CN104343434A - Jam prevention apparatus and method for probe in borehole - Google Patents

Abstract

The present invention relates to a device and a method for preventing a probe from being hung in a borehole, capable of unhanging the probe when the probe for detecting inner environment of the borehole is hung on the inside of the borehole. the present invention includes a probe detecting the inner environment of the bore hole; a first vibration unit installed in the upper part of the probe; a second vibration unit installed in the lower part of the probe; a third vibration unit installed on the circumference of the probe; and a support cable having a power line to individually supply power to one or more vibration motors included in the first, second, and third vibration units. The first and second vibration units can be detached from the probe, and the third vibration unit is a rubber packer.

Description

Prevent probe rod at the device and method of the inside of boring engaging

Technical field

The present invention relates to and can engagement release prevent probe rod at the device and method of the inside of boring engaging when the probe rod of the internal environment being used for detecting boring is in the inside engaging of holing.

Background technology

Arranging underground structure, obtain underground water, thermal water, oil, subterranean resource or the underground pollution that measures air be when spending, and can insert the environment that various probe (Probe) detects inside, underground in the inside of the boring formed by rig.

And this probe not only price height is also responsive especially, therefore, the content broken that great care is being holed.

Especially, probe is easily damaged because of engaging in the internal poles of boring.

Existing document related to the present invention has No. 2009-0097058th, Korean Patent Room publication publication (on 09 15th, 2009 open), discloses and carries out by calliper log the method for resolving that chaps, comprising: body in this existing document; Three probe units of independently movement separately; Arciform leaf spring, when the crack that the part in above-mentioned probe unit and the inwall of the boring (borehole) of the fracture planes at through underground medium are formed because of above-mentioned fracture planes contacts, contact with the inwall of above-mentioned boring, depart from from center to prevent above-mentioned body; And compass (compass), for measuring the azimuth of a probe unit 1 in above-mentioned probe unit.

But the calliper log method of resolving of carrying out chapping of crossing in the past does not have the unit that can be removed when probe unit is in the inside engaging of holing.

Therefore, existence is difficult to prevent the damage of probe unit or the problem of loss in advance.

Thus, in the urgent need to the technology of the probe engaging of all kinds used in the inside of boring easily can be removed.

Prior art document

Patent document

The patent No.: No. 2009-0097058th, Korean Patent Room publication publication (on 09 15th, 2009 open), patent name: resolve the method for be full of cracks by calliper log and store the recording medium of the program for performing the method

Summary of the invention

The present invention proposes in order to the problem solving conventional art as above, the object of the invention is to, and provides the device preventing probe rod from engaging in the inside of boring easily can removing the engaging of probe when detecting the inside of boring.

Further, the present invention proposes in order to the problem solving conventional art described above, the object of the invention is to, and provides the engaging easily can removing probe when detecting the inside of boring to prevent probe rod in the method for the inside of boring engaging.

For this reason, the probe rod that prevents of the present invention, at the device of the inside of boring engaging, comprising: probe rod, for detecting the environment of the inside of boring, first vibration section, is arranged at the top of probe rod, the second vibration section, be arranged at the bottom of probe rod, 3rd vibration section, is arranged at the periphery of probe rod, and supporting cable, there is power line, above-mentioned power line be used for respectively to being arranged at the first vibration section, at least one vibrating motor of the second vibration section and the 3rd vibration section powers; First vibration section and the second vibration section can be installed and removed relative to probe rod, and the 3rd vibration section is rubber packing department.

The device preventing probe rod from engaging in the inside of boring of embodiments of the invention, also comprises: the first switch, with power line conducting, for starting the first vibration section; Second switch, with power line conducting, for starting the second vibration section; And the 3rd switch, with power line conducting, for starting the 3rd vibration section.

Further, the device preventing probe rod from engaging in the inside of boring of embodiments of the invention, at least one display also comprising at least one camera on the top of above-mentioned probe rod and be connected with camera; Above-mentioned camera is connected by holding wire with aforementioned display device.

