CN209746139U - Probe frame of magnetometer - Google Patents

Abstract

The utility model relates to a magnetometer probe frame, including stay tube, fixed pipe, adjustment mechanism, probe seat and probe, the stay tube be uncovered hollow structure, fixed pipe is installed to the lower extreme of stay tube, fixed pipe is the circular cone structure, and the diameter of stay tube from last down reducing gradually, the internally mounted of stay tube has adjustment mechanism, the probe seat is installed to adjustment mechanism's upper end, the probe seat internal fixation has the probe, the probe is including refueling the mechanism. The utility model discloses can solve the magnetometer when adding kerosene, the easy backward flow side leakage of kerosene does not have the addition unpredictable, when using, pollutes the probe, leads to that detected data is inaccurate, the probe rotates needs whole rotation, the probe rocks and influences the data accuracy scheduling problem of surveying, the oil filling amount is measurable when can realizing the magnetometer adds kerosene, kerosene can not flow backward the side leakage, the probe is difficult for rocking, improves the degree of accuracy of surveying data, has the advantage that adds the kerosene convenience, leak-proof, survey the data accuracy.

Description

Probe frame of magnetometer

Technical Field

The utility model relates to a geologic survey field, in particular to magnetometer probe frame.

background

The resources such as petroleum, natural gas of our country are abundant, and the quantity of these resources all relies on geological survey to calculate, and geological survey all can use in development of resources, the construction of building etc. the usage is very extensive, and the instrument that geological survey used is also very many, for example: GPS locator, total station, level, metal detector, magnetometer, gravimeter, and the like.

The magnetometer is an instrument for measuring the intensity and direction of magnetic field, is mainly used for acquiring magnetic anomaly data and measuring the magnetic parameters of rocks, and has a plurality of defects in use under the prior art:

Firstly, the method comprises the following steps: when the magnetometer is used, kerosene needs to be added, the amount of the kerosene cannot be too full, and when the kerosene is added again by using the existing magnetometer probe, the addition amount of the kerosene cannot be observed, so that excessive or insufficient kerosene is easily added;

Secondly, the method comprises the following steps: the kerosene port for adding kerosene is simply plugged by a plug, which easily causes kerosene side leakage and pollutes a probe when in use, thereby causing inaccurate detection data;

Thirdly, the method comprises the following steps: the magnetometer probe needs to rotate by an angle to enable the probe to be aligned with the instrument and the probe to be kept in a stable state, and the rotation of the probe under the existing condition needs the integral rotation of the placing rack, so that the probe is easy to shake, and the detection data is influenced.

The related magnetometer probe frame is explored and practiced in China, and the Chinese utility model patent with the patent application number of 201721042814.7 discloses a support frame for carrying out gradient measurement on a proton magnetometer, wherein a probe of the proton magnetometer is arranged on a probe clamp; the probe clamp is adjusted in position and mounted on the bracket in advance; the patent application number 201721742551.0 discloses a wide-range feedback type fluxgate magnetometer probe, which can be placed in a dock underwater and can be placed in a boat, and has strong environmental applicability. Both have certain disadvantages in actual operation.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a magnetometer probe frame can solve the magnetometer when adding the kerosene, it is not measurable to have the addition, the easy backward flow side leakage of kerosene during the use, pollute the probe, it is inaccurate to lead to the detected data, the probe rotates needs whole rotation, the probe rocks the influence and surveys data accuracy scheduling problem, the volume of adding oil when can realizing the magnetometer and adding the kerosene is measurable, the kerosene can not flow backward the side leakage, the probe is difficult for rocking, improve the degree of accuracy of surveying data, it is convenient to have the kerosene, it is oil-tight, the accurate advantage of surveying data.

