear 6081, a second support frame 609 with scales and a second scale frame 6010, the third supporting shell 602 is arranged above the first supporting frame 61, the third supporting shell 602 is communicated with a gas outlet pipe 32, the second guide pipe 6021 for discharging gas is communicated with the third supporting shell 602, the third supporting shell 602 is rotatably connected with the second rotating frame 603, the second rotating frame 603 is tightly attached to the third supporting shell 602, the fifth straight gear 604 is fixedly connected to the second rotating frame 603, and the top of the third supporting shell 602 is connected with the third indicating frame 605 for indicating, a sixth spur gear 606 is arranged on the third indication frame 605, the sixth spur gear 606 is meshed with the fifth spur gear 604, the seventh spur gear 607 is fixedly connected to the third indication frame 605, a fourth indication frame 608 for indication is rotatably connected to the top of the third support housing 602, an eighth spur gear 6081 is fixedly connected to the fourth indication frame 608, the eighth spur gear 6081 is meshed with the seventh spur gear 607, a second support frame 609 with scales is fixedly arranged on the top surface of the third support housing 602, the second support frame 609 with scales is contacted with the third indication frame 605, a second scale rack 6010 is fixedly arranged on the top surface of the third support housing 602, and the second scale rack 6010 is contacted with the fourth indication frame 608.
The gas is discharged into the third supporting shell 602 through the gas outlet pipe 32, the gas pushes the second rotating rack 603 to rotate, the gas is discharged into the oil transfer station through the second flow guide pipe 6021, the second rotating rack 603 drives the fifth spur gear 604 to rotate, so that the fifth spur gear 604 drives the sixth spur gear 606 and the upper device thereof to rotate, the gear ratio of the sixth spur gear 606 to the fifth spur gear 604 is 10:1, the fifth spur gear 604 drives the sixth spur gear 606 and the upper device thereof to rotate slowly according to the gear ratio of the sixth spur gear 606 to the fifth spur gear 604, the seventh spur gear 607 drives the eighth spur gear 6081 and the fourth indication rack 608 to rotate, the gear ratio of the seventh spur gear 607 to the eighth spur gear 6081 is 1:10, the gear ratio of the seventh spur gear 607 to the eighth spur gear 6081 can be known according to the gear ratio of the seventh spur gear 607 to the eighth spur gear 6081, the seventh spur gear rotates one circle to drive the eighth spur gear 6081 and the fourth indication rack 608 to rotate ten circles, the third indication frame 605 and the fourth indication frame 608 are rotated to measure the oil output, the third indication frame 605 points to the scale on the second support frame 609 with scales, the fourth indication frame 608 points to the scale on the second scale frame 6010, and the staff judges the gas output through the scales indicated by the third indication frame 605 and the fourth indication frame 608, and repeats the above operations to measure the gas output.
The oil is discharged into the second supporting shell 62 through the oil outlet pipe 31 and the first supporting frame 34, and then discharged into the oil transfer station through the first guide pipe 621, the oil pushes the first rotating frame 63 to rotate, the first rotating frame 63 drives the first straight gear 64 to rotate, so that the first straight gear 64 drives the second straight gear 66 and the devices thereon to rotate, the gear ratio of the second straight gear 66 to the first straight gear 64 is 10:1, the first straight gear 64 drives the second straight gear 66 and the devices thereon to rotate slowly according to the gear number of the second straight gear 66 to the first straight gear 64, the third straight gear 67 drives the fourth straight gear 681 and the second indication frame 68 to rotate, the gear ratio of the third straight gear 67 to the fourth straight gear 681 is 1:10, the gear number of the third straight gear 67 to the fourth straight gear 681 can be known according to the gear number of the third straight gear 67 to the fourth straight gear 681, the third straight gear 67 rotates one circle to drive the fourth straight gear 681 and the second indication frame 68 to rotate ten circles, make first instruction frame 65 and second instruct frame 68 to rotate and measure the volume of producing oil, first instruction frame 65 can point to the scale on the first scale support frame 69 of taking, the scale on the second instruction frame 68 point to first scale frame 610, the staff is through the scale that first instruction frame 65 and second instruction frame 68 instructed, and then judge how much of the volume of producing oil, repeat above-mentioned operation, measure the flow of producing oil.
Example 3
On the basis of embodiment 2, as shown in fig. 9 to 12, the oil-out sensing assembly 7 is further included, the first support frame 69 with a scale is slidably connected with the oil-out sensing assembly 7, the oil-out sensing assembly 7 is used for sensing whether oil is out, the oil-out sensing assembly 7 includes a second support frame 71, a reset wedge block 711, a second spring 72, a first shifting rod 73 and a pushing frame 74, the first support frame 69 with a scale is slidably connected with the second support frame 71, six reset wedge blocks 711 are fixedly connected to the inner bottom surface of the second support frame 71 in a distributed manner, a pair of second springs 72 is connected between the second support frame 71 and the first support frame 69 with a scale, the first shifting rod 73 is fixedly connected to the top surface of the first indication frame 65, the top of the first shifting rod 73 is in contact with the bottom of the second support frame 71 through the reset wedge block 711, the first shifting rod 73 can push the second support frame 71 to move upward through the reset wedge block 711, the second support frame 71 is fixedly connected with a pushing frame 74.
