CN114857430B

CN114857430B - Filling and wrapping fixed type geophysical geodetic electromagnetic instrument probe fixing device

Info

Publication number: CN114857430B
Application number: CN202210449151.XA
Authority: CN
Inventors: 郭国强; 何玉海; 王强; 王珣; 王璨; 张健桥; 陈大磊; 贺春艳
Original assignee: Shandong Institute of Geophysical and Geochemical Exploration
Current assignee: Shandong Institute of Geophysical and Geochemical Exploration
Priority date: 2022-04-26
Filing date: 2022-04-26
Publication date: 2023-09-12
Anticipated expiration: 2042-04-26
Also published as: CN114857430A

Abstract

The invention discloses a filling and wrapping fixed type geophysical geodetic electromagnetic instrument probe fixing device which comprises a filling and wrapping type self-adaptive reversing fixing assembly, a double-shaft centering transverse moving type height adjusting assembly and a self-cleaning counterweight supporting assembly. The invention belongs to the technical field of geophysical prospecting auxiliary equipment, and relates to a method for flexibly fixing the middle section of an electromagnetic instrument probe through a wrapping air bag, which is used for preventing a shell from deforming after the electromagnetic instrument probe is stressed too much, meanwhile, the friction force between the wrapping air bag and the electromagnetic instrument probe can be increased by utilizing the characteristic that a silicon rubber contact pad has a higher friction coefficient, the electromagnetic instrument probe is prevented from rotating and sliding randomly along the surface of the wrapping air bag, the two ends of the electromagnetic instrument probe are fixed in a point contact mode by utilizing an arc elastic contact ring and a fluid pressure-bearing bag, and after the arc elastic contact ring contacts the electromagnetic instrument probe, the arc elastic contact ring can generate bending deformation of different degrees according to the size of the electromagnetic instrument probe.

Description

Filling and wrapping fixed type geophysical geodetic electromagnetic instrument probe fixing device

Technical Field

The invention belongs to the technical field of geophysical prospecting auxiliary equipment, and particularly relates to a filling and wrapping fixed type geophysical geoelectromagnetic instrument probe fixing device.

Background

When the geophysical geodetic electromagnetic probe is used for observation, the electromagnetic probe needs to be fixed so as to prevent deviation of a measurement result caused by random shaking of the probe in the measurement process, but various problems exist in the actual probe fixing process. In order to fix the probe tightly and prevent the probe from shaking randomly, a hard object is usually adopted to directly clamp the probe from the periphery of the probe, the contact surface is larger, the outer shell of the probe is easy to deform when the clamping force is overlarge, the probe is even directly damaged when the clamping force is serious, meanwhile, the bottom upright post of the existing probe fixing device is often inserted into the ground for increasing the grabbing force, and a counterweight is added, but after the bottom upright post of the fixing device is pulled out from the ground, a large amount of soil is easy to adhere, a worker is required to clean the soil and then can store the fixing device, the inconvenience is caused, the time is wasted, and the need of the magnetotelluric probe fixing device is urgent, so that the problem is solved.

Disclosure of Invention

Aiming at the situation, in order to overcome the defects of the prior art, the invention provides a filling and wrapping fixed type geophysical geodetic electromagnetic instrument probe fixing device, which solves various problems in the process of fixing the geodetic electromagnetic instrument probe.

The technical scheme adopted by the invention is as follows: the invention provides a filling and wrapping fixed type geophysical earth electromagnetic instrument probe fixing device which comprises a filling and wrapping type self-adaptive reversing fixing component, wherein the filling and wrapping type self-adaptive reversing fixing component comprises a reversing adjusting device and a filling and wrapping type self-adaptive fixing device, and the filling and wrapping type self-adaptive fixing device is arranged on the reversing adjusting device; the double-shaft centering and transverse moving type height adjusting assembly is arranged at the bottom end of the reversing adjusting device and comprises a height adjusting driving device and a double-shaft centering and transverse moving device, and the height adjusting driving device is arranged at one side of the double-shaft centering and transverse moving device; and the self-cleaning type counterweight supporting assembly is arranged at the bottom end of the double-shaft centering and traversing device and comprises a supporting limiting device and a self-cleaning type counterweight device, and the self-cleaning type counterweight device is arranged at the bottom of the supporting limiting device.

As a preferred embodiment of the present invention, wherein: the reversing adjusting device comprises a first supporting plate, a supporting upright post, a second supporting plate, a horizontal bubble instrument, a steering holding rod, a steering wheel disc, a steering rotating shaft, a steering gear, a steering cylinder, an outer ring gear tooth, a rotating chassis, a built-in groove and an opening, wherein the second supporting plate is arranged right above the first supporting plate, the second supporting plate is connected with the first supporting plate through the supporting upright post, the built-in groove is arranged on the first supporting plate, the rotating chassis is rotationally connected in the built-in groove, the steering cylinder is fixedly connected to the rotating chassis, the outer ring gear tooth is circumferentially arranged on the wall of the steering cylinder, the top end of the steering rotating shaft is connected with the steering wheel disc, the steering rotating shaft is connected with the steering gear, the steering gear is meshed with the outer ring gear tooth, the steering rotating shaft penetrates through the second supporting plate, the steering rotating shaft is rotationally connected with the second supporting plate, the steering holding rod is fixedly connected to the steering wheel disc, the horizontal bubble instrument is arranged on the second supporting plate, the opening is arranged on the top wall of the steering cylinder, the top of the steering cylinder penetrates through the second supporting plate, and the top of the steering cylinder is rotationally connected with the second supporting plate.

