CN114348437B - Geological information data acquisition device for shockproof disaster reduction - Google Patents

Abstract

The invention belongs to the technical field of geological equipment, in particular to a geological information data acquisition device for shockproof disaster reduction, which comprises a data acquisition device and a fixing device, wherein the fixing device comprises an acquisition device storage assembly, an acquisition device fixing assembly and a collet, the data acquisition device is uniformly arranged in the acquisition device storage assembly, and the acquisition device storage assembly, the acquisition device fixing assembly and the collet are sequentially arranged from top to bottom and are communicated; the collector storage component provided by the invention is convenient for storing the data collectors, can control intermittent blanking of the data collectors and can ensure that the rest data collectors are always in a compressed state in the blanking process, the collector fixing component provided by the invention is convenient for storing the shooting nails and simultaneously is convenient for fixing the shooting nails rapidly, the self-adaptive nail pushing mechanism and the nail moving mechanism are mutually matched to realize automatic nail shooting position compensation and intermittent blanking, and the nail shooting mechanism is convenient for guiding and fixing the shooting nails rapidly, so that the use effect is good.

Description

Geological information data acquisition device for shockproof disaster reduction

Technical Field

The invention belongs to the technical field of geological equipment, and particularly relates to a geological information data acquisition device for shockproof disaster reduction.

Background

The main content of the earthquake prevention and disaster reduction is the aspects of earthquake prevention and disaster reduction planning, earthquake monitoring and forecasting, earthquake disaster prevention, earthquake emergency rescue, transitional placement and restoration reconstruction after earthquake disaster, supervision management, legal responsibility and the like.

In order to effectively reduce the damage caused by an earthquake, a plurality of groups of data collectors are generally placed in a region for collecting geological information of the region, and the probability of the occurrence of the earthquake is judged and corresponding planning is made by analyzing the geological information.

The existing data acquisition device is required to be drilled through the gun drill during fixing, then the data acquisition device is fixed through the cooperation of the gun drill and the fixing nails, the fixing mode is very troublesome to operate and low in working efficiency, the data acquisition device and the fixing nails are inconvenient to store, a large stack of the data acquisition device and the fixing nails are very troublesome to carry during installation, the arrangement is poor, the arrangement is inconvenient, and the using effect is poor.

In order to solve the problems, the application provides a geological information data acquisition device for shockproof disaster reduction.

Disclosure of Invention

In order to solve the problems in the background art, the invention provides the geological information data acquisition device for shockproof disaster reduction, which can be used for rapidly fixing a data acquisition device and conveniently storing the data acquisition device and a fixing nail, and has the advantages of simple integral operation, high working efficiency, strong practicability and good use effect.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a take precautions against earthquakes and reduce disaster and use geological information data acquisition device, includes data acquisition ware and fixing device, fixing device includes that the collector deposits subassembly, the fixed subassembly of collector and collet, the data acquisition ware evenly sets up inside the subassembly is deposited to the collector, the fixed subassembly of collector and collet are from top to bottom set gradually and are linked together in proper order.

As the geological information data acquisition device for shockproof disaster reduction, the invention is preferable, the acquisition device storage assembly comprises a box body, an intermittent blanking mechanism, a cover plate, a locking rod and a self-adaptive compression mechanism, the data acquisition device is uniformly arranged in the box body, the intermittent blanking mechanism is symmetrically arranged on the outer surface of the box body, one end of the intermittent blanking mechanism penetrates through the box body and is attached to the bottoms of two ends of the data acquisition device, the cover plate is arranged on one side of the top of the box body and is fixedly connected with the top of the box body through the locking rod, the self-adaptive compression mechanism is arranged in the center of the top of the cover plate, and one end of the self-adaptive compression mechanism penetrates into the box body and is attached to the top of the data acquisition device.

As the geological information data acquisition device for shock prevention and disaster reduction, the intermittent blanking mechanism comprises a cylinder, a blanking pushing frame, a spring A, a control handle and a traction rope, wherein the cylinder is in threaded connection with the outer surface of a box body, the blanking pushing frame is in sliding connection with the inner wall of the box body, one end of the blanking pushing frame is in sliding connection with the inner wall of the cylinder, the other end of the blanking pushing frame penetrates into the box body and is attached to the bottoms of two ends of a data acquisition device, the spring A is positioned in the cylinder and sleeved on the outer side of the blanking pushing frame, and the control handle is in threaded connection with the outer surface of the cylinder and is connected with one end of the blanking pushing frame positioned in the cylinder through the traction rope.

As the geological information data acquisition device for shockproof disaster reduction, the self-adaptive compression mechanism comprises a pipe column, a pressing plate rod frame and a spring B, wherein the pipe column is in threaded connection with the center of the top of the cover plate, the pressing plate rod frame is in sliding connection with the inner wall of the pipe column, one end of the pressing plate rod frame penetrates through the inside of the box body and is attached to the top of the data acquisition device, the spring B is arranged in the pipe column, one end of the spring B is fixedly connected with the inner wall of the pipe column, and the other end of the spring B is fixedly connected with one end surface of the pressing plate rod frame.

As the geological information data acquisition device for shock prevention and disaster reduction, the acquisition device fixing assembly preferably comprises a fixing main frame, a nail feeding mechanism and a nail fixing mechanism, wherein the fixing main frame is arranged at the bottom of the box body and is communicated with the inside of the box body, the nail feeding mechanism is arranged on the outer surface of the fixing main frame, and the nail fixing mechanism is arranged on the outer side wall of the fixing main frame.