Further, in embodiments of the invention, above-mentioned periphery arranges multiple rubber packing department; Rubber packing department comprises the thread gluing (Velcro) that can install and remove; Above-mentioned rubber packing department also comprises and the power supply terminal of power supply conducting and battery.

On the other hand, for solving the problem, the probe rod that prevents of the present invention comprises in the method for the inside of boring engaging: steps A, makes probe rod rise in the inside of boring or decline; Step B, judges whether probe rod engages; Step C, if detect that in above-mentioned steps B probe rod engages, then makes the first switch short to start the first vibration section; Step D, judges whether probe rod engages; Step e, if detect that probe rod engages in step D, then makes second switch short circuit to start the second vibration section; Step F, judges whether probe rod engages; Step G, if detect that in step F probe rod engages, then makes the 3rd switch short start the 3rd vibration section; Step H, judges whether probe rod engages; And step I, if detect that probe rod engages in steph, then make the short circuit simultaneously of the first switch, second switch and the 3rd switch start the first vibration section, the second vibration section and the 3rd vibration section.

For this reason, the first vibration section of the present invention, the second vibration section and the 3rd vibration section can comprise at least one vibrating motor.

Further, the 3rd vibration section of the present invention comprises the rubber packing department of the periphery surrounding probe rod; Rubber packing department has thread gluing; Comprise multiple rubber packing department; In step B, step D, step F and step H, by judging whether above-mentioned probe rod engages by the camera being arranged at probe rod to the image of display real-time Transmission.

Further, the present invention includes multiple camera.

The following explanation carried out with reference to accompanying drawing can allow feature of the present invention and advantage definitely.

Should notice; the term used in this manual and rights protection scope or word can not be interpreted as the meaning on conventional dictionary; by the method for the best, inventor is in order to illustrate that it is invented; suitably can define term; based on this principle, the explanation of technological thought according to the invention should be made.

According to various embodiments of the present invention, there is following effect in the present invention, when detecting the probe engaging of inside of boring, easily can remove the engaging of probe by starting at least one vibration section.

Therefore, according to various embodiments of the present invention, final also have following effect, while the probe damage of the high price of the inside preventing probe from holing, can also save the temporal loss engaging and cause.

Accompanying drawing explanation

Fig. 1 is the illustration figure of the device 100 preventing probe rod from engaging in the inside of boring representing embodiments of the invention for illustrating.

Fig. 2 prevents probe rod at the circuit diagram of electronic work of the device 100 of the inside of boring engaging for illustration of the first embodiment of the present invention.

Fig. 3 is the illustration figure of the device 100 preventing probe rod from engaging in the inside of boring for representing the second embodiment of the present invention.

Fig. 4 is the illustration figure of the device 200 preventing probe rod from engaging in the inside of boring for representing the third embodiment of the present invention.

Fig. 5 prevents probe rod at the illustration figure of the 3rd vibration section of the device of the inside of boring engaging for what represent the fourth embodiment of the present invention.

Fig. 6 is the precedence diagram of the method preventing probe rod from engaging in the inside of boring for representing the fifth embodiment of the present invention.

The explanation of Reference numeral

100: prevent probe rod at the device of the inside of boring engaging

110: probe rod 120: the three vibration section

121,122,123: the three vibrating motor 124: the three switches

125,126: thread gluing 127: power supply terminal

128: battery 130: the first vibration section

131: the first vibrating motor 132: the first switches

140: the second vibration section 141: the second vibrating motors

142: second switch 150: the first camera

155: supporting cable 160: the second camera

170: the first displays 180: second display

A: boring a: vibrating motor

Detailed description of the invention

With reference to accompanying drawing and the following detailed description be associated and preferred embodiment, can allow object of the present invention and specific advantage and novelty feature definitely.Should notice, in this manual, when Reference numeral is marked to the structural element of each accompanying drawing, for identical structural element, even if illustrate in different drawings, also mark identical Reference numeral as far as possible.Further, first, second term such as grade is used for a structural element to be different from another structural element, and therefore structural element is not limited to above-mentioned term.