As a preferred embodiment of the present invention, wherein: the self-adaptive fixing device comprises a built-in fixing plate, a telescopic cylinder, a resistance-reducing lantern ring, a driving rack plate, a transmission gear, a sector gear, an L-shaped crank arm, a supporting vertical arm, an arc elastic contact ring, a fluid pressure-bearing bag, a suspension mounting plate, an inflator pump, an inflation tube, a mounting base, a fixing sleeve, a wrapping airbag, a silicone rubber contact pad, a fixing column and a guide sleeve, wherein the built-in fixing plate is fixedly connected in the steering cylinder, the resistance-reducing lantern ring is fixedly connected on the built-in fixing plate, the bottom end of the telescopic cylinder is fixedly connected with the inner wall of the bottom of the steering cylinder, the top of the telescopic cylinder passes through the resistance-reducing lantern ring, the top of the telescopic cylinder is in sliding connection with the resistance-reducing lantern ring, the bottom end of the driving rack plate is connected with the telescopic cylinder, the top of the driving rack plate is connected with the supporting vertical arm, the transmission gear is symmetrically arranged on two sides of the driving rack plate, the transmission gear is in meshed connection with the driving rack plate, the sector gear is arranged on one side of the transmission gear, the sector gear is in meshed connection with the sector gear, the bottom end of the sector gear is fixedly connected with the sector gear, the arc elastic contact ring is arranged on the supporting vertical arm and the L-shaped crank arm, the bottom end of the elastic contact ring is fixedly connected with the sector gear is arranged on the inner wall of the mounting plate, the sector gear is in a rotating connection with the mounting plate is arranged on the inner side of the sector plate, which is in a hole is in a rotating connection, and is arranged, and is in contact with the mounting plate is rotatably arranged, and is connected with the mounting plate, and is connected to the top, the silicon rubber contact pad is arranged on the wrapping air bag, the fixing sleeve is arranged on the mounting base, the mounting base is arranged on the top wall of the steering cylinder, the fixing columns are arranged on two sides of the mounting base, and the guide sleeve is arranged on the fixing columns.

As a preferred embodiment of the present invention, wherein: the height adjusting driving device comprises a height adjusting holding rod, a driving gear, an intermediate gear and a driven gear, wherein the height adjusting holding rod is fixedly connected with a shaft part of the driving gear, the intermediate gear is arranged on one side of the driving gear, the driven gear is arranged on one side of the intermediate gear, the driving gear is in meshed connection with the intermediate gear, and the intermediate gear is in meshed connection with the driven gear.

As a preferred embodiment of the present invention, wherein: the double-shaft centering and transversely moving device comprises a mounting transverse plate, a first transmission threaded rod, a second transmission threaded rod, transversely moving blocks, a supporting arm and a hanging hinging seat, wherein two ends of the first transmission threaded rod and the second transmission threaded rod are in rotary connection with the mounting transverse plate, one end of the first transmission threaded rod is fixedly connected with a shaft part of a driving gear, one end of the second transmission threaded rod is fixedly connected with a shaft part of a driven gear, threads at two ends of the first transmission threaded rod and the second transmission threaded rod are opposite in direction, the first transmission threaded rod and the second transmission threaded rod penetrate through the transversely moving blocks, the transversely moving blocks are in threaded connection with the first transmission threaded rod and the second transmission threaded rod, the transversely moving blocks are provided with two groups, the hanging hinging seat is arranged on the bottom wall of the first supporting plate, the bottom of the supporting arm is in rotary connection with the transversely moving blocks, and the top of the supporting arm is in rotary connection with the hanging hinging seat.

As a preferred embodiment of the present invention, wherein: the supporting and limiting device comprises a drilling holding rod, a connecting block, top threads, a thread lantern ring, fixed limiting support legs and a fixed bottom plate, wherein the thread lantern ring is fixedly connected with four corners of the fixed bottom plate, the fixed limiting support legs penetrate through the thread lantern ring, the top threads of the fixed limiting support legs are arranged at the top of the fixed limiting support legs, threaded connection is kept between the top threads and the thread lantern ring, the connecting block is arranged at the top end of the fixed limiting support legs, and the drilling holding rod is arranged on the connecting block.

As a preferred embodiment of the present invention, wherein: the self-cleaning type counterweight device comprises a T-shaped counterweight block, connecting rods, fixing blocks, a reset spring, a rubber sleeve ring, cleaning protrusions, a first elastic rubber ring and a second elastic rubber ring, wherein the T-shaped counterweight block is sleeved at the bottom of a fixed limiting supporting leg, the rubber sleeve ring is arranged in the T-shaped counterweight block, the rubber sleeve ring penetrates through the T-shaped counterweight block, the connecting rods are fixedly connected to the two sides of the rubber sleeve ring, one ends of the connecting rods are hinged to the inner walls of the T-shaped counterweight block, the fixing blocks are arranged below the connecting rods, one ends of the reset spring are connected with the fixing blocks, the other ends of the reset spring are connected with the rubber sleeve ring, the fixing blocks are fixedly connected with the inner walls of the T-shaped counterweight block, the cleaning protrusions are arranged on the curved surface of the inner ring of the rubber sleeve ring, and the first elastic rubber ring and the second elastic rubber ring are sleeved at the bottom of the rubber sleeve ring, and the elastic rubber ring is located below the first elastic rubber ring.