As the geological information data acquisition device for shock prevention and disaster reduction, the nail feeding mechanism comprises a nail seat, a first nail groove, a second nail groove, a nail shooting mechanism, a self-adaptive nail pushing mechanism and a nail moving mechanism, wherein the nail seat is arranged on the outer surface of a fixed main frame, the first nail groove is symmetrically arranged at the top of the nail seat, the second nail groove is symmetrically arranged at the top of the nail seat and is positioned at one side of the first nail groove, the second nail groove is arranged at 90 degrees with the first nail groove and is communicated with the first nail groove, the nail shooting mechanism is uniformly arranged in the first nail groove, the self-adaptive nail pushing mechanism is arranged on the inner wall of the first nail groove, the nail moving mechanism is symmetrically arranged on the outer surface of the nail seat, and one end of the nail moving mechanism penetrates into the second nail groove and corresponds to the position of the first nail groove.

As the geological information data acquisition device for shockproof disaster reduction, the self-adaptive nail pushing mechanism comprises a guide cylinder, a push block and a spring C, wherein the guide cylinder is arranged on the inner wall of a first nail groove, the push block is connected on the inner wall of the first nail groove in a sliding manner and is positioned on one side of the guide cylinder, one end of the push block is connected on the inner wall of the guide cylinder in a sliding manner, and the spring C is sleeved on the outer side of the push block and is attached to the surface of one end of the guide cylinder.

As the geological information data acquisition device for shock prevention and disaster reduction, the invention is preferable, the nail moving mechanism comprises a fixed seat, a push plate, a spring D, a sliding frame, a connecting rod, a clamping block, a gear rod frame and a rack, wherein the fixed seat is arranged on the outer surface of a nail seat, the push plate is in sliding connection with the outer surface of the fixed seat, the spring D is uniformly arranged between the fixed seat and the push plate and sleeved outside the push plate, the sliding frame is in sliding connection with the inner wall of the fixed seat and is connected with the inner wall of the push plate through the connecting rod, one end of the sliding frame penetrates into the second nail groove, the clamping block is in rotating connection with the top of one end of the sliding frame penetrating into the second nail groove and corresponds to the position of the first nail groove, the gear rod frame is in rotating connection with the bottom of the sliding frame and corresponds to the position of the clamping block, one end of the gear rod frame penetrates out of the top of the sliding frame and is fixedly connected with the clamping block, the rack is in clamping connection with the inner wall of the nail seat and is positioned on one side of the gear rod frame, and the rack is in meshed connection with the gear rod frame.

As the geological information data acquisition device for shock prevention and disaster reduction, the invention is preferable, the nail fixing mechanism comprises a fixed support, a mounting ring seat, guide shaft rods, a nail shooting mechanism, a spring E, a limit rod frame and a limit seat, wherein the fixed support is fastened on the outer side wall of the fixed main frame through bolts, the mounting ring seat is fastened on the outer surface of the fixed support through symmetrical bolts, the guide shaft rods are all connected on the inner wall of the mounting ring seat in a sliding manner, the nail shooting mechanism is arranged between two groups of guide shaft rods, the spring E is sleeved on the outer side of the guide shaft rods and positioned between the nail shooting mechanism and the mounting ring seat, the limit rod frame is fastened on the outer surface of the nail shooting mechanism through bolts, the limit seat is fastened on the outer side wall of the fixed main frame and corresponds to the position of the limit rod frame, and the limit rod frame is clamped and fixed on the inner wall of the limit seat.

As the geological information data acquisition device for shock prevention and disaster reduction, the nail shooting mechanism comprises a frame body, a support ring seat, a pedal sleeve A, a spring F, a firing pin, a pedal sleeve B, a spring G and a nail shooting guide cylinder seat, wherein the frame body is arranged between two groups of guide shafts, the support ring seat is arranged on the inner wall of the frame body, the pedal sleeve A is slidably connected on the inner wall of the support ring seat, the spring F is sleeved outside the pedal sleeve A and is positioned between the pedal sleeve A and the support ring seat, the firing pin is arranged at the bottom of the pedal sleeve A, the pedal sleeve B is positioned on one side of the support ring seat and is sleeved outside the pedal sleeve A, the spring G is sleeved outside the pedal sleeve B and is positioned between the pedal sleeve B and the inner wall of the frame body, one end of the pedal sleeve B penetrates out of the bottom of the frame body, the nail shooting guide cylinder seat is arranged on one end surface of the pedal sleeve B penetrating out of the bottom of the frame body, and the nail shooting guide cylinder seat bottom is matched with the nail shooting appearance.

Compared with the prior art, the invention has the beneficial effects that:

(1) The invention has novel design, reasonable structure, simple integral operation and convenient use, the collector storage component is arranged, the collector storage component is convenient for storing the data collectors, the intermittent blanking mechanism arranged on the surface of the collector storage component is convenient for controlling the intermittent blanking of the data collectors, the self-adaptive compressing mechanism ensures that the rest data collectors are always in a compressing state in the blanking process, the rest data collectors are prevented from shaking, the integral operation is simple, the practicability is strong and the use effect is good;

(2) The invention is provided with the collector fixing component, the collector fixing component is designed to be convenient for storing the shooting nails and simultaneously be convenient for fixing the shooting nails rapidly, the built-in self-adaptive nail pushing mechanism is convenient for pushing the shooting nails, automatic position compensation is realized, the nail moving mechanism is convenient for conveying single-group shooting nails into the fixing holes at the two ends of the data collector, intermittent blanking is realized, and the nail shooting mechanism is convenient for correcting and fixing the shooting nails rapidly, so that the working efficiency is high and the using effect is good.

Drawings

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. In the drawings:

FIG. 1 is a schematic diagram of the structure of the present invention;

FIG. 2 is a schematic view of a collector storage assembly according to the present invention;

FIG. 3 is a schematic diagram of an intermittent blanking mechanism in the present invention;

FIG. 4 is a schematic diagram of the structure of the adaptive hold-down mechanism according to the present invention;

FIG. 5 is a schematic view of a collector fixing assembly according to the present invention;

FIG. 6 is a schematic view of the nail feeding mechanism of the present invention;

FIG. 7 is a schematic view of a nail shooting structure in the present invention;

FIG. 8 is a schematic view of the structure of the adaptive staple pushing mechanism of the present invention;

FIG. 9 is a schematic view of a nail moving mechanism according to the present invention;

FIG. 10 is a schematic view of a nail fixing mechanism according to the present invention;

FIG. 11 is a schematic view of the nail shooting mechanism of the present invention;

fig. 12 is a schematic view of a shoe structure according to the present invention.