Further, the statement of odd number form used below, only otherwise containing the clearly contrary meaning, comprise plural form.In manual full text, when some parts " comprise " some structural elements, when making contrary record especially, other structural elements can also be comprised, do not get rid of other structural element.

Identical parts for Fig. 1 to Fig. 6 mark identical Reference numeral.

General principle of the present invention is, the probe of the inside of detection boring has at least one vibration section, and when probe engages, Vibration on Start-up portion carrys out engagement release.

First, used in an embodiment of the present invention probe refers to the probe of all kinds of the inside of detection boring.

Meanwhile, when illustrating of the present invention, when being judged as that the specific description of known function or the structure be associated unnecessarily can obscure main idea of the present invention, its detailed description can be omitted.

Below, with reference to accompanying drawing, be preferred embodiment described in detail of the present invention.

Fig. 1 is the illustration figure that citing represents the device 100 preventing probe rod from engaging in the inside of boring of embodiments of the invention.

With reference to Fig. 1, the probe rod that prevents of the present invention comprises at the device of the inside engaging of boring A: probe rod 110, for detecting the environment of the inside of boring A; First vibration section 130, is arranged at the top of probe rod 110; Second vibration section 140, is arranged at the bottom of probe rod 110; 3rd vibration section 120, is arranged at the periphery of probe rod; And supporting cable 155, have power line, above-mentioned power line is used for powering at least one vibrating motor being arranged at the first vibration section 140, vibration section 130, second and the 3rd vibration section 120 respectively.

First, openly hole A.

Boring A refers in order to geological survey to the hole that deep under ground bores.In order to detect the environment of the boring A inside formed like this, probe rod 110 is declined to the inside of boring A.The probe rod 110 dropping to certain depth detects environment in its position.Illustrate, probe rod 110 can detect the concentration etc. of the carbon dioxide at ad-hoc location, also can measure the water quality of underground water.

That is, all probe rods 110 that the inside that probe rod 110 is included in boring A uses, are not limited to some.

On the other hand, when the inside of the A that holes performs decline and rises, often there is probe rod 110 by the situation of the obstruction engaging of the inside of boring A in probe rod 110.

Because probe rod 110 comprises sensor responsive especially, therefore apply pressure in order to engagement release by hand brute force and this sensor can be made to damage.

Further, also to fracture due to the power line be electrically connected with probe rod 110 or supporting cable 155 fractures, cause losing probe rod 110.

At this, power line is included in the inside of the supporting cable 155 for supporting probe rod 110, and preferably, supporting cable 155 is positioned at top, degenerates to prevent probe rod 110.

Further, preferably, supporting cable 155 comprises power line for powering and holding wire (not shown), real-time Transmission image when above-mentioned holding wire is used for the video camera when attachment camera etc.

Therefore, probe rod 110, when the inside engaging of the A that holes, starts the first vibration section 130 to prevent the damage of probe rod 110.

With reference to Fig. 2, the probe rod that prevents of the first embodiment of the present invention is described in detail the electronic of device 100 of the inside of boring engaging.

Fig. 2 prevents probe rod at the circuit diagram of electronic work of the device 100 of the inside of boring engaging for illustration of the first embodiment of the present invention.

First, the first vibration section 130 has the first vibrating motor 131.In order to prevent the damage of the environment because of outside, the first vibrating motor 131 is packed.At this, rubber or synthetic resin etc. can be used to pack the first vibrating motor 131 as packaging unit.

Further, the quantity of the first set vibrating motor 131 is assumed to one, but preferably, the size and number of vibrating motor does not limit.

First vibrating motor 131 is connected with the first switch 132.First switch 132 supplies and supplies electric power from dc source to the first vibrating motor 131.