As a preferred embodiment of the present invention, wherein: the opening is equipped with two sets of, and the opening is located between mounting base and the fixed column, and the guide sleeve just sets up to the fixed sleeve.

As a preferred embodiment of the present invention, wherein: the driving gear, the intermediate gear and the driven gear are rotatably connected with the mounting transverse plate.

As a preferred embodiment of the present invention, wherein: the rubber sleeve ring is in sliding connection with the fixed limiting support leg.

Preferably, a central controller is arranged on the fixed bottom plate and is used for assisting in realizing functions such as inflation fixation, and the model number of the central controller is STC12C6082.

The filling and wrapping fixed type geophysical geodetic electromagnetic instrument probe fixing device provided by the invention has the beneficial effects that:

(1) The middle section position of the electromagnetic instrument probe is flexibly fixed through the wrapping air bag, the deformation of the shell after the electromagnetic instrument probe is stressed too much is prevented, meanwhile, the characteristic that the silicon rubber contact pad has a high friction coefficient is utilized, the friction force between the wrapping air bag and the electromagnetic instrument probe can be increased, and the electromagnetic instrument probe is prevented from rotating and sliding along the surface of the wrapping air bag at will.

(2) The two ends of the electromagnetic instrument probe are fixed in a point contact mode by the arc elastic contact ring and the fluid pressure-bearing bag, after the arc elastic contact ring contacts the electromagnetic instrument probe, bending deformation of different degrees can be generated according to the size of the electromagnetic instrument probe, when clamping force is insufficient, and when the clamping force needs to be properly increased, the force born by the fluid pressure-bearing bag is increased, internal fluid is extruded, and the deformation of the fluid pressure-bearing bag can be increased.

(3) The steering gear is driven to rotate through the steering holding rod, and the steering cylinder can be driven to rotate in the built-in groove, so that the direction of the fixed sleeve is changed, and the operation of workers is facilitated.

(4) The T-shaped balancing weight not only can play a role in increasing the counter weight, but also when the fixed limit supporting leg is pulled out from the T-shaped balancing weight, the cleaning protrusions on the rubber sleeve rings can clean soil adhered on the fixed limit supporting leg, and the characteristics of large self weight of the T-shaped balancing weight are utilized, so that when the fixed limit supporting leg is pulled out, the T-shaped balancing weight is not required to be fixed by a worker, and the cleaning protrusions can be fully contacted with the fixed limit supporting leg.

(5) The fixed limiting support leg can be driven to downwards rotate to drill by rotating the drilling holding rod, so that the fixed limiting support leg is firmly fixed on the ground, and the stability is improved.

(6) The driving gear is driven to rotate by the heightening holding rod, the driving gear drives the intermediate gear and the driven gear to rotate, and finally the first transmission threaded rod and the second transmission threaded rod are driven to rotate simultaneously, so that the transverse moving blocks on two sides move relatively or oppositely along the first transmission threaded rod and the second transmission threaded rod, the included angle between the supporting arm and the horizontal plane is changed, and the height of the electromagnetic instrument probe is adjusted.

(7) When the fixed limit supporting leg is inserted into the T-shaped balancing weight, the reset spring, the first elastic rubber ring and the second elastic rubber ring can not only provide deformation space for the rubber sleeve ring, but also control deformation and automatically reset.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a filling and wrapping fixed type geophysical geodetic electromagnetic instrument probe fixing device according to the present invention;

fig. 2 is a schematic diagram of the overall structure of the filling wrap-around adaptive reversing fixing assembly according to the present invention;

FIG. 3 is a schematic view of the internal structure of the steering cylinder according to the present invention;

FIG. 4 is a schematic view of the overall structure of the packing-type self-adaptive fastening device according to the present invention;

FIG. 5 is a schematic view of the overall structure of the drive rack plate according to the present invention;

FIG. 6 is a schematic view of the whole structure of the fixing sleeve according to the present invention;

FIG. 7 is a schematic view of the overall structure of the dual axis centering and traversing height adjustment assembly according to the present invention;

FIG. 8 is a schematic view of the whole structure of a self-cleaning counterweight support assembly in accordance with the invention;

FIG. 9 is a cross-sectional view of a self-cleaning counterweight device according to the invention;

fig. 10 is a partial enlarged view of a portion a of fig. 9;

FIG. 11 is a schematic diagram of the overall structure of the first elastic rubber ring and the second elastic rubber ring according to the present invention;

FIG. 12 is a schematic block diagram of a filling wrap-around stationary geophysical geodetic electromagnetic instrument probe mount according to the present invention;

fig. 13 is a block circuit diagram of a filling and wrapping fixed type geophysical geodetic electromagnetic instrument probe fixing device according to the present invention.