In the figure:

1. a data collector;

2. a fixing device;

3. A collector storage assembly; 31. a case; 32. an intermittent blanking mechanism; 321. a cylinder column; 322. discharging pushing frames; 3221. a cone; 3222. rectangular body; 323. a spring A; 324. a control handle; 325. a traction rope; 33. a cover plate; 34. a lock lever; 35. a self-adaptive compressing mechanism; 351. a tubular column; 352. a pressing plate rod frame; 353. a spring B;

4. A collector fixing assembly; 41. fixing a main frame; 42. a nail feeding mechanism; 421. a nail seat; 422. a first staple channel; 423. a second staple groove; 424. shooting nails; 4241. a nail body; 4242. a powder part; 425. a self-adaptive nail pushing mechanism; 4251. a guide cylinder; 4252. a pushing block; 4253. a spring C; 426. a nail moving mechanism; 4261. a fixing seat; 4262. a push plate; 4263. a spring D; 4264. a carriage; 4265. a connecting rod; 4266. a clamping block; 4267. a gear rod rack; 4268. a rack; 43. a nail fixing mechanism; 431. a fixed bracket; 432. a mounting ring seat; 433. a guide shaft lever; 434. a nail shooting mechanism; 4341. a frame body; 4342. a support ring seat; 4343. a pedal sleeve A; 4344. a spring F; 4345. a striker; 4346. a pedal sleeve B; 4347. a spring G; 4348. a nail shooting guide cylinder seat; 435. a spring E; 436. a limit rod frame; 437. a limit seat;

5. A bottom support;

100. a through groove; 200. a flip cover; 300. a bar-shaped groove; 400. a guide groove.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. 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.

Example 1

Please refer to fig. 1-12;

The utility model provides a take precautions against earthquakes and reduce disaster and use geological information data acquisition device, includes data acquisition ware 1 and fixing device 2, and fixing device 2 includes that the collector deposits subassembly 3, collector fixed subassembly 4 and collet 5, and data acquisition ware 1 evenly sets up inside collector deposits subassembly 3, collector fixed subassembly 4 and collet 5 from top to bottom set gradually and are linked together in proper order.

It should be noted that: in this embodiment, the surfaces of the collector storage component 3, the collector fixing component 4 and the collet 5 are all provided with through slots 100 and are communicated, and the through slots 100 are matched with the external dimensions of the data collector 1.

In this embodiment: before the device is used, the data collectors 1 are firstly placed in the box body 31 in sequence, then the cover plates 33 are covered, the cover plates 33 are fixed through the lock rods 34, then the shooting nails 424 are arranged in the first nail grooves 422 one by one, one side of the shooting nails 424 is pushed tightly through the self-adaptive nail pushing mechanism 425, automatic position compensation of the shooting nails 424 is realized, then when the top of the first nail grooves 422 is covered through the flip cover 200, the top of the shooting nails 424 is limited, during the use, the intermittent blanking of the data collectors 1 is firstly realized through the intermittent blanking mechanism 32, wherein one end of the blanking pushing frame 322 close to the through groove 100 is provided with a conical body 3221, the bottom is provided with a rectangular body 3222, the conical body 3221 and the rectangular body 3222 are all positioned in a guide groove in the box body 31 and move back and forth, the protruding parts at two ends of the lowest data collector 1 are all positioned between the conical body 3221 and the rectangular body 3222, when the blanking pushing frame 322 moves, the conical body 3221 and the rectangular body 3222 are synchronously driven to enter and exit in the through groove 100, in an initial state, the rectangular body 3222 is positioned in the through groove 100 and corresponds to the protruding parts at two ends of the data collector 1, the width dimension is equal, the conical body 3221 is positioned in the guide groove in the box 31, when the data collector 1 is stored, the data collector 1 descends under the action of gravity and falls on the rectangular body 3222, the rest data collectors 1 are sequentially stacked and placed, when the data collector 1 is placed, the control handle 324 is pressed to drive the traction rope 325 to move, the traction rope 325 moves to synchronously drive the blanking pushing frame 322 to move and compress the spring A323, the blanking pushing frame 322 moves to drive the conical body 3221 and the rectangular body 3222 to synchronously move, the conical body 3221 moves into the through groove 100 to block the previous group of data collectors 1 from falling, when the cuboid 3222 moves into the guide groove, the data collector 1 between the conical body 3221 and the cuboid 3222 is not limited, so that the data collector 1 falls into the bottom support 5 under the action of gravity and contacts with the ground, when the control handle 324 is stopped being pressed, the blanking pushing frame 322 resets under the action of the spring A323 and drives the conical body 3221 and the cuboid 3222 to synchronously reset, the conical body 3221 resets and moves into the guide groove again to not resist the last group of data collectors 1, so that the last group of data collectors 1 falls below the conical body 3221, the cuboid 3222 resets and moves into the through groove 100 again and supports the bottom of the last group of data collectors 1, so that the last group of data collectors 1 is not fallen, the position between the conical body 3221 and the cuboid 3222 is ensured, the last group of data collectors 1 is limited, intermittent blanking is realized, when the data collector 1 falls into the bottom bracket 5, the push plate 4262 is pushed to one side of the fixed seat 4261, the push plate 4262 moves to drive the connecting rod 4265 to move and compress the spring D4263, the connecting rod 4265 moves to synchronously drive the sliding frame 4264 to move, the sliding frame 4264 moves to synchronously drive the clamping block 4266 to move, the clamping block 4266 moves to synchronously drive the nail shooting 424 positioned in the arc-shaped groove to move, meanwhile, the sliding frame 4264 moves to synchronously drive the gear rod frame 4267 to move, when the gear rod frame 4267 moves to the tooth section on the rack 4268, the gear rod frame is meshed with the tooth section to drive the clamping block 4266 to rotate, the clamping block 4266 rotates to drive the arc-shaped groove to move so as to enable the nail shooting 424 in the arc-shaped groove to separate from and slide into the second nail groove 423, then slide into the fixed holes at two ends of the data collector 1 along the second nail groove 423 from the through groove 100, when the nail shooting 424 falls into the fixed holes, the pushing of the push plate 4262 is stopped, after the push plate 4262 loses force, the push plate 4263 resets under the action of a spring D4263 and synchronously drives a clamping block 4266 to reset so as to clamp the next group of nails 424, intermittent blanking of the nails 424 is realized, then the nail shooting mechanism 434 is stirred so as to change the direction of the nail shooting mechanism 434 until a limiting rod frame 436 is clamped and fixed with a limiting seat 437, the limiting rod frame 436 is clamped and fixed with the limiting seat 437 so as to fix the direction of the nail shooting mechanism 434 and keep the same with the position of the nails 424 falling into the data acquisition unit 1, in the process, a certain buffering and adjusting effect is realized by a guide shaft lever 433 and a spring E435, when the nails 424 are fixed, a foot sleeve B4346 is firstly pressed down, a foot sleeve B4346 is lowered so as to synchronously drive a nail shooting guide cylinder seat 4348 to descend and compress a spring G4347, the nail guide cylinder seat 4348 descends so as to contact with the nails 424 in the data acquisition unit 1 and guide the nails 424, after the pilot is finished, the lower foot pedal sleeve B4346 is stopped, the foot pedal sleeve B4346 rises under the action of the spring G4347 to reset after losing force, then the lower foot pedal sleeve A4343 falls to synchronously drive the foot pedal sleeve B4346 to fall and pilot the shooting nail 424 again, in the process, the foot pedal sleeve A4343 falls to synchronously drive the firing pin 4345 to fall and compress the spring F4344 until the firing pin 4345 impacts the gunpowder part 4242 at the top of the shooting nail 424, so that the gunpowder part 4242 explodes, the nail body 4241 is strongly fixed on the ground, the data collector 1 is quickly fixed, then the lower foot pedal sleeve A4343 is stopped, the foot pedal sleeve A4343 and the foot pedal sleeve B4346 rise to reset under the action of the spring F4344 and the spring G4347 respectively after losing force, and the whole operation is simple, the practicability is strong, and the use effect is good.

