CN108331924A

CN108331924A - A kind of downhole pulser control valve of low remanent magnetism

Info

Publication number: CN108331924A
Application number: CN201711449034.9A
Authority: CN
Inventors: 代春生; 刘敏; 吴磊; 谢小军; 莫志锋; 杜军伟
Original assignee: GUANGDONG PRO-CONTROL TECHNOLOGY Co Ltd
Current assignee: GUANGDONG PRO-CONTROL TECHNOLOGY Co Ltd
Priority date: 2016-03-28
Filing date: 2016-03-28
Publication date: 2018-07-27
Anticipated expiration: 2036-03-28
Also published as: CN108331924B; CN105757260B; CN105757260A

Abstract

The application is Chinese March 28 2016 applying date,Application number 201610181338.0,The divisional application of entitled " a kind of downhole pulser control valve of low remanent magnetism ",It is related to a kind of downhole pulser control valve of low remanent magnetism,Return spring is arranged in the control valve between push rod and plug,When electromagnetic actuator device driving push rod pushes plug to block valve port,Spring can be compressed,Spring force is applied to the thrust on push rod less than electromagnetic actuator device at this time,More than mud pressure to the thrust of plug,Its one end pushes plug and resists mud pressure at valve port,The other end applies deboost to push rod,When valve port to be opened removes the control signal code of electromagnetic actuator device,Although push rod is to spring, also there are part thrusts due to remanent magnetism,But the remanent magnetism thrust is substantially less than the reaction force of spring,Push rod can fast fallback and break away from remanent magnetism thrust,Then lower end cap and push rod is pushed to reset completely in mud pressure,So that control valve can be carried out effectively high frequency response.

Description

A kind of downhole pulser control valve of low remanent magnetism

The application is Chinese March 28 2016 applying date, and application number 201610181338.0 is entitled " a kind of low surplus The divisional application of the downhole pulser control valve of magnetic ".

Technical field

The invention is related to oil exploration and drilling and production technology field, more particularly to a kind of underground pulse generation of low remanent magnetism Device control valve.

Background technology

During oil exploration, drilling, drilling equipment is essential tool.The core of drilling equipment is to bore Head, it is therefore desirable to monitor the drilling situation of drill bit at any time.However, going deep into probing, drill bit can go deep into stratum, on ground Staff the case where being difficult to directly observe drill bit, therefore, it is necessary to which a variety of monitoring devices are arranged at drill bit, such as direction passes Sensor and temperature sensor etc., and the data detected are transmitted to ground by communication link, by ground staff into Row receives analysis.

Since subsurface environment extremely dislikes summary, detection device is difficult to be communicated with ground by general communication line, It is difficult to be communicated with ground by conventional wireless mode.Currently, the mode of ground and underground communica tion is usually used one Impulse generator realizes that principle is that impulse generator is arranged in mud runner to control by slurry transportation pipeline, Impulse generator (is not completed to block in practical application, typically reduces the hole of runner according to certain rule to get through/block Diameter) mud runner, to make mud runner generate regular pulse, surface personnel is in ground detection and decodes these arteries and veins Punching is to obtain detection data.

Specifically, impulse generator generally comprises main valve and control valve, guiding valve is set in main valve and is set to outside guiding valve and is located Flow-limiting valve, the tail end of main valve is connected with control valve, and a mud part flow to control valve by spool cavity, and passes through control valve Discharge orifice in flow out, another part is by the gap between guiding valve and flow-limiting valve, when the valve port of control valve is closed, in guiding valve The mud of chamber can not flow out, and chamber pressure increases, and to push guiding valve to slide, reduce the gap between guiding valve and flow-limiting valve, whole The aperture of a slurry channel reduces, and to which mud integral pressure increases, generates a pulse.Therefore, as long as control valve is according to inspection The valve port of the orderly on-off control valve of signal of device is surveyed, entire slurry channel can generate a regular pulse.

However in putting into practice, the mechanical wave that impulse generator generates always is difficult to the electromagnetic wave occurred with detection device stringent one It causes, especially under conditions of high frequency.Applicant passes through the study found that the remanent magnetism that one of major reason is exactly control valve is asked Topic.In control valve, it usually needs an electromagnetic actuator device (being typically coil), electromagnetic actuator device is sent out according to detection device The electric signal come generates a magnetic field when needing to block valve port, to push the push rod in control valve, push rod to push plug again Valve port is blocked, is needing the when of releasing the closure to valve port then to cancel magnetic field, the mud pressure outside valve port can push plug and push rod It resets.However in fact, after removing the electric signal of electromagnetic actuator device, magnetic conduction substance still can residue have remanent magnetism, magnetic field difficult Quickly to completely disappear, therefore certain thrust is still suffered to push rod, which can offset one in push rod reseting procedure The initial period of the pressure of part mud offsets the pressure of mud, slow so as to cause resetting.And it is slow in the case that resetting, It is then difficult to be rapidly performed by high frequency response.