Wherein, 1, a filling wrap type self-adaptive reversing fixed component, 11, a reversing adjusting device, 110, a first supporting plate, 111, a supporting column, 112, a second supporting plate, 113, a horizontal bubble meter, 114, a steering holding rod, 115, a steering wheel disc, 116, a steering rotating shaft, 117, a steering gear, 118, a steering cylinder, 119, an outer ring gear tooth, 1110, a rotating chassis, 1111, an embedded groove 1112, an opening, 12, a filling wrap type self-adaptive fixed device, 120, an embedded fixed plate, 121, a telescopic cylinder, 122, a resistance-reducing ring, 123, a driving rack plate, 124, a transmission gear, 125, a sector gear, 126, an L-shaped crank arm, 127, a supporting vertical arm, 128, an arc elastic contact ring, 129, a fluid pressure-bearing bag, 1210, a suspension mounting plate, 1211, an inflator, 1212, an inflation tube, 1213, a mounting base 1214, a fixed sleeve, 1215, a wrap airbag, 1216, silicone rubber contact pads 1217, fixed posts 1218, guide sleeves, 2, double-shaft centering traversing height adjustment assembly, 21, height adjustment drive, 210, height adjustment grip, 211, drive gear, 212, intermediate gear, 213, driven gear, 22, double-shaft centering traversing device, 220, mounting cross plate, 221, first drive threaded rod, 222, second drive threaded rod, 223, traversing block, 224, support arm, 225, hanging hinge seat, 3, self-cleaning counterweight support assembly, 31, support stop, 310, drilling grip, 311, connection block, 312, top thread, 313, threaded collar, 314, fixed stop leg, 315, fixed base plate, 32, self-cleaning counterweight, 320, T-shaped counterweight, 321, connection rod, 322, fixed block, 323, return spring, 324, rubber collar, 325, cleaning protuberance, 326, first elastic rubber collar, 327, and an elastic rubber ring II.

In the circuit diagram of the central controller in fig. 13, +5v is the power supply of the circuit, GND is the ground terminal, XTAL1 is the crystal oscillator, C1 and C2 are the oscillation starting capacitors of the crystal oscillator, 40 is the connection port of the telescopic cylinder and the central controller, and 6 is the connection port of the inflator pump and the central controller.

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate the invention and together with the embodiments of the invention, serve to explain the invention.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and fully with reference to the accompanying drawings, in which it is evident that the embodiments described are only some, but not all embodiments of the invention; all other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As a new embodiment of the present invention, as shown in fig. 1, the present invention proposes a filling and wrapping type fixing device for a geophysical earth electromagnetic instrument probe, which includes a filling and wrapping type adaptive reversing fixing assembly 1, wherein the filling and wrapping type adaptive reversing fixing assembly 1 includes a reversing adjustment device 11 and a filling and wrapping type adaptive fixing device 12, and the filling and wrapping type adaptive fixing device 12 is disposed on the reversing adjustment device 11; the double-shaft centering and transverse moving type height adjusting assembly 2 is arranged at the bottom end of the reversing adjusting device 11, the double-shaft centering and transverse moving type height adjusting assembly 2 comprises a height adjusting driving device 21 and a double-shaft centering and transverse moving device 22, and the height adjusting driving device 21 is arranged at one side of the double-shaft centering and transverse moving device 22; and, self-cleaning type counter weight support component 3 locates biax centering sideslip device 22's bottom, and self-cleaning type counter weight support component 3 includes support stop device 31 and self-cleaning type counter weight device 32, and self-cleaning type counter weight device 32 locates the bottom of support stop device 31.

As shown in fig. 2 and 3, the reversing adjustment device 11 includes a first support plate 110, a support column 111, a second support plate 112, a horizontal bubble meter 113, a steering holding rod 114, a steering wheel disk 115, a steering rotating shaft 116, a steering gear 117, a steering cylinder 118, an outer ring gear 119, a rotating chassis 1110, an inner groove 1111 and an opening 1112, wherein the second support plate 112 is arranged right above the first support plate 110, the second support plate 112 is connected with the first support plate 110 through the support column 111, the inner groove 1111 is arranged on the first support plate 110, the rotating chassis 1110 is rotatably connected in the inner groove 1111, the steering cylinder 118 is fixedly connected with the rotating chassis 1110, the outer ring gear 119 is circumferentially arranged on the wall of the steering cylinder 118, the top end of the steering rotating shaft 116 is connected with the steering wheel disk 115, the bottom end of the steering rotating shaft 116 is connected with the steering gear 117, the steering gear 117 is in meshed connection with the outer ring gear 119, the steering rotating shaft 116 passes through the second support plate 112, the steering rotating shaft 116 is in rotary connection with the second support plate 112, the steering wheel disk 114 is fixedly connected with the horizontal bubble meter 113 is arranged on the second support plate 110, the horizontal bubble meter 113 is arranged on the support plate 1112, the upper top wall 118 is rotatably connected with the top of the second support plate 112, and the top wall 118 is rotatably connected with the top of the steering cylinder 118.

