CN211318778U - Data transmission device based on wireless seismograph - Google Patents

Abstract

The utility model discloses a data transmission device based on wireless seismograph, which comprises a protective cover, the bottom of the protective cover is provided with symmetrically arranged holding grooves near the edge position, two ends of the inner wall of the holding grooves are hinged with positioning cones, the positioning cones are inserted into the ground, pins are inserted on the positioning cones and are inserted into the inner walls of the holding grooves for fixation, the lower parts of the left and right sides of the protective cover are provided with placing clamping grooves, the bottom of the placing clamping grooves is hinged with a positioning plate, the holding grooves are arranged near the edge at the bottom of the protective cover, the positioning cones are convenient to be accommodated in the holding grooves, the pins are inserted on the positioning cones, the positions of the positioning cones can be limited and fixed through the pins, the placing clamping grooves are arranged at the bottom of the left and right walls of the protective cover, the positioning plate is convenient to be accommodated in the placing clamping grooves, the bottom of the positioning plate is provided with, the positioning plate is convenient to be better limited on the ground.

Description

Data transmission device based on wireless seismograph

Technical Field

The utility model belongs to the technical field of seismograph transmission device, specifically be a data transmission device based on wireless seismograph.

Background

Earthquake is also called earthquake and earth vibration, and is a natural phenomenon that the earth crust can generate earthquake waves during the vibration caused in the process of quickly releasing energy. The mutual extrusion and collision between the plates on the earth cause the dislocation and the fracture of the plate edges and the plate interiors, which is the main reason of the earthquake.

The location where the earthquake begins to occur is called the source, and the ground directly above the source is called the epicenter. The most severe ground vibration of a destructive earthquake is called the very seismic region, which is often the area where the epicenter is located. The earthquake often causes serious casualties, can cause fire, flood, toxic gas leakage, bacterial and radioactive substance diffusion, and can also cause secondary disasters such as tsunami, landslide, collapse, ground cracks and the like.

The seismograph is for better monitoring earthquake's emergence, current seismograph transmission device directly places subaerial usually, because the influence of external factors, seismograph transmission device receives the damage very easily, the single of structure is placed to seismograph transmission device simultaneously, lead to seismograph transmission device to produce very easily and empty, can't monitor the base, consequently need improve seismograph transmission device's the structure of placing, be convenient for to the better protection of seismograph transmission device, a data transmission device based on wireless seismograph is proposed simultaneously, be convenient for better solve the above-mentioned problem of proposing.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a: in order to solve the problems proposed above, a data transmission device based on a wireless seismograph is provided.

The utility model adopts the technical scheme as follows:

the utility model provides a data transmission device based on wireless seismograph, includes the lag, the bottom of lag is close to the groove of accomodating that border position offered the symmetry setting, the inner wall both ends in accomodating the groove articulate there is the location awl, and during the location awl pegs graft to ground, it has the pin to peg graft on the location awl, and the pin pegs graft and fix on the inner wall in accomodating the groove, lag left and right sides below has been seted up and has been placed the draw-in groove, the bottom of placing the draw-in groove articulates there is the locating plate, the last fixed surface of locating plate installs the internal thread cover, anti-skidding tooth has been seted up to the lower surface of locating plate, and anti.

In a preferred embodiment, the protective sleeve is provided with a left wall and a right wall, the left wall and the right wall are provided with a plurality of fixing plates, the fixing plates are symmetrically arranged on the left wall and the right wall, the fixing plates are in threaded connection with positioning screws, and the bottom ends of the positioning screws are in threaded connection with the inner thread sleeve.

In a preferred embodiment, a seismograph transmission device is inserted into the protective sleeve, an induction rod fixedly mounted at the bottom of the seismograph transmission device penetrates through the center of the bottom of the protective sleeve and is attached to the ground, and a protective cap is sleeved at the top of the protective sleeve.

In a preferred embodiment, a positioning rod is fixedly installed at the center of the bottom of the protective cap, a pressing disc is fixedly installed at the bottom end of the positioning rod, and the pressing disc is pressed on the top of the seismograph transmission device.

In a preferred embodiment, the two sides of the top of the helmet are fixedly provided with symmetrically distributed limiting plates, the middle of each limiting plate is movably inserted with a limiting rod, the top of the protective sleeve is provided with a limiting hole relative to the limiting rod, and the limiting rods are inserted into the limiting holes.

In a preferred embodiment, a pull disc is fixedly installed at one end, away from the protective sleeve, of the limiting rod, a spring sleeve is sleeved on the limiting rod, one end of the spring sleeve is fixedly connected to the limiting plate, and the other end of the spring sleeve is fixedly connected to the pull disc.

To sum up, owing to adopted above-mentioned technical scheme, the beneficial effects of the utility model are that: better protecting seismograph transmission device of being convenient for seismograph transmission device is difficult for receiving the damage and can carry out spacing fixed to seismograph transmission device simultaneously, increases the stability of seismograph transmission device installation, and the seismograph transmission device seismic monitoring of being convenient for is more accurate.