Invention content

The purpose of the invention is to avoid above-mentioned shortcoming in the prior art and electricity can be reduced by providing one kind The remanent magnetism of magnetic drive unit, so that control valve can be carried out effectively high frequency response.

Invention thinking：Inventor has found that in current control valve, the armature of electromagnetic actuator device can push against outside control valve Shell, moving armature can also push against control valve shell through magnetic conductance seat, and armature, control valve shell, magnetic conductance seat and moving armature constitute one A closed loop, electromagnetic actuator device generate magnetic field and are transmitted in the closed loop, that is to say, that the flux path is needed by control valve Shell, and control valve is when selecting shell, usually top-priority is hardness performance, it is ensured that control valve surface is resistant to mud Erosion is without being destroyed.But in nature, its general magnetic property of the good material of hardness performance is poor, therefore, shell Just become the key of the remanent magnetism of electromagnetic actuator device.But the method that those skilled in the art reduces remanent magnetism at present is typically Based on to coil, the magnetic conductance seat etc. in electromagnetic actuator device, it is not fully recognized that shell is only the key for generating remanent magnetism.

The purpose of the invention is achieved through the following technical solutions：

Provide a kind of downhole pulser control valve of low remanent magnetism, including valve port, discharge orifice, plug, push rod and electricity Magnetic drive unit, the valve port are connected to the discharge orifice, and the electromagnetic actuator device drives according to the control signal received The push rod is moved towards valve port, so that the push rod drives the plug to block the valve port, the electromagnetic actuator device packet Electromagnetic coil, magnetic conductance seat and the moving armature being set in magnetic conductance seat are included, the electromagnetic coil generates drive according to electric control signal Moving field, shell of the driving magnetic field through control valve are transferred to the magnetic conductance seat to drive moving armature to be transported towards valve port Dynamic, moving armature connects the push rod, maximum permeability μm >=0.012H/m, magnetic induction intensity when magnetic field intensity is 300A/m B300≥1.1T。

Wherein, the control valve shell is coated with hard alloy layer.

Wherein, the hardness of the hard alloy layer is more than or equal to 1200HV0.3.

Wherein, the bond strength of the hard coat and control valve shell is more than or equal to 120Mpa.

Wherein, the thickness of the hard coat is less than or equal to 0.2mm.

Wherein, further include return spring, return spring one end is connect with push rod, and the other end is connect with plug, the push rod Make the return spring deformation and then the plug is driven to block the valve port, when the plug blocks the valve port, described time Power spring is more than pressure of the liquid to valve port plug to the active force of push rod and plug.

Wherein, the plug offers inner cavity, and one end of the push rod towards valve port is inserted in the inner cavity.

Wherein, the inner cavity cavity wall of the plug or lateral wall open up fluted, and the push rod front end is provided with spacer pin Axis, the limit pin shaft are inserted in the groove, and the width along groove described in push rod vibration-direction is more than the limit The width of axis pin, so that the limit pin shaft can move back and forth in a groove when push rod reciprocating motion.

Wherein, the one end of the plug far from valve port is provided with the first stage, and the push rod is provided with the second stage, described The first stage is fixed in return spring one end, and the other end is fixed on the second stage.

The advantageous effect of the invention：The invention has paid the utmost attention to leading for material when selecting controller housing Magnetic energy power, particularly, it is desirable that the maximum permeability μm of shell >=0.012H/m, magnetic induction intensity when magnetic field intensity is 300A/m The requirement of B300 >=1.1T, since magnetic permeability is bigger, it is only necessary to pass to smaller electric current energy for electromagnetic actuator device Battery armature is enough enabled to obtain enough magnetic field forces, this aspect reduces the energy consumption of battery powered device, and battery power fills The magnetic field intensity for setting generation is also smaller, therefore it is also smaller to be transferred to the magnetic field intensity on controller housing, Gu it also can be substantially Reduction remanent magnetism.

Description of the drawings

The invention is described further using attached drawing, but the embodiment in attached drawing is not constituted to the invention Any restrictions for those of ordinary skill in the art without creative efforts, can also be according to following attached Figure obtains other attached drawings.