As shown in fig. 2 to 6, the filling wrap-around self-adaptive fixing device 12 comprises a built-in fixing plate 120, a telescopic cylinder 121, a resistance-reducing collar 122, a driving rack plate 123, a transmission gear 124, a sector gear 125, an L-shaped crank arm 126, a supporting vertical arm 127, an arc-shaped elastic contact ring 128, a fluid pressure-bearing bag 129, a suspension mounting plate 1210, an inflator 1211, an inflation tube 1212, a mounting base 1213, a fixing sleeve 1214, a wrap-around airbag 1215, a silicone rubber contact pad 1216, a fixing post 1217 and a guiding sleeve 1218, wherein the built-in fixing plate 120 is fixedly connected in the direction-regulating cylinder 118, the resistance-reducing collar 122 is fixedly connected on the built-in fixing plate 120, the bottom end of the telescopic cylinder 121 is fixedly connected with the bottom inner wall of the direction-regulating cylinder 118, the top of the telescopic cylinder 121 passes through the resistance-reducing collar 122, the top of the telescopic cylinder 121 is slidingly connected with the resistance-reducing collar 122, the bottom end of the driving rack plate 123 is connected with the telescopic cylinder 121, the top end of the driving rack plate 123 is connected with the supporting vertical arm 127, the transmission gear 124 is symmetrically arranged at two sides of the driving rack plate 123, the transmission gear 124 is meshed with the driving rack plate 123, the sector gear 125 is arranged at one side of the transmission gear 124, the sector gear 125 is meshed with the transmission gear 124, the bottom end of the L-shaped crank arm 126 is fixedly connected with the sector gear 125, the arc-shaped elastic contact ring 128 is arranged on the supporting vertical arm 127 and the L-shaped crank arm 126, the fluid pressure-bearing bag 129 is arranged on the arc-shaped elastic contact ring 128, the sector gear 125 and the L-shaped crank arm 126 extend out of the opening 1112, the shaft part of the sector gear 125 is rotatably connected with the top plate of the steering cylinder 118, the suspension mounting plate 1210 is arranged on the inner wall at the top of the steering cylinder 118, the suspension mounting plate 1210 is symmetrically arranged at two sides of the opening 1112, the shaft part of the transmission gear 124 is rotatably connected with the suspension mounting plate 1210, the inflator 1211 is arranged on the built-in fixing plate 120, one end of the inflator 1212 is connected with the inflator 1211, the other end of the inflator 1212 passes through the fixing sleeve 1214 and is connected with the wrapping airbag 1215, the wrapping airbag 1215 is arranged in the fixing sleeve 1214, the silicone rubber contact pad 1216 is arranged on the wrapping airbag 1215, the fixing sleeve 1214 is arranged on the mounting base 1213, the mounting base 1213 is arranged on the top wall of the steering cylinder 118, the fixing posts 1217 are arranged on two sides of the mounting base 1213, and the guiding sleeve 1218 is arranged on the fixing posts 1217.

As shown in fig. 7, the height adjustment driving device 21 includes a height adjustment grip 210, a driving gear 211, an intermediate gear 212, and a driven gear 213, wherein the height adjustment grip 210 is fixedly connected with a shaft portion of the driving gear 211, the intermediate gear 212 is disposed on one side of the driving gear 211, the driven gear 213 is disposed on one side of the intermediate gear 212, the driving gear 211 is in meshed connection with the intermediate gear 212, and the intermediate gear 212 is in meshed connection with the driven gear 213.

As shown in fig. 7, the biaxial centering and traversing device 22 includes a mounting cross plate 220, a first transmission threaded rod 221, a second transmission threaded rod 222, a traversing block 223, a supporting arm 224 and a hanging hinge base 225, wherein two ends of the first transmission threaded rod 221 and the second transmission threaded rod 222 are rotatably connected with the mounting cross plate 220, one end of the first transmission threaded rod 221 is fixedly connected with a shaft portion of the driving gear 211, one end of the second transmission threaded rod 222 is fixedly connected with a shaft portion of the driven gear 213, the directions of threads at two ends of the first transmission threaded rod 221 and the second transmission threaded rod 222 are opposite, the first transmission threaded rod 221 and the second transmission threaded rod 222 penetrate through the traversing block 223, the traversing block 223 is in threaded connection with the first transmission threaded rod 221 and the second transmission threaded rod 222, the traversing block 223 is provided with two groups, the hanging hinge base 225 is arranged on the bottom wall of the supporting plate 110, the bottom of the supporting arm 224 is rotatably connected with the traversing block 223, and the top of the supporting arm 224 is rotatably connected with the hanging hinge base 225.

As shown in fig. 8, the supporting and limiting device 31 includes a drilling grip 310, a connecting block 311, a top thread 312, a thread collar 313, a fixed limiting leg 314 and a fixed bottom plate 315, the thread collar 313 is fixedly connected to four corners of the fixed bottom plate 315, the fixed limiting leg 314 passes through the thread collar 313, the top thread 312 is arranged at the top of the fixed limiting leg 314, the top thread 312 and the thread collar 313 are in threaded connection, the connecting block 311 is arranged at the top end of the fixed limiting leg 314, and the drilling grip 310 is arranged on the connecting block 311.

As shown in fig. 9-11, the self-cleaning counterweight device 32 includes a T-shaped counterweight 320, a connecting rod 321, a fixing block 322, a return spring 323, a rubber collar 324, a cleaning protrusion 325, a first elastic rubber ring 326 and a second elastic rubber ring 327, wherein the T-shaped counterweight 320 is sleeved at the bottom of the fixed limiting support leg 314, the rubber collar 324 is disposed in the T-shaped counterweight 320, the rubber collar 324 penetrates through the T-shaped counterweight 320, the connecting rod 321 is fixedly connected to two sides of the rubber collar 324, one end of the connecting rod 321 is hinged to the inner wall of the T-shaped counterweight 320, the fixing block 322 is disposed below the connecting rod 321, one end of the return spring 323 is connected with the fixing block 322, the other end of the return spring 323 is connected with the rubber collar 324, the fixing block 322 is fixedly connected with the inner wall of the T-shaped counterweight 320, the cleaning protrusion 325 is disposed on the inner ring curved surface of the rubber collar 324, the first elastic rubber ring 326 and the second elastic rubber ring 327 are sleeved at the bottom of the rubber collar 324, and the second elastic rubber ring 327 is disposed below the first elastic rubber ring 326.