Further, the method comprises the following steps:

In an alternative embodiment: the collector storage assembly 3 comprises a box body 31, an intermittent blanking mechanism 32, a cover plate 33, a lock rod 34 and a self-adaptive compression mechanism 35, the data collector 1 is uniformly arranged inside the box body 31, the intermittent blanking mechanism 32 is symmetrically arranged on the outer surface of the box body 31, one end of the intermittent blanking mechanism 32 penetrates through the box body 31 and is attached to the bottoms of two ends of the data collector 1, the cover plate 33 is arranged on one side of the top of the box body 31 and is fixedly connected with the top of the box body 31 through the lock rod 34, the self-adaptive compression mechanism 35 is arranged at the center of the top of the cover plate 33, and one end of the self-adaptive compression mechanism 35 penetrates through the box body 31 and is attached to the top of the data collector 1.

In this embodiment, the following description is given of the present invention. The structure and the relation of connection of the collector storage assembly 3 are further explained, when the automatic feeding and discharging device is used, the data collectors 1 are sequentially placed inside the box body 31 one by one, then the cover plate 33 is covered, the cover plate 33 is fixed through the lock rod 34, when the automatic feeding and discharging device is used, intermittent discharging of the data collectors 1 is realized through the intermittent discharging mechanism 32, the self-adaptive compressing mechanism 35 ensures that the data collectors 1 inside the box body 31 are compressed in real time, looseness of the data collectors is prevented, and the automatic feeding and discharging device is simple in overall operation, high in practicality and good in use effect.

Still further, the method comprises:

In an alternative embodiment: intermittent blanking mechanism 32 includes barrel post 321, blanking push away frame 322, spring A323, control handle 324 and haulage rope 325, barrel post 321 threaded connection is at box 31 surface, blanking push away frame 322 sliding connection is at box 31 inner wall, blanking push away frame 322 one end sliding connection is at barrel post 321 inner wall, the other end runs through into box 31 inside and laminating mutually with data acquisition unit 1 both ends bottom, spring A323 is located barrel post 321 inside and cup joints in blanking push away frame 322 outside, control handle 324 threaded connection is at barrel post 321 surface and is connected with the one end that blanking push away frame 322 is located barrel post 321 inside through haulage rope 325.

In this embodiment, the following description is given of the present invention. The box 31 is provided with a guide groove which can realize the transverse movement of the blanking pushing frame 322 at a position corresponding to the blanking pushing frame 322.

In this embodiment, the following description is given of the present invention. The top and bottom of one end of the blanking pushing frame 322, which is close to the through groove 100, are respectively provided with a conical body 3221 and a rectangular body 3222.

In this embodiment, the following description is given of the present invention. Further explain intermittent type feed mechanism 32's structure and relation of connection, when using, thereby press control handle 324 drive haulage rope 325 and remove, haulage rope 325 removes and drives unloading pushing away the frame 322 and remove and compress spring A323 in step, thereby unloading pushing away the frame 322 and remove and not fix the data collection station 1 that contacts with unloading pushing away the frame 322, make the data collection station 1 that contacts with unloading pushing away the frame 322 fall to collet 5 under the action of gravity in and contact with ground automatically, when stopping pressing control handle 324, unloading pushing away the frame 322 and resetting and fix last group of data collection station 1 under the action of spring A323, realize intermittent type unloading, and is simple in operation, and the practicality is strong and excellent in use effect.

