CN219757378U - Geological disaster monitoring pile - Google Patents

Abstract

The utility model provides a geological disaster monitoring pile, which relates to the technical field of geological disaster monitoring and comprises an insertion cone and a plug, wherein the insertion cone comprises an insertion cone body, a ground breaking cone is fixedly arranged at the bottom of the insertion cone body, a plurality of ground penetrating through holes are formed in the side face of the insertion cone body, four ground penetrating holes are penetrated in the insertion cone body, the ground penetrating holes comprise ground penetrating plates, the bottom of each ground penetrating plate is in sliding connection with the bottom of the inner side of the insertion cone body, a plurality of ground penetrating vertebral bodies are fixedly arranged on one side of each ground penetrating plate, an inclined plane is formed on the other side of each ground penetrating plate, each ground penetrating vertebral body penetrates through each ground penetrating through hole, the plug comprises a plug body, and four plug bars are fixedly arranged on the side face of the plug body and are in sliding connection with each ground penetrating plate. The utility model can effectively reduce the occupied volume in the transportation process of the device, is convenient for transportation, has corrosion resistance, prolongs the service life of the device and has higher practical value.

Description

Geological disaster monitoring pile

Technical Field

The utility model belongs to the technical field of geological disaster monitoring, and particularly relates to a geological disaster monitoring pile.

Background

The geological disasters in China are complex and various, the disasters are frequent, the types of the disasters mainly comprise collapse, landslide, debris flow, ground subsidence, ground cracks and the like, and a large number of landslide disaster monomers or chain disasters frequently occur each year under the influence of external factors (such as precipitation, earthquake, human engineering activities and the like) so as to bring great threat to the life and property safety of human beings. Therefore, establishing the intelligent monitoring network for the geological disasters is a necessary measure and an effective measure for preventing the geological disasters from being destroyed.

The utility model patent with publication number of CN217541853U discloses a monitoring pile for geological disasters in 2022, 10 and 04 days.

Including the clamp plate, four ground piles are installed to the bottom of clamp plate, and a connecting rod has been inserted to the inside of four ground piles, and four connecting pieces are all installed in the bottom of every all rotation, install the counter plate on the connecting piece, the top welding of four connecting rods installs the grid net, install the monitor in the grid net.

According to the technical scheme, the ground piles are arranged at the bottom end of the pressing plate, the ground piles below the pressing plate are all driven into the ground, then the upper grid mesh and the monitoring instrument in the grid mesh are lifted upwards, the reverse pushing plate on the ground piles can be inserted into the soil around the ground piles in the mode of barbs, the whole device can be firmly installed at a given point position, the problem that the device is likely to loose due to erosion of external wind and rain is greatly reduced, guarantee is provided for long-term stable operation of the monitoring piles, and accuracy of geological disaster monitoring results is guaranteed.

However, the technical scheme recorded in the scheme has large transportation volume, is inconvenient to transport, and is generally inconvenient to carry objects with large volume at the position where the geological disaster monitoring column is arranged.

Accordingly, in view of the above, research and improvement are made on the existing structure and the existing defects, and a geological disaster monitoring pile is provided so as to achieve the purpose of having higher practical value.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a geological disaster monitoring pile.

The utility model discloses a geological disaster monitoring pile, which is characterized by comprising the following specific technical means:

the utility model provides a geological disaster monitoring stake, includes insertion cone and plug, insertion cone includes insertion cone body, insertion cone body bottom fixed mounting has the earth breaking cone, a plurality of ground thorn through-holes have been seted up to insertion cone body side, the inside interlude of insertion cone body is equipped with four ground thorns, ground thorn includes ground thorn board, ground thorn board bottom and the inboard bottom sliding connection of insertion cone body, ground thorn board one side fixed mounting has a plurality of ground thorn centrum, just the inclined plane has been seted up to ground thorn board opposite side, ground thorn centrum passes the ground thorn through-hole, the plug includes the plug body, four plugs of plug body side fixed mounting, plug and ground thorn board sliding connection.