Preferably, there are two sets of openings 1112, with the openings 1112 being located between the mounting base 1213 and the fixed post 1217, and the guide sleeve 1218 being located opposite the fixed sleeve 1214.

Preferably, the driving gear 211, the intermediate gear 212 and the driven gear 213 are rotatably connected to the mounting cross plate 220.

Preferably, a sliding connection is maintained between the rubber collar 324 and the fixed stop leg 314.

Preferably, the fixing bottom plate 315 is provided with a central controller, and the model number of the central controller is STC12C6082, so as to assist in realizing functions such as inflation fixing.

When the electromagnetic probe is specifically used, a user firstly puts the electromagnetic probe into the guide sleeve 1218 and the fixed sleeve 1214, the inflator 1211 is started, the inflator 1211 inflates the wrapping air bag 1215 through the inflation tube 1212, the middle section of the electromagnetic probe is flexibly wrapped after the wrapping air bag 1215 inflates, at the moment, the relative rotation between the wrapping air bag 1215 and the electromagnetic probe is difficult to occur because the friction coefficient of the silicon rubber contact pad 1216 on the wrapping air bag 1215 is higher, the electromagnetic probe is difficult to pull out from the wrapping air bag 1215, meanwhile, the telescopic cylinder 121 stretches, the rack plate 123 is driven to move upwards, the rack plate 123 drives the transmission gears 124 at two sides to rotate, the transmission gears 124 drive the sector gears 125 to rotate, the L-shaped crank arms 126 at two sides rotate along with the sector gears 125, at the moment, the arc-shaped elastic contact rings 128 at the bottom move upwards, the arc-shaped elastic contact rings 128 at two sides move towards the center of the electromagnetic probe, after the fluid pressure-bearing bags 129 on the arc-shaped elastic contact rings 128 contact the electromagnetic probe, the expansion cylinder 121 stop stretching, the arc-shaped elastic contact rings themselves can generate different bending degrees according to the size of the electromagnetic probe, and the fluid pressure-bearing bags 129 do not need to be deformed to be increased in a proper degree, and the pressure-bearing force can be increased to the fluid pressure-bearing bags 129 after the fluid pressure-bearing bags are deformed, and the fluid pressure-bearing force can be deformed by the fluid bags are deformed and the pressure-bearing force-carrying bags are increased; after the electromagnetic instrument probe is fixed, the drilling holding rod 310 is rotated, and the fixed limit support leg 314 moves downwards along the threaded collar 313, so that the bottom tip of the fixed limit support leg 314 is inserted into the ground, and the stability is improved; then the heightening holding rod 210 is rotated, the heightening holding rod 210 drives the driving gear 211 to rotate, the driving gear 211 drives the driven gear 213 to rotate through the intermediate gear 212, finally, the first transmission threaded rod 221 and the second transmission threaded rod 222 rotate in the same direction, and as the threads at the two ends of the first transmission threaded rod 221 and the second transmission threaded rod 222 are opposite in direction, when the first transmission threaded rod 221 and the second transmission threaded rod 222 rotate, the moving directions of the transverse moving blocks 223 at the two sides are opposite, when the transverse moving blocks 223 at the two sides are close to each other, the supporting arm 224 rotates upwards, at the moment, the height of the hanging hinging seat 225 rises, the height of the electromagnetic instrument probe rises together, and when the transverse moving blocks 223 at the two sides are far away from each other, the height of the electromagnetic instrument probe decreases; when the direction of the electromagnetic probe needs to be adjusted, the direction adjusting holding rod 114 is rotated, the direction adjusting holding rod 114 drives the direction adjusting gear 117 to rotate, the direction adjusting gear 117 drives the direction adjusting cylinder 118 to rotate through the outer ring gear teeth 119, and the direction of the fixed sleeve 1214 can be changed when the direction adjusting cylinder 118 rotates, so that the direction of the electromagnetic probe is adjusted; when the invention is needed to be folded after the measurement is finished, the fixed bottom plate 315 can be moved upwards, at this time, the fixed limit support leg 314 gradually extends out of the T-shaped balancing weight 320, when the cylindrical section of the fixed limit support leg 314 extends out of the T-shaped balancing weight 320, the cleaning protrusion 325 on the rubber sleeve ring 324 can clean the soil adhered on the fixed limit support leg 314, when the conical section of the fixed limit support leg 314 contacts with the rubber sleeve ring 324, the reset spring 323, the first elastic rubber ring 326 and the second elastic rubber ring 327 can drive the deformation part at the bottom of the rubber sleeve ring 324 to gradually restore the shape, and in the process of upward movement of the conical section of the fixed limit support leg 314, the bottom of the rubber sleeve ring 324 can always keep contact with the conical section of the fixed limit support leg 314 until the conical section of the fixed limit support leg 314 is separated from the rubber sleeve ring 324, and after the soil adhered on the fixed limit support leg 314 is cleaned, the fixed limit support leg 314 can be directly stored without other cleaning tools, so that the whole working flow of the invention can be repeated when the invention is used next time.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The invention and its embodiments have been described above with no limitation, and the actual construction is not limited to the embodiments of the invention as shown in the drawings. In summary, if one of ordinary skill in the art is informed by this disclosure, a structural manner and an embodiment similar to the technical solution should not be creatively devised without departing from the gist of the present invention.