1. The utility model discloses in, it has seted up the groove of accomodating to be close to the edge through the bottom at the lag, the positioning cone of being convenient for is accomodate in the groove of accomodating, it has the pin to peg graft on the positioning cone, it can carry out spacing fixed with the position of positioning cone through the pin to be convenient for, placed the draw-in groove has been seted up to the wall bottom about the lag, the locating plate of being convenient for is accomodate and is placed the draw-in groove, anti-skidding tooth has been seted up in the bottom of locating plate, be convenient for with the better spacing of locating plate subaerial, last fixed surface installs the interior thread bush at the locating plate, be convenient for interior thread bush and fixed plate cooperation.

2. In the utility model, the seismograph transmission device is inserted in the protective sleeve, the seismograph transmission device is convenient to limit and fix, the protective cap is placed at the top of the protective sleeve, the seismograph transmission device is convenient to protect, the seismograph transmission device is not easy to be corroded by rainwater, the bottom center of the protective cap is limited and connected with the extrusion disc through the positioning rod, the seismograph transmission device is convenient to limit and fix, the placing stability of the seismograph transmission device is improved, the limiting rod is movably inserted on the limiting plate, the limiting rod is convenient to move left and right on the limiting plate, the limiting rod is inserted in the limiting hole arranged at the top of the protective sleeve relative to the limiting rod, the protective cap is convenient to limit at the top of the protective sleeve, the spring sleeve is sleeved on the limiting rod, the limiting rod can be inserted in the limiting hole better under the action of the spring sleeve, the stability that the helmet was placed is increased, guarantees simultaneously that the better pressfitting of extrusion dish is on seismograph transmission device.

Drawings

Fig. 1 is a schematic view of a first structure of the present invention;

fig. 2 is a second schematic structural view of the present invention;

FIG. 3 is a left side view of the structure of the present invention;

fig. 4 is a sectional view of the structure of the protective cover and the protective cap of the present invention.

The labels in the figure are: 1-a protective sleeve, 2-a containing groove, 3-a positioning cone, 4-a pin, 5-a placing clamping groove, 6-a positioning plate, 7-an internal thread sleeve, 8-an anti-skidding tooth, 9-a fixing plate, 10-a positioning screw, 11-a seismograph transmission device, 12-an induction rod, 13-a protective cap, 14-a positioning rod, 15-an extrusion disc, 16-a limiting plate, 17-a limiting rod, 18-a pull disc and 19-a spring sleeve.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

Referring to fig. 1-4, a data transmission device based on a wireless seismograph comprises a protective sleeve 1, wherein symmetrically arranged accommodating grooves 2 are formed at the bottom of the protective sleeve 1 close to the edge position, positioning cones 3 are convenient to be accommodated in the accommodating grooves 2, two ends of the inner wall of the accommodating grooves 2 are hinged with the positioning cones 3, the positioning cones 3 are inserted into the ground, pins 4 are inserted into the positioning cones 3, the pins 4 are inserted into the inner walls of the accommodating grooves 2 for fixing, the positions of the positioning cones 3 can be limited and fixed through the pins 4, placing clamping grooves 5 are formed below the left side and the right side of the protective sleeve 1, the positioning plates 6 are convenient to be accommodated in the placing clamping grooves 5, positioning plates 6 are hinged to the bottoms of the placing clamping grooves 5, an internal thread sleeve 7 is fixedly installed on the upper surface of the positioning plates 6, the internal thread sleeve 7 is convenient to be matched with a fixing plate 9, and the positions of, increase the stability of placing of locating plate 6, anti-skidding tooth 8 has been seted up to the lower surface of locating plate 6, and anti-skidding tooth 8 laminates with ground mutually, is convenient for with the better spacing of locating plate 6 subaerial.

Referring to fig. 1-4, the middle positions of the left and right walls of the protective sleeve 1 are fixedly provided with symmetrically distributed fixing plates 9, the fixing plates 9 are in threaded connection with positioning screws 10, the bottom ends of the positioning screws 10 are in threaded connection with the internal thread sleeve 7, the protective sleeve 1 is internally inserted with a seismometer transmission device 11 so as to limit and fix the seismometer transmission device 11, an induction rod 12 fixedly arranged at the bottom of the seismometer transmission device 11 penetrates through the central position of the bottom of the protective sleeve 1 and is attached to the ground, the top of the protective sleeve 1 is sleeved with a protective cap 13 so as to protect the seismometer transmission device 11, so that the seismometer transmission device 11 is not easily corroded by rainwater, the central position of the bottom of the protective cap 13 is fixedly provided with a positioning rod 14, the bottom end of the positioning rod 14 is fixedly provided with an extrusion disc 15, and the extrusion disc, be convenient for carry on spacing fixedly to seismograph transmission device 11, increase the stability that seismograph transmission device 11 placed.