Adopt the beneficial effect of above-mentioned further scheme, through the setting of inserting the awl body, the volume that is convenient for make the device transportation in-process occupy is less relatively, be convenient for transport, through the setting of breaking the awl, be convenient for insert the awl body in earth, through the setting of thorn through-hole in the earth, the thorn cone of being convenient for passes and inserts in the awl body transversely inserts earth, thereby fix the device subaerial firmly, avoid the device because long-time setting leads to becoming flexible and slope, through the setting of thorn board, be convenient for fixed mounting thorn cone in the earth, thorn board bottom and insert the inboard bottom sliding connection of awl body, through thorn board bottom and insert the inboard bottom sliding connection of awl body in the earth, the thorn cone of being convenient for inserts from the thorn through-hole in the earth when inserting the cock, be convenient for thorn cone of ground and transversely insert in earth through cock bar and thorn board sliding connection, when being convenient for inserting the plunger in the insertion cone body, the thorn cone of pushing ground makes the thorn body pass through the earth and transversely insert earth in earth and fix.

Further, the insertion cone and the ground thorns are made of 316 stainless steel, and the surfaces of the insertion cone and the ground thorns are coated with anti-corrosion coatings.

The beneficial effect of adopting above-mentioned further scheme is, through inserting awl and ground thorn and be 316 stainless steel material, makes the device have corrosion resistance, increases the life of device, through inserting awl and ground thorn surface coating corrosion resistant coating, further increase the corrosion resistance of device, make the device bury the part of burying at earth difficult quilt corroded.

Further, first bolt hole has been seted up at insertion cone body top, insertion cone body top is equipped with the erection column, the erection column includes the erection column body, erection column body bottom fixed mounting has the connecting seat, the connecting seat cover is established in insertion cone body top outside, the second bolt hole has been seted up to the connecting seat side, second bolt hole and first bolt hole position coincidence, just second bolt hole and the inside interlude of first bolt hole are equipped with the bolt.

The beneficial effect of adopting above-mentioned further scheme is, is equipped with the bolt through inside interlude of second bolt hole and first bolt hole, makes bolt with connecting seat and the fixed connection of inserting the awl body to carry out fixed connection with the erection column with inserting the awl.

Further, the collection mechanism is fixedly arranged at the top of the mounting column body and comprises a receiver, the bottom of the receiver is fixedly connected with the top of the mounting column body, and the rain gauge is fixedly arranged at the top of the receiver.

The beneficial effect of adopting above-mentioned further scheme is, through the setting of collection mechanism, the relevant geological information near the collection device of being convenient for, through the setting of receiver, make the device can carry out gnss accurate positioning, obtain accurate gnss positioning data and carry out displacement monitoring to the position that the device set up, through the setting of rain gauge, the rainfall condition of the position that the monitoring device is located of being convenient for.

Further, the monitoring mechanism is sleeved outside the middle of the mounting column body and comprises a connecting sleeve, the connecting sleeve is sleeved outside the mounting column body, and a mounting bracket is fixedly mounted on one side of the connecting sleeve.

The beneficial effect of adopting above-mentioned further scheme is, through the setting of adapter sleeve, is convenient for with monitoring facilities fixed mounting on the erection column body, through the setting of installing support, is convenient for fixed mounting monitoring case and photovoltaic solar panel.

Further, one end of the mounting bracket is fixedly connected with a photovoltaic solar panel.

The solar energy conversion device has the beneficial effects that through the arrangement of the photovoltaic solar panel, solar energy is conveniently converted into electric energy, and power is supplied to the device.

Further, the monitoring box is fixedly installed at the top of the installing support, and a storage battery, an inverter, a wireless gateway and an information processor are arranged in the monitoring box.

Adopt the beneficial effect of above-mentioned further scheme, through the setting of monitoring case, be convenient for protect for inside battery, dc-to-ac converter, wireless gateway and the information processor of monitoring case, through the setting of battery and dc-to-ac converter, be convenient for turn solar energy into electric energy and store, supply power for the device, through the setting of wireless gateway and information processor, be convenient for handle and transmit the geological information that collection mechanism gathered, make the user can long-range obtain relevant data and device state.