Claims

1. A filling and wrapping fixed geophysical geodetic electromagnetic instrument probe fixing device is characterized in that: comprising the steps of (a) a step of,

the self-adaptive reversing and fixing assembly (1) comprises a reversing adjusting device (11) and a self-adaptive reversing and fixing device (12), wherein the self-adaptive reversing and fixing device (12) is arranged on the reversing adjusting device (11);

the double-shaft centering and transverse moving type height adjusting assembly (2), the double-shaft centering and transverse moving type height adjusting assembly (2) is arranged at the bottom end of the reversing adjusting device (11), the double-shaft centering and transverse moving type height adjusting assembly (2) comprises a height adjusting driving device (21) and a double-shaft centering and transverse moving device (22), and the height adjusting driving device (21) is arranged at one side of the double-shaft centering and transverse moving device (22); the method comprises the steps of,

the self-cleaning type counterweight supporting assembly (3), the self-cleaning type counterweight supporting assembly (3) is arranged at the bottom end of the double-shaft centering transverse moving device (22), the self-cleaning type counterweight supporting assembly (3) comprises a supporting limiting device (31) and a self-cleaning type counterweight device (32), and the self-cleaning type counterweight device (32) is arranged at the bottom of the supporting limiting device (31);

the reversing regulating device (11) comprises a first supporting plate (110), a supporting column (111), a second supporting plate (112), a horizontal bubble meter (113), a direction regulating holding rod (114), a direction regulating wheel disc (115), a direction regulating rotating shaft (116), a direction regulating gear (117), a direction regulating cylinder (118), an outer ring gear tooth (119), a rotating chassis (1110), an inner groove (1111) and an opening (1112), wherein the second supporting plate (112) is arranged right above the first supporting plate (110), the second supporting plate (112) is connected with the first supporting plate (110) through the supporting column (111), the inner groove (1111) is arranged on the first supporting plate (110), the rotating chassis (1110) is rotationally connected and arranged in the inner groove (1111), the direction regulating cylinder (118) is fixedly connected and arranged on the rotating chassis (1110), the outer ring gear tooth (119) is circumferentially arranged on the cylinder wall of the direction regulating cylinder (118), the top end of the direction regulating rotating shaft (116) is connected with the direction regulating wheel disc (115), the bottom end of the direction regulating rotating shaft (116) is connected with the direction regulating gear (117), the direction regulating gear (117) is rotationally connected with the outer ring gear (116) and keeps meshed with the second supporting plate (112), the steering holding rod (114) is fixedly connected to the steering wheel disc (115), the horizontal bubble instrument (113) is arranged on the second supporting plate (112), the opening (1112) is arranged on the top wall of the steering cylinder (118), the top of the steering cylinder (118) penetrates through the second supporting plate (112), and the top of the steering cylinder (118) is rotationally connected with the second supporting plate (112); the filling and wrapping type self-adaptive fixing device (12) comprises a built-in fixing plate (120), a telescopic cylinder (121), a resistance-reducing sleeve ring (122), a driving rack plate (123), a transmission gear (124), a sector gear (125), an L-shaped crank arm (126), a supporting vertical arm (127), an arc elastic contact ring (128), a fluid pressure-bearing bag (129), a suspension mounting plate (1210), an air pump (1211), an air charging tube (1212), a mounting base (1213), a fixing sleeve (1214), a wrapping air bag (1215), a silicon rubber contact pad (1216), a fixing column (1217) and a guide sleeve (1218), wherein the built-in fixing plate (120) is fixedly connected in a direction-regulating cylinder (118), the resistance-reducing sleeve ring (122) is fixedly connected on the built-in fixing plate (120), the bottom end of the telescopic cylinder (121) is fixedly connected with the inner wall at the bottom of the direction-regulating cylinder (118), the top of the telescopic cylinder (121) passes through the resistance-reducing sleeve ring (122), the top of the telescopic cylinder (121) is in sliding connection with the resistance-reducing sleeve ring (122), the bottom end of the telescopic cylinder (121) is symmetrically connected with the driving rack plate (123) by the driving rack plate (123) which is symmetrically arranged on the two sides of the driving rack plate (124), the transmission gear (124) is meshed with the driving rack plate (123), the sector gear (125) is arranged on one side of the transmission gear (124), the sector gear (125) is meshed with the transmission gear (124), the bottom end of the L-shaped crank arm (126) is fixedly connected with the sector gear (125), the arc-shaped elastic contact ring (128) is arranged on the supporting vertical arm (127) and the L-shaped crank arm (126), the fluid pressure-bearing bag (129) is arranged on the arc-shaped elastic contact ring (128), the sector gear (125) and the L-shaped crank arm (126) extend out of the opening (1112), the shaft part of the sector gear (125) is rotatably connected with the top plate of the steering cylinder (118), the suspension mounting plate (1210) is arranged on the top inner wall of the steering cylinder (118), the suspension mounting plate (1210) is symmetrically arranged on two sides of the opening (1112), the shaft part of the transmission gear (124) is rotatably connected with the suspension mounting plate (1210), the fluid pressure-bearing bag (129) is fixedly arranged on the supporting vertical arm (127), the inflation tube (1211) is fixedly arranged on the inflation tube (1211) and fixedly arranged on the inflation tube (1215) is fixedly connected with the inflation tube (1215) through the inflation tube (1215), the silicone rubber contact pad (1216) is arranged on the wrapping airbag (1215), the fixing sleeve (1214) is arranged on the mounting base (1213), the mounting base (1213) is arranged on the top wall of the steering cylinder (118), the fixing posts (1217) are arranged on two sides of the mounting base (1213), and the guide sleeve (1218) is arranged on the fixing posts (1217).