At this, the first switch 132 has been set as secondary switch, but preferably, also can use the switch making galvanic size progressively rise or decline with multiple-pole switch.

Again with reference to Fig. 2, first-selection is judged as that probe rod 110 is engaged by the obstruction of the inside of boring A, then make the first switch 132 short circuit, supply direct current to the first vibrating motor 131.Thus, along with the vibration of the first vibrating motor 131, the top of probe rod 110 starts vibration.

After making the first vibrating motor 131 start the stipulated time, connect the first switch 132.

If the engaging of probe rod 110 still detected, then make second switch 142 short circuit.So the second vibrating motor 141 be electrically connected with second switch 142 starts, and the second vibration section 140 vibrates thus.That is, the bottom of probe rod 110 starts vibration.

After making the second vibrating motor 141 start the stipulated time, connect second switch 142.

At this, as above-mentioned about the statement of the first vibration section 130, in order to prevent the second vibrating motor 141 of the second vibration section 140 from sustaining damage because of the environment of outside, rubber or synthetic resin etc. can be used to pack the second vibrating motor 141.

And, although the quantity of the second vibrating motor 141 has been set as one, but preferably, the size and number of vibrating motor is not limited, and second switch 142 has been set as secondary switch, but preferably, also can use the switch making galvanic size progressively rise or decline with multiple-pole switch.

Further, the first vibration section 130 and the second vibration section 140 can be fastening with the upper and lower of probe rod 110 discretely.

Such as, the bolt part (not shown) forming threaded bolt form is set in the bottom of the first vibration section 130, arranges on the top of probe rod 110 and form threaded nut portions (not shown), thus bolt part and nut portions are fastened.

This is applicable to the bottom of the second vibration section 140 and probe rod 110 equally.

On the other hand, if the engaging of probe rod 110 still detected, then make the 3rd switch 124 short circuit.

3rd switch 124 and multiple 3rd vibrating motor 121,122,123 conducting, along with the short circuit of the 3rd switch 124, supply electric power to the 3rd vibrating motor 121,122,123.So the 3rd vibrating motor 121,122,123 can start simultaneously.

At this, the 3rd vibration section 120 is formed by rubber packing department, is provided with the 3rd vibrating motor 121,122,123 in the inside of the 3rd vibration section 120.Therefore, the 3rd vibrating motor 121,122,123 can be separated mutually with the inside of boring A, can prevent the damage that foreign matter causes thus.

Further, because the 3rd vibration section 120 is formed by rubber packing department, the periphery of probe rod 110 can be thus easily close to.Therefore, vibration can be delivered to probe rod 110 entirety by the 3rd vibration section 120 more effectively.

That is, because the 3rd vibration section 120 makes the overall judder of probe rod 110, the situation that probe rod 110 is engaged by obstruction can therefore easily be removed.

If still engaging detected, then make the first switch 132, second switch 142, the short circuit simultaneously of the 3rd switch 124, the periphery of probe rod 110, top, bottom are vibrated simultaneously.Make probe rod 110 vibrate like this, then can remove the engaging of obstruction.

Equally, 3rd switch 124 has been set as secondary switch, but preferably uses the switch that galvanic size can be made progressively to rise or decline with multiple-pole switch, and the 3rd vibrating motor 121,122,123 has also been set as three, but preferably, do not limit its quantity and size.

Fig. 3 is the illustration figure of the device 100 preventing probe rod from engaging in the inside of boring for representing the second embodiment of the present invention.

During key diagram 3, the part repeated with the explanation of Fig. 2 is omitted as far as possible.

First, the top of the 3rd vibration section 120 is provided with at least one minicam 150.

In figure 3, minicam 150,160 is arranged at the top of the 3rd vibration section, but preferably, in order to confirm whether probe rod 110 engages, probe rod 110 is attached to the position can observing this probe rod 110 on the whole.

Again with reference to Fig. 3, the first minicam 150 by the holding wire (not shown) that is included in supporting cable 155 by the transmission of video of captured in real-time to the first display 170.