In order to realize the above-mentioned purpose, the utility model discloses a following technical scheme, a magnetometer probe frame, including stay tube, fixed pipe, adjustment mechanism, probe seat and probe, the stay tube be uncovered hollow structure, fixed pipe is installed to the lower extreme of stay tube, fixed pipe is the circular cone structure, and the diameter of stay tube from last down reducing gradually, the internally mounted of stay tube has adjustment mechanism, the probe seat is installed to adjustment mechanism's upper end, the probe seat internal fixation has the probe.

The probe comprises an oiling mechanism, the front end inside the probe is provided with the oiling mechanism, the observation mechanism is arranged below the oiling mechanism, the oiling mechanism comprises an oiling barrel, the oiling barrel is of a hollow structure, the front end surface of the oiling barrel is provided with an oiling cover, the upper end inside the oiling barrel is provided with a groove, an oiling valve is arranged in the groove and is of a round platform structure, the diameter of the oiling valve is gradually increased from front to back, the diameter of the front end of the oiling valve is smaller than that of an oiling pipe, the diameter of the rear end of the oiling valve is larger than that of the oiling pipe, the rear end surface of the oiling valve is provided with an oiling pipe, the oiling pipe is of a hollow structure, the outer side wall of the oiling pipe is attached to the inner side wall of the oiling barrel, the upper end of the side wall of the oiling pipe is uniformly provided with oiling holes, the rear end surface of the oiling barrel is provided with an oiling plate, the middle part of the, the rear end surface of the oil filling valve is provided with an oil filling rod, the rear end of the oil filling rod is provided with a cut-off ball, the diameter of the cut-off ball is larger than that of the oil outlet, a spring is arranged between the front end surface of the oil outlet plate and the rear end surface of the oil filling valve, when the oil filling valve works, kerosene is added from the front end of the oil filling cylinder by a syringe, when the pressure of the kerosene is greater than the elastic force of the spring, the oil filling valve moves backwards and drives the intercepting ball to move backwards through the oil filling rod, the oil filling channel is communicated, the kerosene enters the groove from the oil filling cylinder and enters the oil filling pipe through the oil filling hole, and enters the probe from the oil filling pipe through the oil outlet, when stopping to refuel, the spring is flexible to be made and to cut off ball and oil-out block, the upper end laminating of refuelling valve and recess, and pressure can make when kerosene outwards flows and cut off ball more firm with the oil-out block, and double-deck anti-backflow has realized preventing the backward flow side leakage of kerosene to the backward flow side leakage of kerosene has been prevented.

As a preferred technical scheme of the utility model, observation mechanism including observing the lid, the preceding terminal surface of probe is equipped with the observation mouth, install the observation lid in the observation mouth, the limiting plate is installed to the inside front end of observation mouth, the limiting plate is the arc structure, be equipped with spacing ball in the limiting plate, the rubber ring is installed to spacing ball's front end, the front end of rubber ring is the plane, observation pole is installed to spacing ball's rear end, be equipped with the graduation apparatus on observation pole's the lateral wall, the floater is installed to observation pole's rear end, in operation, open the observation lid, when adding kerosene in to the probe, kerosene can float the floater, the floater drives observation pole and moves forward, can observe what of oil charge through the graduation apparatus, after the completion of refueling, will observe to cover, observe the lid and press spacing ball backward, spacing ball and limiting plate laminating, thereby prevent kerosene from flowing out.

as a preferred technical scheme of the utility model, probe holder including placing the ring, the lower extreme of placing the ring is connected with the connecting block, the middle part of connecting block is hollow structure, the front end of connecting block is equipped with the screw hole, the screw hole communicates with each other with the lower extreme of placing the ring, screw hole female connection has the threaded rod, the upper end of threaded rod is passed and is placed the ring, and the front end of threaded rod passes through the bearing and installs solid fixed ring, gu fixed ring is the arc structure, the fixed disk is installed to the lower extreme of threaded rod, the fixed disk is at the middle part of connecting block, the connecting pipe is installed to the lower terminal surface of connecting block, in operation, it places the ring to put the probe, it drives solid fixed ring rebound to rotate the fixed.