Still further, the method comprises:

In an alternative embodiment: the self-adaptive pressing mechanism 35 comprises a pipe column 351, a pressing plate rod frame 352 and a spring B353, wherein the pipe column 351 is in threaded connection with the center of the top of the cover plate 33, the pressing plate rod frame 352 is slidably connected with the inner wall of the pipe column 351, one end of the pressing plate rod frame 352 penetrates into the box 31 and is attached to the top of the data collector 1, the spring B353 is arranged in the pipe column 351, one end of the spring B353 is fixedly connected with the inner wall of the pipe column 351, and the other end of the spring B353 is fixedly connected with one end surface of the pressing plate rod frame 352.

In this embodiment, the following description is given of the present invention. Further explain self-adaptation hold-down mechanism 35's structure and relation of connection, during the use, apron 33 descends and drives clamp plate pole frame 352 decline and laminate mutually with data collection station 1 top, data collection station 1 and clamp plate pole frame 352 contact and apply to clamp plate pole frame 352 a reaction force, thereby clamp plate pole frame 352 rises and compress spring B353 compress tightly data collection station 1 under the reaction force, thereby when data collection station 1 descends, thereby clamp plate pole frame 352 hugs closely data collection station 1 top under the effort of compression spring B353, thereby compress tightly data collection station 1, and is whole easy operation, and the practicality is strong and excellent in use effect.

Still further, the method comprises:

In an alternative embodiment: the collector fixing assembly 4 comprises a fixing main frame 41, a nail feeding mechanism 42 and a nail fixing mechanism 43, wherein the fixing main frame 41 is arranged at the bottom of the box body 31 and is communicated with the inside of the box body 31, the nail feeding mechanism 42 is arranged on the outer surface of the fixing main frame 41, and the nail fixing mechanism 43 is arranged on the outer side wall of the fixing main frame 41.

In this embodiment, the following description is given of the present invention. Further explain the structure and the relation of connection of collector fixed subassembly 4, during the use, data collection station 1 falls to inside the fixed body frame 41 from box 31 inside, then falls to the collet 5 inside and with ground contact, will penetrate nail 424 through send nail mechanism 42 to carry to the fixed orifices at data collection station 1 both ends afterwards, then fix thereby through fixing nail mechanism 43 will fall into the downthehole nail 424 of penetrating of fixed, thereby fix data collection station 1, whole easy operation, the practicality is strong and excellent in use effect.

Still further, the method comprises:

In an alternative embodiment: the nail feeding mechanism 42 comprises a nail seat 421, a first nail groove 422, a second nail groove 423, a nail shooting 424, a self-adaptive nail pushing mechanism 425 and a nail moving mechanism 426, wherein the nail seat 421 is arranged on the outer surface of the fixed main frame 41, the first nail groove 422 is symmetrically arranged at the top of the nail seat 421, the second nail groove 423 is symmetrically arranged at the top of the nail seat 421 and is positioned at one side of the first nail groove 422, the second nail groove 423 is arranged at 90 degrees with the first nail groove 422 and is communicated with the first nail groove 422, the nail shooting 424 is uniformly arranged inside the first nail groove 422, the self-adaptive nail pushing mechanism 425 is arranged on the inner wall of the first nail groove 422, the nail moving mechanism 426 is symmetrically arranged on the outer surface of the nail seat 421, and one end of the nail moving mechanism 426 penetrates into the second nail groove 423 and corresponds to the position of the first nail groove 422.

In this embodiment, the following description is given of the present invention. The center of gravity of the shooting nail 424 is arranged on the lower side, the protruding parts at the two ends of the data acquisition device 1 are provided with fixing holes, each fixing hole consists of a conical hole and a vertical hole which are arranged up and down and are communicated, each conical hole is arranged at the upper end of each vertical hole, each conical hole guides the shooting nail 424 and ensures that the shooting nail 424 vertically falls into each vertical hole, the vertical holes are matched with the outline dimensions of the shooting nail 424, and the shooting nail 424 is ensured to be vertical to the ground in each vertical hole.

In this embodiment, the following description is given of the present invention. Nail 424 includes a shank 4241 and an integrally formed powder portion 4242 disposed on top of shank 4241.

In this embodiment, the following description is given of the present invention. A flip cover 200 is fixedly hinged to one side of the first nail groove 422, and torsion springs are arranged at the joints of the two ends of the flip cover 200 and the inner wall of the nail seat 421.

In this embodiment, the following description is given of the present invention. The structure and the connection relation of the nail feeding mechanism 42 are further explained, when the nail feeding mechanism is used, the nail seat 421 is arranged on the outer surface of the fixed main frame 41, then the nails 424 are arranged inside the first nail grooves 422 one by one and are pushed tightly by the self-adaptive nail pushing mechanism 425, automatic position compensation of the nails 424 is achieved, then the tops of the first nail grooves 422 are covered by the flip 200 so as to limit the tops of the nails 424, then the nails 424 inside the first nail grooves 422 are singly conveyed to the inside of the second nail grooves 423 by the nail moving mechanism 426, finally the nails 424 are conveyed singly by the nails 424 in the fixing holes which slide to the two ends of the data collector 1 by the aid of the second nail grooves 423, and the whole nail feeding mechanism is simple in operation, high in practicability and good in use effect.