Further, the second minicam 160 by the holding wire (not shown) that is included in supporting cable 155 by the transmission of video of captured in real-time to second display 180.

Therefore, without the need to pulling cable 155 to confirm probe rod 110 whether to engage, easily confirm whether probe rod 110 engages by the picture shown at the first display 170 and second display 180.

Fig. 4 is the illustration figure of the device 200 preventing probe rod from engaging in the inside of boring for representing the third embodiment of the present invention.

With reference to Fig. 4, known compared with Fig. 2, the probe rod that prevents of the third embodiment of the present invention has multiple 3rd vibration section at the device 200 of the inside of boring engaging.

At this, for convenience of description, the 3rd a vibration section 220, the 3rd b vibration section 230, the 3rd c vibration section 240 are divided in the 3rd vibration section 210.

Further, in the 3rd a vibration section 220, the 3rd b vibration section 230, the 3rd c vibration section 240 have the 3rd a switch 225, the 3rd b switch 235, the 3rd c switch 245 that are connected respectively.

That is, be that there are multiple vibration sections that the periphery of probe rod 110 can be made to vibrate relative to the feature of the 3rd vibration section 210 of the 3rd vibration section 120, Fig. 4 of Fig. 2, more accurately can remove the engaging of probe rod 110.

Again with reference to Fig. 4, the probe rod that prevents of the third embodiment of the present invention is described at the device of the inside of boring engaging.

First, the first vibration section 250 has the first vibrating motor 251.In order to the damage preventing outside environment from causing, the first vibrating motor 251 is packed.At this, rubber or synthetic resin etc. can be used to pack the first vibrating motor 251 as packaging unit.

Further, the quantity of the first vibrating motor 251 has been set as one, but preferably, the size and number of vibrating motor does not limit.

First vibrating motor 251 can be connected with the first switch 255.First switch 255 can control to supply electric power from dc source to the first vibrating motor 131.

At this, the first switch 255 is set as two sections of switches, but preferably, also can uses the switch making galvanic size progressively rise or decline with multiple-pole switch.

First, be judged as that probe rod 110 is engaged by the obstruction of the inside of boring A, then make the first switch 255 short circuit, supply direct current to the first vibrating motor 251.Thus, along with the first vibrating motor 251 vibrates, the top of probe rod 110 starts vibration.

After making the first vibrating motor 251 start the stipulated time, connect the first switch 255.

If the engaging of probe rod 110 still detected, then make second switch 265 short circuit.The second vibrating motor 261 be electrically connected with second switch 265 thus starts to start, thus the second vibration section 260 vibrates.That is, the bottom of probe rod 110 starts vibration.

After making the second vibrating motor 261 start the stipulated time, connect second switch 265.

At this, as above-mentioned about the statement of the first vibration section 250, in order to prevent the second vibrating motor 261 of the second vibration section 260 from sustaining damage because of the environment of outside, rubber or synthetic resin etc. can be used to pack the second vibrating motor 261,

And, although the quantity of the second vibrating motor 261 has been set as one, but preferably, the size and number of vibrating motor is not limited, and second switch 265 has been set as secondary switch, but preferably, also can use the switch making galvanic size progressively rise or decline with multiple-pole switch.

On the other hand, if the engaging of probe rod 110 still detected, then make the 3rd a switch 225 short circuit.

3rd a switch 225 and multiple 3rd a vibrating motor 221,222,223 conducting, along with the 3rd a switch 225 short circuit, supply electric power to the 3rd a vibrating motor 221,222,223.Thus, the 3rd a vibrating motor 221,222,223 can start simultaneously.

At this, the 3rd a vibration section 220 is formed by rubber packing department, is provided with the 3rd a vibrating motor 221,222,223 in the inside of the 3rd a vibration section 220.Therefore, the 3rd a vibrating motor 221,222,223 can be separated mutually with the inside of boring A, can prevent the damage that foreign matter causes thus.