Compared with the prior art, the utility model has the following beneficial effects:

1. according to the geological disaster monitoring pile, the occupied volume in the transportation process of the device is relatively small through the arrangement of the insertion cone body, the transportation is convenient, the insertion cone body is convenient to insert into soil through the arrangement of the ground piercing through hole, the ground piercing cone body is convenient to transversely insert into the soil through the arrangement of the ground piercing through hole, the device is stably fixed on the ground, loosening and inclination caused by long-time arrangement of the device are avoided, the ground piercing plate is convenient to fixedly mount the ground piercing cone body, the bottom of the ground piercing plate is in sliding connection with the bottom of the inner side of the insertion cone body, the ground piercing cone body is convenient to pierce out of the ground piercing through hole when the plug is plugged into the plug, the ground piercing cone body is convenient to transversely insert into the soil through the ground piercing through hole through the arrangement of the ground piercing cone body, and the plug is convenient to fixedly insert into the cone body through the sliding connection with the ground piercing plate through the plug, and the ground piercing plug is convenient to push the ground piercing cone body to transversely insert into the soil through the ground piercing through hole when the plug is plugged into the insertion cone body;

2. according to the geological disaster monitoring pile, through the arrangement of the storage battery and the inverter, solar energy is conveniently converted into electric energy and stored, power is supplied to a device, and through the arrangement of the wireless gateway and the information processor, geological information acquired by the acquisition mechanism is conveniently processed and transmitted, so that a user can remotely acquire related data and device states; the utility model can effectively reduce the occupied volume in the transportation process of the device, is convenient for transportation, has corrosion resistance, prolongs the service life of the device and has higher practical value.

Drawings

FIG. 1 is a first perspective view of a geological disaster monitoring stake according to the present utility model;

FIG. 2 is a second perspective view of a geological disaster monitoring stake according to the present utility model;

FIG. 3 is a partial exploded view of a geological disaster monitoring stake according to the present utility model;

FIG. 4 is a cut-away view of the state of the insertion cone transportation device of the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

101. an insertion cone; 10101. an insertion cone body; 10102. puncturing the through hole; 10103. a first bolt hole; 10104. a broken earth cone; 102. performing ground needling; 10201. a ground needling plate; 10202. puncturing the vertebral body; 103. a plug; 10301. a plug body; 10302. a stopper; 104. a mounting column; 10401. a mounting post body; 10402. a connecting seat; 10403. a second bolt hole; 10404. a bolt; 105. a collection mechanism; 10501. a receiver; 10502. a rain gauge; 106. a monitoring mechanism; 10601. connecting sleeves; 10602. a mounting bracket; 10603. a photovoltaic solar panel; 10604. and a monitoring box.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

Examples:

as shown in fig. 1 to 4:

the utility model provides a geological disaster monitoring pile, which comprises an insertion cone 101 and a plug 103, wherein the insertion cone 101 comprises an insertion cone body 10101, the arrangement of the insertion cone body 10101 is convenient for ensuring that the occupied volume in the transportation process of a device is relatively smaller, the transportation is convenient, the bottom of the insertion cone body 10101 is fixedly provided with a ground breaking cone 10104, the insertion cone body 10101 is conveniently inserted into soil through the arrangement of the ground breaking cone 10104, a plurality of ground penetrating holes 10102 are formed on the side surface of the insertion cone body 10101, the ground penetrating cone body 10202 is conveniently inserted into the soil transversely through the arrangement of the ground penetrating holes 10102, thereby firmly fixing the device on the ground, avoiding the loosening and tilting of the device due to the long-time arrangement of the insertion cone body 10101, the ground penetrating plate 10201 is internally penetrated with four ground penetrating holes 102, the ground penetrating plate 10201 is arranged through the arrangement of the ground penetrating plate 10201, the fixed installation of the ground thorn cone 10202 is convenient, the bottom of the ground thorn plate 10201 is in sliding connection with the inner side bottom of the insertion cone body 10101, the ground thorn cone 10202 is convenient to penetrate out of the ground thorn through hole 10102 when the plug 103 is plugged in through the sliding connection of the bottom of the ground thorn plate 10201 and the inner side bottom of the insertion cone body 10101, a plurality of ground thorn cones 10202 are fixedly installed on one side of the ground thorn plate 10201, the ground thorn cone 10202 is convenient to penetrate through the ground thorn through hole 10102 to be transversely inserted into soil for fixing through the arrangement of the ground thorn cone 10202, an inclined plane is arranged on the other side of the ground thorn plate 10201, the ground thorn cone 10202 penetrates through the ground thorn through hole 10102, the plug 103 comprises a plug body 10301, four plugs 10302 are fixedly installed on the side face of the plug body 10301, the plugs 10302 are in sliding connection with the ground thorn plate 10201, when the plug 103 is plugged in the insertion cone body 10101 through the sliding connection of the plugs 10302 and the ground thorn plate 10201, pushing the ground thorn 102 makes the ground thorn vertebral body 10202 laterally inserted into the earth through the ground thorn through hole 10102 for fixation.