Still further, the method comprises:

in an alternative embodiment: the self-adaptive nail pushing mechanism 425 comprises a guide cylinder 4251, a push block 4252 and a spring C4253, wherein the guide cylinder 4251 is arranged on the inner wall of the first nail groove 422, the push block 4252 is slidably connected on the inner wall of the first nail groove 422 and positioned on one side of the guide cylinder 4251, one end of the push block 4252 is slidably connected on the inner wall of the guide cylinder 4251, and the spring C4253 is sleeved on the outer side of the push block 4252 and is attached to the surface of one end of the guide cylinder 4251.

In this embodiment, the following description is given of the present invention. When the self-adaptive nail pushing mechanism 425 is used, the push block 4252 is pushed to one side of the guide cylinder 4251, the push block 4252 moves to synchronously compress the spring C4253, and when the push block 4252 stops being pushed, the push block 4252 resets under the action of the spring C4253 to extrude the nail shooting 424, so that automatic position compensation of the nail shooting 424 is realized, the whole operation is simple, the practicability is strong, and the use effect is good.

Still further, the method comprises:

In an alternative embodiment: the nail moving mechanism 426 comprises a fixed seat 4261, a push plate 4262, a spring D4263, a sliding frame 4264, a connecting rod 4265, a clamping block 4266, a gear rod frame 4267 and a rack 4268, wherein the fixed seat 4261 is arranged on the outer surface of the nail seat 421, the push plate 4262 is in sliding connection with the outer surface of the fixed seat 4261, the spring D4263 is uniformly arranged between the fixed seat 4261 and the push plate 4262 and sleeved outside the push plate 4262, the sliding frame 4264 is in sliding connection with the inner wall of the fixed seat 4261 and is connected with the inner wall of the push plate 4262 through the connecting rod 4265, one end of the sliding frame 4264 penetrates into the second nail groove 423, the clamping block 4266 is in rotary connection with the top of one end of the sliding frame 4264 penetrating into the second nail groove 423 and corresponds to the position of the first nail groove 422, one end of the gear rod frame 4267 penetrates out of the top of the sliding frame 4264 and is fixedly connected with the clamping block 4266, and the rack 4268 is clamped and fixed on the inner wall of the nail seat 421 and is positioned on one side of the gear rod frame 4267, and the rack 4268 is in meshed connection with the gear rod frame 4267.

In this embodiment, the following description is given of the present invention. The surface of the clamping block 4266 is provided with an arc-shaped groove which is matched with the external dimension of the shooting nail 424.

In this embodiment, the following description is given of the present invention. The outer surface of the nail seat 421 is provided with a strip-shaped groove 300 at a position corresponding to the clamping block 4266.

In this embodiment, the following description is given of the present invention. The rack 4268 is provided with tooth segments which are matched with the gear rod rack 4267.

In this embodiment, the following description is given of the present invention. When the nail moving mechanism 426 is used, the push plate 4262 is pushed to one side of the fixed seat 4261, the push plate 4262 moves to drive the connecting rod 4265 to move and compress the spring D4263, the connecting rod 4265 moves to synchronously drive the sliding frame 4264 to move, the sliding frame 4264 moves to synchronously drive the clamping block 4266 to move, the clamping block 4266 moves to synchronously drive the nail shooting 424 positioned in the arc-shaped groove to move, meanwhile, the sliding frame 4264 moves to synchronously drive the gear rod frame 4267 to move, when the gear rod frame 4267 moves to the tooth section on the rack 4268, the gear rod frame is meshed with the tooth section to drive the clamping block 4266 to rotate, the clamping block 4266 rotates to drive the arc-shaped groove to move so that the nail shooting 424 in the arc-shaped groove is separated from and slides into the second nail groove 423, then slides into the fixed holes at two ends of the data collector 1 along the second nail groove 423, after the nail shooting 424 falls into the fixed holes, the push plate 4262 stops pushing the push plate 4263 is stopped, and after the force is lost, the clamping block 4266 is synchronously driven to reset under the action of the spring D4263, so that the clamping block 4266 is synchronously driven to reset, and the clamping block 4266 is clamped, and the nail is clamped down, and the whole nail is easy to operate.

Still further, the method comprises:

In an alternative embodiment: the nail fixing mechanism 43 comprises a fixed bracket 431, a mounting ring seat 432, guide shafts 433, a nail shooting mechanism 434, springs E435, a limiting rod frame 436 and a limiting seat 437, wherein the fixed bracket 431 is fastened on the outer side wall of the fixed main frame 41 through bolts, the mounting ring seat 432 is fastened on the outer surface of the fixed bracket 431 through symmetrical bolts, the guide shafts 433 are all connected with the inner wall of the mounting ring seat 432 in a sliding mode, the nail shooting mechanism 434 is arranged between the two groups of the guide shafts 433, the springs E435 are all sleeved on the outer sides of the guide shafts 433 and are located between the nail shooting mechanism 434 and the mounting ring seat 432, the limiting rod frame 436 is fastened on the outer surface of the nail shooting mechanism 434 through bolts, the limiting seat 437 is fastened on the outer side wall of the fixed main frame 41 and corresponds to the limiting rod frame 436 in position, and the limiting rod frame 436 is clamped and fixed on the inner wall of the limiting seat 437.

In this embodiment, the following description is given of the present invention. Further explain the structure and the relation of connection of nail fixing mechanism 43, when using, thereby stir nail shooting mechanism 434 and change the direction of nail shooting mechanism 434 until spacing pole frame 436 is fixed with spacing seat 437 joint, thereby fix nail shooting mechanism 434 orientation and with fall into the inside nail shooting 424 position maintenance of data acquisition ware 1 through spacing pole frame 436 and spacing seat 437 joint is unanimous, at this in-process, guide shaft lever 433 and spring E435 then play certain buffering and regulatory action, and the practicality is strong and excellent in use effect.