as a preferred technical scheme of the utility model, the adjusting mechanism comprises a first rotating rod, a first rotating rod is installed in the middle of the inner side wall of the supporting tube through a bearing, the rear end of the first rotating rod passes through the supporting tube, an adjusting disc is installed on the rear end face of the first rotating rod, driving gears are symmetrically installed on the side wall of the first rotating rod from front to back, the driving gears are connected with driven gears through chains, the driven gears are installed on the side wall of a second rotating rod, the second rotating rod is installed at the upper end of the inner side wall of the supporting tube through a bearing, an adjusting branched chain is installed in the middle of the side wall of the second rotating rod, the adjusting branched chain comprises a driving fluted disc, a driving fluted disc is installed in the middle of the side wall of the second rotating rod, the upper end of the driving fluted disc is engaged with a driven fluted, the fixing base is installed to the upper end of driven fluted disc, install the connecting pipe on the fixing base, the support lid is installed to the up end of stay tube, the middle part of supporting the lid is equipped with the bar groove, in operation, when the probe will be surveyed and aim at the instrument to needs rotation, the adjustment disk rotates, the adjustment disk drives first dwang and rotates, first dwang passes through the chain and drives the rotation of second dwang, the second dwang passes through the initiative fluted disc and drives driven fluted disc rotation, driven fluted disc rotates and drives the connecting pipe rotation through the fixing base, thereby make the probe rotate suitable position, make the probe aim at the instrument.

When kerosene is added into the probe: adding kerosene from the front end of the oil filling cylinder by using a syringe, wherein when the pressure of the kerosene is greater than the elastic force of a spring, the oil filling valve moves backwards and drives the intercepting ball to move backwards through the oil filling rod, the oil filling channel is communicated, the kerosene enters the groove from the oil filling cylinder, enters the oil filling pipe through the oil filling hole and enters the probe from the oil filling pipe through the oil outlet;

When the kerosene fuel charge is observed: the observation cover is opened, when kerosene is added into the probe, the kerosene can float the floating ball, the floating ball drives the observation rod to move forwards, the oil filling amount can be observed through the dial gauge, after the kerosene is filled, the observation cover is covered, the observation cover presses the limiting ball backwards, and the limiting ball is attached to the limiting plate, so that the kerosene is prevented from flowing out;

Preventing kerosene backflow after refueling: after refueling is stopped, the spring stretches out and draws back to enable the interception ball to be clamped with the oil outlet, the refueling valve is attached to the upper end of the groove, when kerosene flows out outwards, the pressure enables the interception ball to be clamped with the oil outlet more firmly, and backflow side leakage of the kerosene is prevented due to double-layer backflow prevention;

Installation of a magnetometer: the probe is placed in the placing ring, the fixing ring is driven to move upwards by rotating the fixing disc, the probe can be fixed on the probe seat, and then the connecting pipe is fixed on the adjusting mechanism;

Probe adjustment: when the probe is required to be rotated to align the probe with the instrument, the adjusting disc is rotated, the adjusting disc drives the first rotating rod to rotate, the first rotating rod drives the second rotating rod to rotate through the chain, the second rotating rod drives the driven fluted disc to rotate through the driving fluted disc, and the driven fluted disc rotates to drive the connecting pipe to rotate through the fixing seat, so that the probe rotates to a proper position, and the probe is aligned with the instrument.

the working process can solve the problems that when the magnetometer is added with kerosene, no additive is not measurable, the kerosene easily flows back and leaks laterally when the magnetometer is used, a probe is polluted, detection data is inaccurate, the probe needs to rotate integrally, the probe shakes to influence the accuracy of the detection data, and the like, can realize that when the magnetometer is added with the kerosene, the added oil amount is measurable, the kerosene cannot flow back and leak laterally, the probe is not easy to shake, and the accuracy of the detection data is improved.