Further, because the 3rd a vibration section 220 is formed by rubber packing department, the bottom of the periphery of probe rod 110 can be thus easily close to.Therefore, vibration can be delivered to the bottom of probe rod 110 periphery by the 3rd vibration section 220 more effectively.

If the engaging of probe rod 110 still detected, then make the 3rd b switch 235 short circuit.

3rd b switch 235 and multiple 3rd b vibrating motor 231,232,233 conducting, along with the short circuit of the 3rd b switch 235, supply electric power to the 3rd b vibrating motor 231,232,233.So the 3rd b vibrating motor 231,232,233 can start simultaneously.

At this, the 3rd b vibration section 230 is formed by rubber packing department, is provided with the 3rd b vibrating motor 231,232,233 in the inside of the 3rd b vibration section 230.Therefore, the 3rd b vibrating motor 231,232,233 is separated mutually with the inside of boring A, can prevent the damage that foreign matter causes thus.

Further, because the 3rd b vibration section 230 is formed by rubber packing department, the central authorities of the periphery of probe rod 110 can be thus easily close to.Therefore, vibration can be delivered to the middle part of probe rod 110 periphery by the 3rd b vibration section 230 more effectively.

If the engaging of probe rod 110 still detected, then make the 3rd c switch 245 short circuit.

3rd c switch 245 and multiple 3rd c vibrating motor 241,242,243 conducting, along with the short circuit of the 3rd c switch 245, supply electric power to the 3rd c vibrating motor 241,242,243.So the 3rd c vibrating motor 241,242,243 can start simultaneously.

At this, the 3rd c vibration section 240 is formed by rubber packing department, is provided with the 3rd c vibrating motor 241,242,243 in the inside of the 3rd c vibration section 240.Therefore, the 3rd c vibrating motor 241,242,243 is separated mutually with the inside of boring A, can prevent the damage that foreign matter causes thus.

Further, because the 3rd c vibration section 240 is formed by rubber packing department, the top of the periphery of probe rod 110 can be easily close to.Therefore, vibration can be delivered to the top of probe rod 110 periphery by the 3rd c vibration section 240 more effectively.

If the engaging of probe rod 110 still detected, then make the short circuit simultaneously of the first switch 255, second switch 265, the 3rd a switch 225, the 3rd b switch 235 and the 3rd c switch 245, thus the periphery of probe rod 110, top, bottom are vibrated simultaneously.Make probe rod 110 vibrate like this, the engaging of obstruction can be removed.

Further, to the video by the first camera 150 shown in Fig. 3 and the second camera 160 real-time Transmission, confirm holding section by the first display 170 and second display 180, optionally start the vibration section adjacent with holding section, thus can engagement release.

At this, the quantity of the vibration section started does not limit.Therefore, rocking of probe rod 110 can be minimized engagement release.

On the other hand, 3rd a switch 225, the 3rd b switch 235, the 3rd c switch 245 have also been set as secondary switch, but preferably use the switch that galvanic size can be made progressively to rise or decline with multiple-pole switch, and the 3rd a vibrating motor has also been set as three respectively to the 3rd c vibrating motor 221,222,223,231,232,233,241,242,243, but preferably, its quantity and size do not limit.

Fig. 5 prevents probe rod at the illustration figure of the 3rd vibration section 120 of the device of the inside of boring engaging for what represent the fourth embodiment of the present invention.

Known with reference to Fig. 5, the 3rd vibration section 120 of the second embodiment of the present invention is provided with thread gluing (Velcro) 125,126 at the two ends of rubber packing department.

That is, the 3rd vibration section 120 is provided with thread gluing, thus goes for the probe rod 110 of the periphery of various radius.

Further, the 3rd vibration section 120 is provided with power supply terminal 127, thus can power to vibrating motor a.Preferably, be provided with switch at power supply, thus can control to supply electric power to vibrating motor a.