Still further, the method comprises:

In an alternative embodiment: the nail shooting mechanism 434 comprises a frame 4341, a support ring seat 4342, a pedal sleeve A4343, a spring F4344, a firing pin 4345, a pedal sleeve B4346, a spring G4347 and a nail shooting guide cylinder seat 4348, wherein the frame 4341 is arranged between two groups of guide shafts 433, the support ring seat 4342 is arranged on the inner wall of the frame 4341, the pedal sleeve A4343 is slidably connected on the inner wall of the support ring seat 4342, the spring F4344 is sleeved on the outer side of the pedal sleeve A4343 and is positioned between the pedal sleeve A4343 and the support ring seat 4342, the firing pin 4345 is arranged at the bottom of the pedal sleeve A4343, the pedal sleeve B4346 is positioned on one side of the support ring seat 4342 and is sleeved on the outer side of the pedal sleeve A4343, the spring G4347 is sleeved on the outer side of the pedal sleeve B4346 and is positioned between the pedal sleeve B4346 and the inner wall of the frame 4341, one end of the pedal sleeve B4346 penetrates out of the bottom of the frame 4341, the nail shooting guide seat 4348 is arranged on the surface of one end of the pedal sleeve B4346 penetrating out of the bottom of the frame 4341, and the nail shooting guide cylinder seat 4348 is matched with the nail shooting guide seat 424.

In this embodiment, the following description is given of the present invention. The corresponding positions of the support body 4341 corresponding to the pedal sleeve A4343 and the pedal sleeve B4346 are respectively provided with a guide groove 400, and one ends of the pedal sleeve A4343 and the pedal sleeve B4346 penetrate through the outside of the guide grooves 400.

In this embodiment, the following description is given of the present invention. When the nail shooting mechanism 434 is used, the foot pedal sleeve B4346 is firstly lowered, the foot pedal sleeve B4346 is lowered and synchronously drives the nail shooting guide cylinder seat 4348 to descend and compress the spring G4347, the nail shooting guide cylinder seat 4348 is lowered to contact with the nail shooting 424 in the data acquisition unit 1 and guide the nail shooting 424, the foot pedal sleeve B4346 is stopped after the guide is finished, the foot pedal sleeve B4346 is raised under the action of the spring G4347 to reset after the force is lost, then the foot pedal sleeve A4343 is lowered, the foot pedal sleeve A4343 is lowered and synchronously drives the foot pedal sleeve B4346 to descend and guide the nail shooting 424 again, in the process, the foot pedal sleeve A4343 is lowered and synchronously drives the nail shooting guide cylinder seat 4345 to descend and compress the spring F4344 until the nail shooting seat 4345 impacts the gunpowder part 4242 at the top of the nail shooting 424, the gunpowder part 4242 is exploded and the nail body 4241 is strongly fixed on the ground, the data acquisition unit 1 is quickly fixed, and then the foot pedal sleeve A4343 is stopped to be lowered, and the foot pedal sleeve A4346 is lowered and the spring F is lowered to have good effect after the force is reduced, and the whole force is reduced by the spring 43 and the spring F4346 is reduced, and the whole force is reduced by the spring 43 and the spring 43 is reduced.

Finally, it should be noted that: the foregoing description is only a preferred embodiment of the present invention, and the present invention is not limited thereto, but it is to be understood that modifications and equivalents of some of the technical features described in the foregoing embodiments may be made by those skilled in the art, although the present invention has been described in detail with reference to the foregoing embodiments. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides a geological information data acquisition device for disaster prevention and reduction takes precautions against earthquakes, includes data collector (1) and fixing device (2), its characterized in that: the fixing device (2) comprises a collector storage component (3), a collector fixing component (4) and a bottom support (5), wherein the data collectors (1) are uniformly arranged inside the collector storage component (3), and the collector storage component (3), the collector fixing component (4) and the bottom support (5) are sequentially arranged from top to bottom and are communicated;

The collector storage assembly (3) comprises a box body (31), an intermittent blanking mechanism (32), a cover plate (33), a lock rod (34) and a self-adaptive pressing mechanism (35), wherein the data collector (1) is uniformly arranged inside the box body (31), the intermittent blanking mechanism (32) is symmetrically arranged on the outer surface of the box body (31), one end of the intermittent blanking mechanism (32) penetrates through the box body (31) and is attached to the bottoms of two ends of the data collector (1), the cover plate (33) is arranged on one side of the top of the box body (31) and is fixedly connected with the top of the box body (31) through the lock rod (34), the self-adaptive pressing mechanism (35) is arranged at the center of the top of the cover plate (33), and one end of the self-adaptive pressing mechanism (35) penetrates through the box body (31) and is attached to the top of the data collector (1).

The intermittent blanking mechanism (32) comprises a barrel column (321), a blanking pushing frame (322), a spring A (323), a control handle (324) and a traction rope (325), wherein the barrel column (321) is in threaded connection with the outer surface of the box body (31), the blanking pushing frame (322) is in sliding connection with the inner wall of the box body (31), one end of the blanking pushing frame (322) is in sliding connection with the inner wall of the barrel column (321), the other end of the blanking pushing frame penetrates into the box body (31) and is attached to the bottoms of two ends of the data collector (1), the spring A (323) is located inside the barrel column (321) and is sleeved on the outer side of the blanking pushing frame (322), and the control handle (324) is in threaded connection with one end of the blanking pushing frame (322) located inside the barrel column (321) through the traction rope (325);

The self-adaptive compressing mechanism (35) comprises a tubular column (351), a pressing plate rod frame (352) and a spring B (353), wherein the tubular column (351) is in threaded connection with the center of the top of the cover plate (33), the pressing plate rod frame (352) is in sliding connection with the inner wall of the tubular column (351), one end of the pressing plate rod frame (352) penetrates through the inside of the box body (31) and is attached to the top of the data collector (1), the spring B (353) is arranged in the tubular column (351), one end of the spring B (353) is fixedly connected with the inner wall of the tubular column (351), and the other end of the spring B (353) is fixedly connected with the surface of one end of the pressing plate rod frame (352);

the collector fixing assembly (4) comprises a fixing main frame (41), a nail feeding mechanism (42) and a nail fixing mechanism (43), wherein the fixing main frame (41) is arranged at the bottom of the box body (31) and is communicated with the inside of the box body (31), the nail feeding mechanism (42) is arranged on the outer surface of the fixing main frame (41), and the nail fixing mechanism (43) is arranged on the outer side wall of the fixing main frame (41).