The beneficial effects of the utility model reside in that:

One, the utility model discloses can solve the magnetometer when adding kerosene, the easy backward flow side leakage of kerosene does not have the addition undetectable, when using, pollutes the probe, leads to the measured data inaccurate, the probe rotates needs whole rotation, the probe rocks and influences the survey data accuracy scheduling problem, can realize that the oil filling volume is measurable when magnetometer adds kerosene, kerosene can not flow backward the side leakage, the probe is difficult for rocking, improves the degree of accuracy of survey data, has the convenient, oil-tight advantage of detection data that adds the kerosene.

the utility model is provided with an observation mechanism which can observe the addition amount of kerosene, thereby avoiding excessive addition of kerosene or insufficient addition of kerosene;

thirdly, the utility model is provided with an oil filling mechanism which is provided with a double-layer backflow prevention device, thereby solving the problems of backflow side leakage of kerosene, probe pollution and detection data accuracy reduction;

four, the utility model discloses be provided with adjustment mechanism, adjustment mechanism can only adjust the probe as required, has avoided the whole of probe frame to rock, has improved the degree of accuracy of survey data.

Drawings

The present invention will be further explained with reference to the drawings and examples.

fig. 1 is a schematic perspective view of the present invention;

Fig. 2 is an enlarged schematic view of the utility model in the direction a of fig. 1;

Fig. 3 is a schematic plan view of the probe and the observation mechanism of the present invention;

Fig. 4 is a schematic plan view of the structure between the probe and the oiling mechanism;

Fig. 5 is a schematic plan view of the supporting tube and the adjusting mechanism according to the present invention.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand and understand, the present invention is further explained by combining with the specific drawings. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

as shown in fig. 1 to 5, a magnetometer probe frame comprises a supporting tube 1, a fixed tube 2, an adjusting mechanism 3, a probe seat 4 and a probe 5, wherein the supporting tube 1 is of a uncovered hollow structure, the fixed tube 2 is installed at the lower end of the supporting tube 1, the fixed tube 2 is of a conical structure, the diameter of the supporting tube 1 is gradually reduced from top to bottom, the adjusting mechanism 3 is installed inside the supporting tube 1, the probe seat 4 is installed at the upper end of the adjusting mechanism 3, and the probe 5 is fixed in the probe seat 4.

the probe 5 comprises an oil filling mechanism 51, the front end inside the probe 5 is provided with the oil filling mechanism 51, an observation mechanism 52 is arranged below the oil filling mechanism 51, the oil filling mechanism 51 comprises an oil filling cylinder 511, the oil filling cylinder 511 is of a hollow structure, the front end surface of the oil filling cylinder 511 is provided with an oil filling cover 512, the upper end inside the oil filling cylinder 511 is provided with a groove, an oil filling valve 513 is arranged in the groove, the oil filling valve 513 is of a circular truncated cone structure, the diameter of the oil filling valve 513 is gradually increased from front to back, the diameter of the front end of the oil filling valve 513 is smaller than that of an oil filling pipe 514, the diameter of the rear end of the oil filling valve 513 is larger than that of the oil filling pipe 514, the rear end surface of the oil filling valve 513 is provided with an oil filling pipe 514, the oil filling pipe 514 is of a hollow structure, the outer side wall of the oil filling pipe 514 is attached to the inner side wall of the oil filling cylinder 511, the upper end of, an oil outlet is arranged in the middle of the rear end face of the oil outlet plate 515, an oil adding rod 516 is installed on the rear end face of the oil adding valve 513, a cut-off ball 517 is installed at the rear end of the oil adding rod 516, the diameter of the cut-off ball 517 is larger than that of the oil outlet, a spring 518 is installed between the front end face of the oil outlet plate 515 and the rear end face of the oil adding valve 513, when the device works, kerosene is added from the front end of the oil adding cylinder 511 through a syringe, when the pressure of the kerosene is larger than the elastic force of the spring 518, the oil adding valve 513 moves backwards and drives the cut-off ball 517 to move backwards through the oil adding rod 516, an oil adding channel is communicated, the kerosene enters a groove from the oil adding cylinder 511 and then enters the oil adding pipe 514 through an oil adding hole, when oil is added, the probe 5 enters from the oil adding pipe 514 through the oil outlet, when the oil adding is stopped, the spring 518 stretches out, the cut, the double-layer backflow prevention realizes the prevention of the backflow side leakage of the kerosene, thereby preventing the backflow side leakage of the kerosene.