The air outlet sensing assembly 8 is connected to a second support 609 with scales in a sliding manner, the air outlet sensing assembly 8 comprises a third support 81, a third spring 82, a third rotating frame 83, a second poking rod 831, a rotating disc 832, a pushing block 833 torsion spring 84 and a reset frame 85, the second support 609 with scales is connected with the third support 81 in a sliding manner, the third support 81 is in movable contact with the upper surface of the pushing frame 74, the pushing frame 74 is used for pushing the third support 81 and the upper device thereof to move upwards, a pair of third springs 82 are connected between the third support 81 and the second support 609 with scales, the third support 81 is connected with a third rotating frame 83 in a rotating manner, the second poking rod 831 is welded on the top surface of the third indication frame 605, the bottom of the third rotating frame 83 is fixedly connected with a rotating disc 832, the pushing block 833 is fixedly connected to the bottom surface of the rotating disc 832, the rotating disc 832 is in contact with the second poke rod 831, the second poke rod 831 is used for pushing the pushing block 833 and the device thereon to rotate, a torsion spring 84 is connected between the rotating disc 832 and the third support frame 81, and a reset frame 85 is welded on the top surface of the second support frame 609 with scales.
Still including the attention device 9, attention device 9 fixed mounting is on the top surface of third support frame 81, and attention device 9 and third rotating turret 83 activity contact, and attention device 9 is used for sending out the warning suggestion staff and does not have the oil to get into in the bin 2.
When the third indicating frame 605 rotates, the third indicating frame 605 drives the second shifting rod 831 to rotate, the second shifting rod 831 pushes the pushing block 833 and the device thereon to rotate, meanwhile, the first indicating frame 65 rotates to drive the first shifting rod 73 to rotate, the first shifting rod 73 pushes the resetting wedge block 711 and the second supporting frame 71 to move upwards, the second supporting frame 71 and the pushing frame 74 reciprocate up and down through the matching of the resetting wedge block 711 and the second spring 72, and the pushing frame 74 pushes the third supporting frame 81 and the device thereon to reciprocate up and down. When the second supporting frame 71 and the pushing frame 74 move upward, the pushing frame 74 pushes the third supporting frame 81 and the devices thereon to move upward, the pushing block 833 and the rotating disc 832 are separated from the second toggle rod 831, the compressed torsion spring 84 resets to drive the rotating disc 832 and the second rotating frame 603 to rotate and reset, when the second supporting frame 71 and the pushing frame 74 move downward, the pushing frame 74 is separated from the third supporting frame 81, the stretched third spring 82 resets to drive the third supporting frame 81 and the devices thereon to move downward and reset, and the rotating disc 832 is in contact with the second toggle rod 831 again.
When no oil is discharged from the storage tank 2, the oil outlet pipe 31 is blocked by the partition 35, so that no oil enters the second support case 62, then the first rotating frame 63 and the devices thereon are not rotated any more, the gas will enter the storage tank 2 through the oil inlet pipe 33, and then the gas will be discharged into the third supporting housing 602 through the gas outlet pipe 32, the gas will push the second rotating frame 603 and the devices thereon to rotate continuously, the third indicating frame 605 will continue to drive the second shifting rod 831 to rotate, the second shifting rod 831 will continue to push the pushing block 833 and the devices thereon to rotate, since the first indicating frame 65 and the first dial link 73 are not rotated, the pushing block 833 and the rotating disk 832 are not separated from the second dial link 831, the rotating angle of the rotating disc 832 and the device thereon is increased, the third rotating frame 83 contacts with the alarm 9, the third rotating frame 83 presses the alarm 9, and the alarm 9 gives an alarm to indicate that no oil enters the storage tank 2. After that, the pushing block 833 can contact with the reset frame 85, the reset frame 85 can push the pushing block 833 and the rotating disc 832 to move upwards through the inclined plane, the rotating disc 832 is separated from the second poking rod 831, the compressed torsion spring 84 resets to drive the rotating disc 832 to rotate and reset, a worker checks the equipment, finds the reason that no petroleum enters the storage tank 2, and after the worker detects the completion, the petroleum continuously flows into the storage tank 2 along with the petroleum, so that the petroleum in the storage tank 2 can be continuously increased, and the equipment operates again to measure the flow of the petroleum and the gas.
Example 4
In addition to embodiment 3, as shown in fig. 6, the present invention further includes a first check valve 101 and a second check valve 102, wherein the first guide tube 621 is provided with the first check valve 101 for preventing oil from flowing back, and the second guide tube 6021 is provided with the second check valve 102 for preventing gas from flowing back.
The oil is discharged from the first flow guide 621 to the oil transfer station, the gas is discharged from the second flow guide 6021 to the oil transfer station, the first check valve 101 can prevent the oil from flowing back into the second support housing 62, and the second check valve 102 can prevent the gas from flowing back into the third support housing 602, thereby preventing errors in metering.
The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.