Fig. 1 is a kind of structural schematic diagram of the downhole pulser control valve of low remanent magnetism of the invention.

Include in Fig. 1：

1 --- valve port, 2 --- discharge orifice, 3 --- plug, 31 --- inner cavity, 32 --- groove, 33 --- first stage, 4 --- --- --- --- return spring, 6 --- electromagnetic coil, 7 --- are outer for the second stage, 5 for limit pin shaft, 42 for push rod, 41 Shell, 8 --- magnetic conductance seat, 9 --- moving armature.

Specific implementation mode

The invention is further described with the following Examples.

A kind of specific implementation mode of the downhole pulser control valve of low remanent magnetism of the invention, as shown in Figure 1, packet It includes：Valve port 1, discharge orifice 2, plug 3, push rod 4 and electromagnetic actuator device, the valve port 1 are connected to the discharge orifice 2, the electricity Magnetic drive unit is moved according to push rod 4 described in the control signal drive control received and plug 3 towards valve port.

The plug 3 offers inner cavity 31, and one end of the push rod 4 towards valve port 1 is inserted in the inner cavity 31, described Push rod 4 drives the plug 3 to block the valve port 1, and 31 cavity wall of inner cavity of plug 3 opens up fluted 32, and 4 front end of the push rod is set It is equipped with limit pin shaft 41, the limit pin shaft 41 is inserted in the groove 32, along groove 32 described in 4 vibration-direction of push rod Width be more than the width of the limit pin shaft 41 so that the limit pin shaft 41 can be when push rod 4 moves back and forth It is moved back and forth in groove 32.

Further include return spring 5, the one end of plug 3 far from valve port 1 is provided with the first stage 33, and push rod 4 is provided with second The first stage 33 is fixed in stage 42,5 one end of the return spring, and the other end is fixed on the second stage 42.

When electromagnetic actuator device driving push rod 4 is moved towards valve port 1, push rod 4 pushes return spring 5, and then pushes stifled First 3 move towards valve port 1, when plug 3 resists valve port 1, are more than mud to plug 3 due to acting on the thrust of push rod 4 at this time Pressure, and limit pin shaft 41 can move back and forth in groove 32, therefore push rod 4 will continue to move forward at this time so that Hui Li Spring 5 compresses；When the electric current of electromagnetic actuator device removes, electromagnetic actuator device understands rapid decrease to the thrust of push rod 4, though at this time So can also because of remanent magnetism and to push rod 4, there are certain thrusts, but the inevitable return spring 5 that is substantially less than of the thrust is to push rod 4 Thrust, push rod 4 can fast fallback, until limit pin shaft 41 touches the inner wall of groove 32, because at this moment having put Remanent magnetism is taken off, plug 3 and push rod 4 can continue the rapid reset completely in the case where mud pressure pushes.

Compared with prior art, this technology no longer place one's entire reliance upon mud to the pressure of plug 3 come promote push rod 4 reset, And, electromagnetic actuator device more than the thrust of mud pressure substantially to come driving push rod 4 and plug 3, to realize to valve port 1 Quick blocking, releasing when being blocked to valve port 1 spring to the active force of push rod 4 also greater than mud pressure, can significantly reduce The influence of remanent magnetism blocks to quickly be released to valve port 1, and control valve is completed to block --- and it releases and blocks needed for the This move period Time substantially reduce, response speed effectively improves, therefore the control valve being capable of significantly more efficient response high-frequency signal.

In the present embodiment, the electromagnetic actuator device includes electromagnetic coil 6, magnetic conductance seat 8 and the work being set in magnetic conductance seat 8 Moving armature 9, the electromagnetic coil 6 generate driving magnetic field according to electric control signal, and shell 7 of the driving magnetic field through control valve passes The magnetic conductance seat 8 is handed to drive moving armature 9 to be moved towards valve port 1, moving armature 9 connects the push rod 4, the control Coercivity H≤35A/m of valve shell 7, maximum permeability μm >=0.012H/m, magnetic induction intensity when magnetic field intensity is 300A/m B300≥1.1T.Since control valve shell 7 belongs to magnetic conduction device important in electromagnetic actuator device, control valve shell 7 Performance can seriously affect the case where remanent magnetism, to influence the response speed of control valve.However, at present in the shell for considering solenoid valve When 7 materials, its changing firmness requirements is usually only considered, without considering its magnetic permeability, the application is due to recognizing remanent magnetism to control The influence of response valve ability processed, therefore preferably conform to material of the material of These parameters as control valve shell 7.Another party Face, since magnetic permeability is bigger, electromagnetic actuator device can enable battery armature obtain it is only necessary to pass to smaller electric current Enough to magnetic field force, this aspect reduces the energy consumption of battery powered device, and underground field of detecting, underground electricity consumption are ten after all Divide difficulty, system stability can effectively be improved by reducing power consumption, and the magnetic field intensity that battery powered device generates also compares It is smaller, therefore it is also smaller to be transferred to the magnetic field intensity on controller housing, Gu it also can significantly reduce remanent magnetism.