Referring to fig. 1-4, both sides of the top of the helmet 13 are fixedly provided with limiting plates 16 which are symmetrically distributed, the middle part of the limiting plate 16 is movably inserted with a limiting rod 17, so that the limiting rod 17 can move left and right on the limiting plate 16, meanwhile, the limiting rod 17 is inserted in a limiting hole which is formed in the top of the protective sleeve 1 and is opposite to the limiting rod 17, so that the protective cap 13 can be better limited on the top of the protective sleeve 1, the top of the protective sleeve 1 is provided with a limiting hole which is opposite to the limiting rod 17, the limiting rod 17 is inserted in the limiting hole, one end of the limiting rod 17 far away from the protective sleeve 1 is fixedly provided with a pull disc 18, the limiting rod 17 is sleeved with a spring sleeve 19, so that the limiting rod 17 can be better inserted in the limiting hole under the action of the spring sleeve 19, the placing stability of the protective cap 13 is increased, and simultaneously, the extrusion disc 15 is better pressed on the seismic detector transmission device 11, and the other end of the spring sleeve 19 is fixedly connected to the pull disc 18.

The working principle is as follows:

in this application, when installing seismograph transmission device 11, take off pin 4 on the awl 3 of will fixing a position, can rotate the awl 3 of fixing a position for the awl 3 of fixing a position is placed with ground is perpendicular, through pressing down fixed plate 9, can insert the awl 3 of fixing a position in ground, lag 1 laminates with ground simultaneously, overturns locating plate 6 to the lateral surface of lag 1, makes locating plate 6 laminate subaerial, and antiskid tooth 8 laminates subaerial this moment.

In this application, through rotating fixed plate 9, make in fixed plate 9 threaded connection to the internal thread cover 7, can be subaerial with locating plate 6 level spacing, peg graft protection cover 1 with seismograph transmission device 11, 18 outside pulling of drawing a set, cup joint helmet 13 at the top of protection cover 1, 15 pressfittings of extrusion disc are on seismograph transmission device 11 this moment, some spacing holes of warrior gag lever post 17 and protection cover 1 top are seted up and are placed relatively, loosen drawing a set 18 this moment, under the effect of spring housing 19, can peg graft gag lever post 17 in the spacing hole, better with helmet 13 spacing on protection cover 1.

The above description is only exemplary of the present invention and should not be taken as limiting the scope of the present invention, as any modifications, equivalents, improvements and the like made within the spirit and principles of the present invention are intended to be included within the scope of the present invention.

Claims (6)

1. A data transmission device based on wireless seismographs comprises a protective sleeve (1) and is characterized in that: the utility model discloses a storage device for a motor vehicle, including lag (1), lag (2), pin (4), locating cone (3), locating cone (6), locating plate (6), anti-skidding tooth (8) have been seted up to the lower surface of locating plate (6), and anti-skidding tooth (8) laminate mutually with ground, the inner wall both ends of accomodating groove (2) articulate to have locating cone (3), and locating cone (3) are pegged graft in ground, it has pin (4) to peg graft on locating cone (3), and pin (4) peg graft and fix on the inner wall of accomodating groove (2), lag (1) left and right sides below has been seted up and has been placed draw-in groove (5), the bottom of placing draw-in groove (5) articulates there is locating plate (6), the last.

2. A wireless seismograph-based data transmission apparatus as claimed in claim 1, wherein: the protection sleeve is characterized in that symmetrically distributed fixing plates (9) are fixedly mounted in the middle of the left wall and the right wall of the protection sleeve (1), the fixing plates (9) are connected with positioning screws (10) in a threaded mode, and the bottom ends of the positioning screws (10) are connected into the internal thread sleeve (7) in a threaded mode.

3. A wireless seismograph-based data transmission apparatus as claimed in claim 1, wherein: the inside of lag (1) is pegged graft and is had seismograph transmission device (11), seismograph transmission device (11) bottom fixed mounting's response pole (12) run through the bottom central point of lag (1) and put and laminate mutually with ground, protective cap (13) have been cup jointed at the top of lag (1).

4. A wireless seismograph-based data transmission apparatus as claimed in claim 3, wherein: the bottom center position of helmet (13) is fixed with locating lever (14), the bottom fixed mounting of locating lever (14) has extrusion dish (15), and extrusion dish (15) pressfitting is at the top of seismograph transmission device (11).

5. A wireless seismograph-based data transmission apparatus as claimed in claim 3, wherein: limiting plates (16) which are symmetrically distributed are fixedly mounted on two sides of the top of the protective cap (13), limiting rods (17) are movably inserted in the middle of the limiting plates (16), limiting holes are formed in the positions, opposite to the limiting rods (17), of the top of the protective sleeve (1), and the limiting rods (17) are inserted in the limiting holes.

6. A wireless seismograph-based data transmission apparatus as claimed in claim 5, wherein: the pull disc (18) is fixedly mounted at one end, far away from the protective sleeve (1), of the limiting rod (17), the spring sleeve (19) is sleeved on the limiting rod (17), one end of the spring sleeve (19) is fixedly connected to the limiting plate (16), and the other end of the spring sleeve (19) is fixedly connected to the pull disc (18).

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