On the other hand, be also provided with compact battery 128 in the inside of rubber packing department, even if power supply supply is interrupted thus, also can supply electric power to vibrating motor a.

Fig. 6 is the precedence diagram of the method preventing probe rod from engaging in the inside of boring for representing the fifth embodiment of the present invention.

With reference to Fig. 6, the method 600 preventing probe rod from engaging in the inside of boring of the fifth embodiment of the present invention, comprising: steps A, makes probe rod rise in the inside of boring or decline (step S610); Step B, judges whether probe rod engages (step S620); Step C, if detect that probe rod engages in stepb, then makes the first switch short to start the first vibration section (step S630); Step D, judges whether probe rod engages (step S640); Step e, if detect that probe rod engages in step D, then makes second switch short circuit to start the second vibration section (step S650); Step F, judges whether probe rod engages (step S660); Step G, if detect that in step F probe rod engages, then makes the 3rd switch short start the 3rd vibration section (step S670); Step H, judges whether probe rod engages (step S680); And step I, if detect that probe rod engages in steph, then make the short circuit simultaneously of the first switch, second switch and the 3rd switch start the first vibration section, the second vibration section and the 3rd vibration section (step S690).

The probe rod that prevents of the fifth embodiment of the present invention that such as Fig. 6 is formed is described in detail in the method for the inside of boring engaging, then as follows.

First, probe rod 110 is made to rise in the inside of boring A or decline (step S610).

At this, boring A refers in order to geological survey to the hole that deep under ground bores.In order to detect the environment of the boring A inside formed like this, probe rod 110 is declined to the inside of boring A.The probe rod 110 dropping to certain depth detects environment in its position.Illustrate, probe rod 110 can detect the gas concentration lwevel etc. at ad-hoc location.

After this, judge that whether probe rod 110 is in inside engaging (step S620) of boring A.

The engaging of probe rod 110 detected, then make the first switch 132 short circuit start the first vibration section 130(step S630).

At this, the first switch 132 and the first vibrating motor 131 conduct, and control to supply direct current to the first d.c. motor 131.

After making the first vibrating motor 131 start the stipulated time, rejudge the engaging (step S640) of probe rod 110.

If the engaging of probe rod 110 still detected, then make second switch 142 short circuit, start the second vibration section 140(step S650).

At this, the second vibrating motor 141 is identical with the structure of second switch 132 with the first above-mentioned vibrating motor 131 with the structure of second switch 142, therefore omits detailed description thereof.

After making the second vibrating motor 141 start the stipulated time, the engaging (step S660) of probe rod still detected, then make the 3rd switch short start the 3rd vibration section (step S670).

3rd switch 124 and multiple 3rd vibrating motor 121,122,123 conducting, along with the 3rd switch 124 short circuit, supply electric power to the 3rd vibrating motor 121,122,123.So the 3rd vibrating motor 121,122,123 can start simultaneously.

At this, the 3rd vibration section 120 is formed by rubber packing department, is provided with the 3rd vibrating motor 121,122,123 in the inside of the 3rd vibration section 120.Therefore, the 3rd vibrating motor 121,122,123 can be separated mutually with the inside of boring A, can prevent the damage that foreign matter causes thus.

On the other hand, if the engaging (step S680) of probe rod 110 still detected, then make the short circuit simultaneously of the first switch 132, second switch 142 and the 3rd switch 122, start the first vibration section 140, vibration section 130, second and the 3rd vibration section 120(step S690).

Like this, start three vibration sections simultaneously, the engaging of probe rod 110 can be removed thus.

At this, in order to the damage preventing outside environment from causing, rubber or synthetic resin etc. is also used to pack the first vibrating motor 131 of the first vibration section 130 and the second vibration section 140 and the second vibrating motor 141.

And, preferably, the size and number of the first vibrating motor 131, second vibrating motor 141 and the 3rd vibrating motor 121,122,123 does not limit, although switch 132,142,124 has been set as secondary switch, but preferably, use the switch that galvanic size can be made progressively to rise or decline with multiple-pole switch.