Particularly, control valve shell 7 is coated with hard alloy layer.The hardness of the hard alloy layer is more than or equal to 1200HV0.3.The bond strength of the hard coat and control valve shell 7 is more than or equal to 120Mpa.The thickness of the hard coat Degree is less than or equal to 0.2mm.When selecting the preferable material of magnetic permeability to be used as shell 7, inevitably, the shell 7 of control valve Hardness there will be being declined, this can cause control valve outer surface to be subject to slurry erosion and be destroyed, therefore, in control valve The outer surface coated with hard alloy-layer of shell 7, so that it is guaranteed that control valve surface is resistant to slurry erosion without being destroyed.

Finally it should be noted that above example is only to illustrate the technical solution of the invention, rather than to this hair It is bright create protection domain limitation, although being explained in detail to the invention with reference to preferred embodiment, this field it is general Lead to it will be appreciated by the skilled person that can be modified or replaced equivalently to the technical solution of the invention, without departing from this The spirit and scope of innovation and creation technical solution.

Claims

1. a kind of downhole pulser control valve of low remanent magnetism, including valve port, discharge orifice, plug, push rod and electromagnetic drive dress It sets, the valve port is connected to the discharge orifice, and the electromagnetic actuator device drives the push rod according to the control signal received It is moved towards valve port, so that the push rod drives the plug to block the valve port, the electromagnetic actuator device includes electromagnetic wire Circle, magnetic conductance seat and the moving armature being set in magnetic conductance seat, the electromagnetic coil generate driving magnetic field, institute according to electric control signal It states shell of the driving magnetic field through control valve and is transferred to the magnetic conductance seat to drive moving armature towards valve port movement, moving armature Connect the push rod, it is characterised in that：Maximum permeability μm >=0.012H/m, magnetic induction intensity when magnetic field intensity is 300A/m B300≥1.1T。

2. a kind of downhole pulser control valve of low remanent magnetism as described in claim 1, it is characterised in that：The control valve Shell is coated with hard alloy layer.

3. a kind of downhole pulser control valve of low remanent magnetism as claimed in claim 2, it is characterised in that：The hard closes The hardness of layer gold is more than or equal to 1200HV0.3.

4. a kind of downhole pulser control valve of low remanent magnetism as claimed in claim 2, it is characterised in that：The hard applies The bond strength of layer and control valve shell is more than or equal to 120Mpa.

5. a kind of downhole pulser control valve of low remanent magnetism as claimed in claim 2, it is characterised in that：The hard applies The thickness of layer is less than or equal to 0.2mm.

6. a kind of downhole pulser control valve of low remanent magnetism as described in claim 1, it is characterised in that：Further include Hui Li Spring, return spring one end are connect with push rod, and the other end is connect with plug, and the push rod makes the return spring deformation and then drives The dynamic plug blocks the valve port, when the plug blocks the valve port, effect of the return spring to push rod and plug Power is more than pressure of the liquid to valve port plug.

7. a kind of downhole pulser control valve of low remanent magnetism as described in claim 1, it is characterised in that：The plug is opened Equipped with inner cavity, one end of the push rod towards valve port is inserted in the inner cavity.

8. a kind of downhole pulser control valve of low remanent magnetism as described in claim 1, it is characterised in that：The plug Inner cavity cavity wall or lateral wall open up fluted, and the push rod front end is provided with limit pin shaft, and the limit pin shaft is inserted in institute It states in groove, the width of the limit pin shaft is more than along the width of groove described in push rod vibration-direction, so that pushing away The limit pin shaft can move back and forth in a groove when bar reciprocating motion.

9. a kind of downhole pulser control valve of low remanent magnetism as described in claim 1, it is characterised in that：The plug is remote One end from valve port is provided with the first stage, and the push rod is provided with the second stage, and described return spring one end is fixed on first Stage, the other end are fixed on the second stage.