2. A filling and wrapping fixed geophysical geodetic electromagnetic instrument probe fixing device according to claim 1, wherein: the height-adjusting driving device (21) comprises a height-adjusting holding rod (210), a driving gear (211), an intermediate gear (212) and a driven gear (213), wherein the height-adjusting holding rod (210) is fixedly connected with a shaft part of the driving gear (211), the intermediate gear (212) is arranged on one side of the driving gear (211), the driven gear (213) is arranged on one side of the intermediate gear (212), the driving gear (211) is in meshed connection with the intermediate gear (212), and the intermediate gear (212) is in meshed connection with the driven gear (213).

3. A filling and wrapping fixed geophysical geodetic electromagnetic instrument probe fixing device according to claim 2, wherein: the double-shaft centering and transversely moving device (22) comprises a mounting transverse plate (220), a first transmission threaded rod (221), a second transmission threaded rod (222), a transversely moving block (223), a supporting arm (224) and a hanging hinge seat (225), wherein two ends of the first transmission threaded rod (221) and the second transmission threaded rod (222) are rotationally connected with the mounting transverse plate (220), one end of the first transmission threaded rod (221) is fixedly connected with a shaft part of a driving gear (211), one end of the second transmission threaded rod (222) is fixedly connected with a shaft part of a driven gear (213), threads at two ends of the first transmission threaded rod (221) and the second transmission threaded rod (222) are opposite in direction, the first transmission threaded rod (221) and the second transmission threaded rod (222) penetrate through the transversely moving block (223), two groups of the first transmission threaded rod (221) and the second transmission threaded rod (222) are in threaded connection, the hanging hinge seat (225) is arranged on a bottom wall of the first supporting plate (110), the bottom of the supporting arm (224) is fixedly connected with the rotating block (223), and the top of the supporting arm (225) is rotationally connected with the hanging hinge seat (224).

4. A filling and wrapping fixed geophysical geodetic electromagnetic instrument probe mount according to claim 3, wherein: support stop device (31) including drilling holding rod (310), connecting block (311), top screw thread (312), screw thread lantern ring (313), fixed limit landing leg (314) and fixed bottom plate (315), the four corners of fixed bottom plate (315) are located in screw thread lantern ring (313) fixed connection, fixed limit landing leg (314) pass screw thread lantern ring (313), the top of fixed limit landing leg (314) is located to top screw thread (312), keep threaded connection between top screw thread (312) and screw thread lantern ring (313), the top of fixed limit landing leg (314) is located to connecting block (311), drilling holding rod (310) are located on connecting block (311).

5. The filling and wrapping fixed geophysical geodetic electromagnetic instrument probe fixing apparatus of claim 4 wherein: the self-cleaning counterweight device (32) comprises a T-shaped counterweight (320), a connecting rod (321), a fixed block (322), a reset spring (323), a rubber sleeve ring (324), a cleaning protrusion (325), a first elastic rubber ring (326) and a second elastic rubber ring (327), wherein the T-shaped counterweight (320) is sleeved at the bottom of a fixed limit supporting leg (314), the rubber sleeve ring (324) is arranged in the T-shaped counterweight (320), the rubber sleeve ring (324) penetrates through the T-shaped counterweight (320), the connecting rod (321) is fixedly connected to two sides of the rubber sleeve ring (324), one end of the connecting rod (321) is hinged to the inner wall of the T-shaped counterweight (320), the fixed block (322) is arranged below the connecting rod (321), one end of the reset spring (323) is connected with the fixed block (322), the other end of the reset spring (323) is connected with the rubber sleeve ring (324), the fixed block (322) is fixedly connected with the inner wall of the T-shaped counterweight (320), the cleaning protrusion (325) is arranged on the curved surface of the rubber sleeve ring (324), the first elastic ring (326) is sleeved at the bottom of the second elastic ring (324), the elastic rubber ring II (327) is positioned below the elastic rubber ring I (326).

6. A filling and wrapping fixed geophysical geodetic electromagnetic instrument probe mount according to claim 5, wherein: the openings (1112) are arranged in two groups, the openings (1112) are arranged between the mounting base (1213) and the fixing column (1217), and the guide sleeve (1218) is opposite to the fixing sleeve (1214).

7. A filling and wrapping fixed geophysical geodetic electromagnetic instrument probe mount according to claim 6, wherein: the driving gear (211), the intermediate gear (212) and the driven gear (213) are rotatably connected with the mounting transverse plate (220).

8. A filling and wrapping fixed geophysical geodetic electromagnetic instrument probe mount according to claim 7, wherein: the rubber sleeve ring (324) is in sliding connection with the fixed limiting support leg (314).