the observation mechanism 52 comprises an observation cover 521, an observation port is arranged on the front end face of the probe 5, the observation cover 521 is arranged in the observation port, a limit plate 522 is arranged at the front end inside the observation port, the limit plate 522 is of an arc structure, a limit ball 523 is arranged in the limit plate 522, a rubber ring 524 is arranged at the front end of the limit ball 523, the front end of the rubber ring 524 is a plane, an observation rod 525 is arranged at the rear end of the limit ball 523, a scale 526 is arranged on the side wall of the observation rod 525, a floating ball 527 is arranged at the rear end of the observation rod 525, and when the observation mechanism works, when the observation cover 521 is opened and kerosene is added into the probe 5, the kerosene floats the floating ball 527, the floating ball 527 drives the observation rod 525 to move forward, what of the volume of adding oil can be observed through graduation apparatus 526, refuel the completion back, will observe that lid 521 covers, observe lid 521 and press spacing ball 523 backward, spacing ball 523 and limiting plate 522 laminating to prevent that kerosene from flowing out.

probe seat 4 including placing ring 41, the lower extreme of placing ring 41 is connected with connecting block 42, the middle part of connecting block 42 is hollow structure, the front end of connecting block 42 is equipped with the screw hole, the screw hole communicates with each other with the lower extreme of placing ring 41, screw hole female connection has threaded rod 43, the upper end of threaded rod 43 is passed and is placed ring 41, and fixed ring 44 is installed through the bearing to the front end of threaded rod 43, fixed ring 44 is the arc structure, fixed disk 45 is installed to the lower extreme of threaded rod 43, fixed disk 45 is at the middle part of connecting block 42, connecting pipe 46 is installed to the lower terminal surface of connecting block 42, in operation, put probe 5 in placing ring 41, it drives fixed ring 44 rebound to rotate fixed disk 45, can fix probe 5 on probe seat 4, then fix connecting pipe 46 on adjustment mechanism 3.

The adjusting mechanism 3 comprises a first rotating rod 31, a first rotating rod 31 is installed in the middle of the inner side wall of the supporting tube 1 through a bearing, the rear end of the first rotating rod 31 penetrates through the supporting tube 1, an adjusting disc 32 is installed on the rear end face of the first rotating rod 31, driving gears 33 are symmetrically installed on the side wall of the first rotating rod 31 in a front-back mode, the driving gears 33 are connected with driven gears 35 through chains 34, the driven gears 35 are installed on the side wall of a second rotating rod 36, the second rotating rod 36 is installed at the upper end of the inner side wall of the supporting tube 1 through a bearing, an adjusting branched chain 37 is installed in the middle of the side wall of the second rotating rod 36, the adjusting branched chain 37 comprises a driving fluted disc 371, a driving fluted disc 371 is installed in the middle of the side wall of the second rotating rod 36, a driven fluted disc 372 is meshed at the upper end of the driving fluted disc 371, fixing base 374 is installed to driven fluted disc 372's upper end, install connecting pipe 46 on the fixing base 374, support lid 375 is installed to the up end of stay tube 1, the middle part that supports lid 375 is equipped with the bar groove, in operation, when needs rotate probe 5 and aim at the instrument with probe 5, rotate adjustment disk 32, adjustment disk 32 drives first dwang 31 and rotates, first dwang 31 passes through chain 34 and drives second dwang 36 and rotate, second dwang 36 drives driven fluted disc 372 through driving fluted disc 371 and rotates, driven fluted disc 372 rotates and drives connecting pipe 46 through fixing base 374 and rotate, thereby make probe 5 rotate suitable position, make probe 5 aim at the instrument.