2. The geological information data acquisition device for preventing and reducing disaster according to claim 1, wherein: the nail feeding mechanism (42) comprises a nail seat (421), a first nail groove (422), a second nail groove (423), a nail shooting mechanism (424), a self-adaptive nail pushing mechanism (425) and a nail moving mechanism (426), wherein the nail seat (421) is arranged on the outer surface of a fixed main frame (41), the first nail groove (422) is symmetrically arranged at the top of the nail seat (421), the second nail groove (423) is symmetrically arranged at the top of the nail seat (421) and is positioned on one side of the first nail groove (422), the second nail groove (423) is arranged at 90 degrees with the first nail groove (422) and is communicated with the first nail groove (422), the nail shooting mechanism (424) is uniformly arranged inside the first nail groove (422), the self-adaptive nail pushing mechanism (425) is arranged on the inner wall of the first nail groove (422), the nail moving mechanism (426) is symmetrically arranged on the outer surface of the nail seat (421), and one end of the nail moving mechanism (426) penetrates into the second nail groove (423) and corresponds to the position of the first nail groove (422).

3. The geological information data acquisition device for preventing and reducing disaster according to claim 2, wherein: the self-adaptive nail pushing mechanism (425) comprises a guide cylinder (4251), a push block (4252) and a spring C (4253), wherein the guide cylinder (4251) is arranged on the inner wall of a first nail groove (422), the push block (4252) is slidably connected on the inner wall of the first nail groove (422) and is positioned on one side of the guide cylinder (4251), one end of the push block (4252) is slidably connected on the inner wall of the guide cylinder (4251), and the spring C (4253) is sleeved on the outer side of the push block (4252) and is attached to the surface of one end of the guide cylinder (4251).

4. The geological information data acquisition device for preventing and reducing disaster according to claim 3, wherein: the nail moving mechanism (426) comprises a fixed seat (4261), a push plate (4262), a spring D (4263), a sliding frame (4264), a connecting rod (4265), a clamping block (4266), a gear rod rack (4267) and a rack (4268), wherein the fixed seat (4261) is arranged on the outer surface of a nail seat (421), the push plate (4262) is connected on the outer surface of the fixed seat (4261) in a sliding manner, the spring D (4263) is uniformly arranged between the fixed seat (4261) and the push plate (4262) and sleeved on the outer side of the push plate (4262), the sliding frame (4264) is connected on the inner wall of the fixed seat (4261) in a sliding manner and is connected with the inner wall of the push plate (4262) through a connecting rod (4265), one end of the sliding frame (4264) penetrates into the second nail groove (423), the clamping block (4266) is connected on the top of one end of the sliding frame (4264) penetrating into the second nail groove (423) in a sliding manner and corresponds to the position of the first nail groove (422), the gear rod rack (4267) is connected on the bottom of the sliding frame (4264) in a sliding manner and is connected on one side of the inner wall (4264) corresponding to the clamping block (4266) and penetrates out of the rack (4268) in a sliding frame (4268), the rack (4268) is in meshed connection with the gear rod frame (4267).

5. The geological information data acquisition device for preventing and reducing disaster according to claim 4, wherein: the nail fixing mechanism (43) comprises a fixed support (431), a mounting ring seat (432), a guide shaft lever (433), a nail shooting mechanism (434), a spring E (435), a limiting rod frame (436) and a limiting seat (437), wherein the fixed support (431) is fastened on the outer side wall of the fixed main frame (41), the mounting ring seat (432) is fastened on the outer surface of the fixed support (431) through symmetrical bolts, the guide shaft lever (433) is connected to the inner wall of the mounting ring seat (432) in a sliding mode, the nail shooting mechanism (434) is installed between the two groups of guide shaft levers (433), the spring E (435) is sleeved on the outer side of the guide shaft lever (433) and located between the nail shooting mechanism (434) and the mounting ring seat (432), the limiting rod frame (436) is fastened on the outer surface of the nail shooting mechanism (434), and the limiting seat (437) is fastened on the outer side wall of the fixed main frame (41) and corresponds to the position of the limiting rod frame (436), and the limiting rod frame (436) is clamped and fixed on the inner wall of the limiting seat (437).

6. The geological information data acquisition device for preventing and reducing disaster according to claim 5, wherein: the nail shooting mechanism (434) comprises a frame body (4341), a support ring seat (4342), a pedal sleeve A (4343), a spring F (4344), a firing pin (4345), a pedal sleeve B (4346), a spring G (4347) and a nail shooting guide sleeve seat (4348), wherein the frame body (4341) is arranged between two groups of guide shafts (433), the support ring seat (4342) is arranged on the inner wall of the frame body (4341), the pedal sleeve A (4343) is slidably connected on the inner wall of the support ring seat (4342), the spring F (4344) is sleeved on the outer side of the pedal sleeve A (4343) and is positioned between the pedal sleeve A (4343) and the support ring seat (4342), the firing pin (4345) is arranged at the bottom of the pedal sleeve A (4343), the pedal sleeve B (4346) is positioned on one side of the support ring seat (4342) and is sleeved on the outer side of the pedal sleeve A (4343), the spring G (4347) is sleeved on the outer side of the pedal sleeve B (4346) and is positioned on the outer side of the pedal sleeve B (4346), and penetrates through the outer side of the pedal sleeve (4346) and penetrates through the outer side of the support ring seat (4348) and penetrates through the outer side of the support ring seat (4342).