Above; with reference to accompanying drawing, preferred embodiment of the present invention is illustrated; but the present invention is not limited to above-mentioned specific embodiment; in the main idea of the present invention not departing from application claims protection; general technical staff of the technical field of the invention certainly can carry out various distortion and implement, and these distortion enforcements can not depart from goes to understand in technological thought of the present invention or prospect.

Claims (12)

1. prevent probe rod at a device for the inside of boring engaging, it is characterized in that, described device comprises:

Probe rod, for detecting the internal environment of described boring,

First vibration section, is arranged at the top of described probe rod,

Second vibration section, is arranged at the bottom of described probe rod,

3rd vibration section, is arranged at the periphery of described probe rod, and

Supporting cable, has power line, described power line be used for respectively to being arranged at described first vibration section, at least one vibrating motor of described second vibration section and described 3rd vibration section powers;

Described first vibration section and described second vibration section can be installed and removed relative to described probe rod, and described 3rd vibration section is rubber packing department.

2. the probe rod that prevents according to claim 1 is at the device of the inside of boring engaging, and it is characterized in that, described device also comprises:

First switch, with described power line conducting, for starting described first vibration section;

Second switch, with described power line conducting, for starting described second vibration section; And

3rd switch, with described power line conducting, for starting described 3rd vibration section.

3. the probe rod that prevents according to claim 1 is at the device of the inside of boring engaging, it is characterized in that,

At least one display also comprising at least one camera on the top of described probe rod and be connected with described camera;

Described camera is connected by holding wire with described display.

4. the probe rod that prevents according to claim 1 is at the device of the inside of boring engaging, it is characterized in that, described periphery arranges multiple described rubber packing department.

5. the probe rod that prevents according to claim 1 is at the device of the inside of boring engaging, and it is characterized in that, described rubber packing department comprises the thread gluing that can install and remove.

6. the probe rod that prevents according to claim 5 is at the device of the inside of boring engaging, and it is characterized in that, described rubber packing department also comprises:

With the power supply terminal of power supply conducting; And

Battery.

7. prevent probe rod in a method for the inside of boring engaging, it is characterized in that, comprising:

Steps A, makes described probe rod rise in the inside of described boring or decline;

Step B, judges whether described probe rod engages;

Step C, if detect that in described step B described probe rod engages, then makes the first switch short to start the first vibration section;

Step D, judges whether described probe rod engages;

Step e, if detect that in described step D described probe rod engages, then makes second switch short circuit to start the second vibration section;

Step F, judges whether described probe rod engages;

Step G, if detect that in described step F described probe rod engages, then makes the 3rd switch short start the 3rd vibration section;

Step H, judges whether described probe rod engages; And

Step I, if detect that in described step H described probe rod engages, then makes described first switch, described second switch and the short circuit simultaneously of described 3rd switch to start described first vibration section, described second vibration section and described 3rd vibration section.

8. the probe rod that prevents according to claim 7 is in the method for the inside of boring engaging, and it is characterized in that, described first vibration section, described second vibration section and described 3rd vibration section comprise at least one vibrating motor.

9. the probe rod that prevents according to claim 7 is in the method for the inside of boring engaging, and it is characterized in that, described 3rd vibration section comprises the rubber packing department of the periphery surrounding described probe rod;

Described rubber packing department has thread gluing.

10. the probe rod that prevents according to claim 9 is in the method for the inside of boring engaging, and it is characterized in that, described 3rd vibration section comprises multiple described rubber packing department.

11. probe rods that prevent according to claim 7 are in the method for the inside of boring engaging, it is characterized in that, in described step B, described step D, described step F and described step H, by judging whether described probe rod engages by the camera being arranged at described probe rod to the image of display real-time Transmission.

12. probe rods that prevent according to claim 11 are in the method for the inside of boring engaging, and it is characterized in that, described probe rod comprises multiple described camera.