The insertion cone 101 and the ground thorn 102 are made of 316 stainless steel, so that the device has corrosion resistance, the service life of the device is prolonged, the surfaces of the insertion cone 101 and the ground thorn 102 are coated with corrosion-resistant coatings, and the surfaces of the insertion cone 101 and the ground thorn 102 are coated with corrosion-resistant coatings, so that the corrosion resistance of the device is further increased, and the part of the device buried in soil is not easy to corrode.

Wherein, first bolt hole 10103 has been seted up at insertion cone body 10101 top, insertion cone body 10101 top is equipped with erection column 104, erection column 104 includes erection column body 10401, erection column body 10401 bottom fixed mounting has connecting seat 10402, connecting seat 10402 cover is established in insertion cone body 10101 top outside, second bolt hole 10403 has been seted up to connecting seat 10402 side, second bolt hole 10403 and first bolt hole 10103 coincide in position, and second bolt hole 10403 and first bolt hole 10103 inside are interlude and are equipped with bolt 10404, be equipped with bolt 10404 through second bolt hole 10403 and first bolt hole 10103 inside interlude, make bolt 10404 with connecting seat 10402 and insertion cone body 10101 fixed connection, thereby carry out fixed connection with installation column 104 and insertion cone 101.

Wherein, erection column body 10401 top fixed mounting has collection system 105, through collection system 105's setting, be convenient for collect the near relevant geological information of device, collection system 105 includes receiver 10501, through receiver 10501's setting, make the device can carry out gnss accurate positioning, obtain accurate gnss positioning data and carry out displacement monitoring to the position that the device set up, receiver 10501 bottom and erection column body 10401 top fixed connection, receiver 10501 top fixed mounting has the rain gauge 10502, through the setting of rain gauge 10502, the rainfall condition of the position that the monitoring devices place of being convenient for.

Wherein, the outside cover in middle part of erection column body 10401 is equipped with monitoring mechanism 106, and monitoring mechanism 106 includes adapter sleeve 10601, through the setting of adapter sleeve 10601, is convenient for with monitoring mechanism 106 fixed mounting on erection column body 10401, and adapter sleeve 10601 cover is established in the erection column body 10401 outside, and adapter sleeve 10601 one side fixed mounting has installing support 10602, through the setting of installing support 10602, the fixed mounting monitoring case 10604 of being convenient for and photovoltaic solar panel 10603.

Wherein, mounting frame 10602 one end fixedly connected with photovoltaic solar panel 10603, through the setting of photovoltaic solar panel 10603, be convenient for turn into the electric energy with solar energy, supply power for the device.

Wherein, installing support 10602 top fixed mounting monitoring case 10604, through the setting of monitoring case 10604, be convenient for protect for the inside battery of monitoring case 10604, the dc-to-ac converter, wireless gateway and information processor, the inside battery that is equipped with of monitoring case 10604, the dc-to-ac converter, wireless gateway and information processor, through the setting of battery and dc-to-ac converter, be convenient for turn solar energy into electric energy and store, supply power for the device, through the setting of wireless gateway and information processor, be convenient for handle and transmit the geological information that acquisition mechanism 105 gathered, make the user can long-range obtain relevant data and device state.