when kerosene was added to the probe 5: kerosene is added from the front end of the oiling barrel 511 by a syringe, when the pressure of the kerosene is greater than the elastic force of the spring 518, the oiling valve 513 moves backwards and drives the intercepting ball 517 to move backwards through the oiling rod 516, the oiling channel is communicated, the kerosene enters the groove from the oiling barrel 511, enters the oiling pipe 514 through the oiling hole, and enters the probe 5 from the oiling pipe 514 through the oil outlet;

When the kerosene fuel charge is observed: the observation cover 521 is opened, when kerosene is added into the probe 5, the kerosene can float the floating ball 527, the floating ball 527 drives the observation rod 525 to move forwards, the oil filling amount can be observed through the scale gauge 526, after the kerosene is filled, the observation cover 521 is covered, the observation cover 521 presses the limiting ball 523 backwards, and the limiting ball 523 is attached to the limiting plate 522, so that the kerosene is prevented from flowing out;

preventing kerosene backflow after refueling: after refueling is stopped, the spring 518 stretches to enable the interception ball 517 to be clamped with the oil outlet, the refueling valve 513 is attached to the upper end of the groove, when kerosene flows outwards, the pressure enables the interception ball 517 to be clamped with the oil outlet more firmly, and backflow side leakage of the kerosene is prevented due to double-layer backflow prevention;

installation of a magnetometer: the probe 5 is placed in the placing ring 41, the fixing ring 44 is driven to move upwards by rotating the fixing disc 45, the probe 5 can be fixed on the probe seat 4, and then the connecting pipe 46 is fixed on the adjusting mechanism 3;

and (3) probe 5 adjustment: when needs rotate probe 5 and aim at the instrument with probe 5, rotate adjustment disk 32, adjustment disk 32 drives first dwang 31 and rotates, and first dwang 31 passes through chain 34 and drives second dwang 36 and rotate, and second dwang 36 drives driven fluted disc 372 through driving fluted disc 371 and rotates, and driven fluted disc 372 rotates and drives connecting pipe 46 through fixing base 374 and rotates to make probe 5 rotate suitable position, make probe 5 aim at the instrument.

the working process solves the problems that when the kerosene is added into the magnetometer, the addition amount is not measurable, the kerosene easily flows back and leaks laterally when the magnetometer is used, the probe 5 is polluted, the detection data is inaccurate, the probe 5 needs to rotate integrally, the probe 5 shakes to influence the accuracy of the detection data, and the like, and the aim is achieved.

the foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the invention without departing from the spirit and scope of the invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a magnetometer probe frame, includes stay tube (1), fixed pipe (2), adjustment mechanism (3), probe seat (4) and probe (5), its characterized in that: the supporting tube (1) is of a uncovered hollow structure, the lower end of the supporting tube (1) is provided with a fixed tube (2), the fixed tube (2) is of a conical structure, the diameter of the supporting tube (1) is gradually reduced from top to bottom, an adjusting mechanism (3) is arranged inside the supporting tube (1), the upper end of the adjusting mechanism (3) is provided with a probe seat (4), and a probe (5) is fixed in the probe seat (4); wherein:

The probe (5) comprises an oiling mechanism (51), the front end in the probe (5) is provided with the oiling mechanism (51), and an observation mechanism (52) is arranged below the oiling mechanism (51);

the oiling mechanism (51) comprises an oiling cylinder (511), the oiling cylinder (511) is of a hollow structure, an oiling cover (512) is arranged on the front end face of the oiling cylinder (511), a groove is formed in the upper end inside the oiling cylinder (511), an oiling valve (513) is arranged in the groove, an oiling pipe (514) is arranged on the rear end face of the oiling valve (513), the oiling pipe (514) is of a hollow structure, the outer side wall of the oiling pipe (514) is attached to the inner side wall of the oiling cylinder (511), oiling holes are uniformly formed in the upper end of the side wall of the oiling pipe (514), an oil outlet plate (515) is installed on the rear end face of the oiling cylinder (511), oil outlets are uniformly formed in the middle of the front end face of the oil outlet plate (515), an oil outlet is formed in the middle of the rear end face of the oil outlet plate (515), an oiling rod (516) is installed on the rear end face of the oiling valve (513), a cut-off ball (517) is installed at the rear end of the oiling, a spring (518) is arranged between the front end surface of the oil outlet plate (515) and the rear end surface of the oil filling valve (513);

probe seat (4) including placing ring (41), the lower extreme of placing ring (41) is connected with connecting block (42), the middle part of connecting block (42) is hollow structure, the front end of connecting block (42) is equipped with the screw hole, the screw hole communicates with each other with the lower extreme of placing ring (41), screw hole female connection has threaded rod (43), the upper end of threaded rod (43) is passed and is placed ring (41), and fixed ring (44) are installed through the bearing to the front end of threaded rod (43), fixed ring (44) are the arc structure, fixed disk (45) are installed to the lower extreme of threaded rod (43), fixed disk (45) are at the middle part of connecting block (42), connecting pipe (46) are installed to the lower terminal surface of connecting block (42).

2. Magnetometer probe holder according to claim 1, characterised in that: the oil filling valve (513) is of a circular truncated cone structure, the diameter of the oil filling valve (513) is gradually increased from front to back, the diameter of the front end of the oil filling valve (513) is smaller than that of the oil filling pipe (514), and the diameter of the rear end of the oil filling valve (513) is larger than that of the oil filling pipe (514).

3. Magnetometer probe holder according to claim 1, characterised in that: observation mechanism (52) including observing lid (521), the preceding terminal surface of probe (5) is equipped with observes the mouth, install in the observation mouth and observe lid (521), limiting plate (522) are installed to the inside front end of observing the mouth, limiting plate (522) are the arc structure, be equipped with spacing ball (523) in limiting plate (522), rubber ring (524) are installed to the front end of spacing ball (523), the front end of rubber ring (524) is the plane, observation pole (525) are installed to the rear end of spacing ball (523), be equipped with scale (526) on the lateral wall of observation pole (525), floater (527) are installed to the rear end of observation pole (525).

4. Magnetometer probe holder according to claim 1, characterised in that: adjustment mechanism (3) including first dwang (31), first dwang (31) is installed through the bearing in the middle part of stay tube (1) inside wall, stay tube (1) is passed to the rear end of first dwang (31), and the rear end face of first dwang (31) installs adjusting disk (32), driving gear (33) are installed to the symmetry around on first dwang (31) lateral wall, driving gear (33) are connected with driven gear (35) through chain (34), driven gear (35) are installed on the lateral wall of second dwang (36), the upper end at the inside wall of stay tube (1) is installed through the bearing in second dwang (36), the mid-mounting of second dwang (36) lateral wall has regulation branch chain (37).

5. Magnetometer probe holder according to claim 4, characterized in that: adjust branch chain (37) including initiative fluted disc (371), the mid-mounting of second dwang (36) lateral wall has initiative fluted disc (371), the upper end meshing of initiative fluted disc (371) has driven fluted disc (372), the middle part at third dwang (373) lateral wall is installed in driven fluted disc (372), the inside wall at stay tube (1) is installed through the bearing in third dwang (373), fixing base (374) are installed to the upper end of driven fluted disc (372), install connecting pipe (46) on fixing base (374), support lid (375) are installed to the up end of stay tube (1), the middle part that supports lid (375) is equipped with the bar groove.