Specific use and action of the embodiment:

when the product is used, firstly, the device is moved to a designated installation position, the insertion cone body 10101 is inserted into the ground by using a tool, the insertion cone body 10101 is conveniently inserted into the ground by the arrangement of the ground breaking cone 10104, then the plug 103 is plugged into the insertion cone body 10101, the plug 10302 is in sliding connection with the ground piercing plate 10201, when the plug 103 is conveniently plugged into the insertion cone body 10101, the ground piercing cone body 10202 is pushed to transversely insert into soil by the ground piercing 102 for fixation, so that the device is not easy to loosen and displace for a long time, the connecting sleeve 10601 is sleeved outside the installation cone body 10401, the monitoring mechanism 106 is fixedly arranged on the installation cone body 10401, the connecting seat 10402 is sleeved at the top of the insertion cone body 10101, the bolt 10404 passes through the first bolt hole 10103 and the second bolt hole 10403, the installation cone 104 is fixedly connected with the insertion cone 101, solar energy is converted into electric energy and stored by the arrangement of the photovoltaic solar panel 10603, the device is powered by a wireless gateway and an information processor, and the device is convenient to acquire and the geological data of a user and can be remotely processed.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. A geological disaster monitoring stake which characterized in that: including inserting awl (101) and plug (103), insert awl (101) including inserting awl body (10101), insert awl body (10101) bottom fixed mounting and have broken awl (10104), a plurality of ground thorn through-hole (10102) have been seted up to insert awl body (10101) side, insert inside interlude of awl body (10101) and be equipped with four ground thorn (102), ground thorn (102) include ground thorn board (10201), ground thorn board (10201) bottom and the inboard bottom sliding connection of inserting awl body (10101), ground thorn board (10201) one side fixed mounting has a plurality of ground thorn cone (10202), just the inclined plane has been seted up to ground thorn board (10201) opposite side, ground thorn cone (10202) pass ground thorn through-hole (10102), plug (103) include plug body (10301), four plug strip (10302) are fixed mounting to plug body (10302) side, plug strip (10302) and ground thorn board (10201) sliding connection.

2. A geological disaster monitoring stake as claimed in claim 1, wherein: the insertion cone (101) and the ground thorn (102) are made of 316 stainless steel, and the surfaces of the insertion cone (101) and the ground thorn (102) are coated with anti-corrosion coatings.

3. A geological disaster monitoring stake as claimed in claim 1, wherein: first bolt hole (10103) have been seted up at insertion cone body (10101) top, insertion cone body (10101) top is equipped with erection column (104), erection column (104) are including erection column body (10401), erection column body (10401) bottom fixed mounting has connecting seat (10402), connecting seat (10402) cover is established in insertion cone body (10101) top outside, second bolt hole (10403) have been seted up to connecting seat (10402) side, second bolt hole (10403) and first bolt hole (10103) coincide in position, just second bolt hole (10403) and inside interlude of first bolt hole (10103) are equipped with bolt (10404).

4. A geological disaster monitoring stake as claimed in claim 3, wherein: the rain gauge comprises a mounting column body (10401), wherein a collection mechanism (105) is fixedly installed at the top of the mounting column body (10401), the collection mechanism (105) comprises a receiver (10501), the bottom of the receiver (10501) is fixedly connected with the top of the mounting column body (10401), and a rain gauge (10502) is fixedly installed at the top of the receiver (10501).

5. A geological disaster monitoring stake as claimed in claim 4, wherein: the monitoring mechanism (106) is sleeved outside the middle of the mounting column body (10401), the monitoring mechanism (106) comprises a connecting sleeve (10601), the connecting sleeve (10601) is sleeved outside the mounting column body (10401), and a mounting bracket (10602) is fixedly arranged on one side of the connecting sleeve (10601).

6. A geological disaster monitoring stake as claimed in claim 5, wherein: one end of the mounting bracket (10602) is fixedly connected with a photovoltaic solar panel (10603).

7. A geological disaster monitoring stake as claimed in claim 6, wherein: the top of the mounting bracket (10602) is fixedly provided with a monitoring box (10604), and a storage battery, an inverter, a wireless gateway and an information processor are arranged in the monitoring box (10604).