CN219536492U - GNSS monitoring equipment box with layering collection and anti-theft function - Google Patents

Abstract

A GNSS monitoring equipment box which is assembled in a layered manner and has an anti-theft function comprises an equipment box; the structure is as follows: one side of the box body of the equipment box is movably hinged with one side of the box door, and a magnetic anti-theft lock is fixedly arranged on the other side of the box door; the device comprises a device box, a power supply voltage stabilizer, a communication module and a GNSS host, wherein electric wire buckles are arranged on two sides of the interior of the device box, a partition plate is fixedly arranged in the middle of the device box, the power supply voltage stabilizer, the communication module and the GNSS host are arranged on the partition plate side by side, a mounting net is fixedly arranged on a rear panel of the interior of the device box and above the partition plate, and a wireless router and a solar controller are fixedly connected to the mounting net; a storage battery is arranged on a lower bottom plate in the equipment box; an antenna mounting groove is formed in the upper portion of the outer surface of the equipment box body, the lower end of the antenna is of a cone structure, and the lower end of the antenna is fixedly clamped with the antenna mounting groove. The double-magnetic anti-theft lock has the advantages that the equipment box is simple in structure and easy to manufacture, the double-magnetic anti-theft lock can play a good role in anti-theft and protection, investment is small, economy and practicability are realized, safety of equipment is guaranteed, and economic benefits are generated.

Description

GNSS monitoring equipment box with layering collection and anti-theft function

Technical Field

The utility model relates to the technical field of integration and safety anti-theft of highway, railway, water conservancy and hydropower GNSS automatic monitoring equipment, in particular to a GNSS monitoring equipment box which is assembled in a layered mode and has an anti-theft function.

Background

At present, on the aspect of large-scale and rapid national economic construction, the construction progress is continuously improved, and in the construction of a large number of municipal, highway, railway, water conservancy and hydropower engineering, GNSS automatic monitoring equipment is always required to be established at a large number of parts; because of various kinds of GNSS monitoring equipment, the GNSS monitoring equipment needs to be integrated (installed or placed) in a GNSS monitoring equipment box, and meanwhile, for the convenience of later maintenance, the installation height of the GNSS monitoring equipment box is about 1.5-2 m, so that outsiders can easily touch the GNSS monitoring equipment box; however, most GNSS monitoring devices are expensive, so the anti-theft function of the GNSS monitoring device case is particularly important.

Through market research, the existing GNSS monitoring equipment boxes in the market are single in internal structure, low in safety coefficient and weak in anti-theft function, locks used by the equipment boxes are mainly single locks and open locks, the equipment boxes are easily pried to cause equipment loss or damage, and the GNSS monitoring equipment boxes cannot have good protection effect for the related equipment in the monitoring boxes, which is expensive and needs long-term use; therefore, in order to ensure the safety of the devices in the GNSS monitoring device box, the integration, anti-theft and protection functions of the device box are important; therefore, a safer and more reliable GNSS monitoring equipment box is needed, so that the safety and normal use of the equipment in the box are effectively ensured.

Disclosure of Invention

Aiming at the defects of the prior art, the utility model provides a GNSS monitoring equipment box which is layered and assembled and has an anti-theft function, and the GNSS monitoring equipment box comprises an equipment box; the structure is as follows: one side of the box body of the equipment box is movably hinged with one side of the box door, and a magnetic anti-theft lock is fixedly arranged on the other side of the box door; the device comprises a device box, a power supply voltage stabilizer, a communication module and a GNSS host, wherein electric wire buckles are arranged on two sides of the interior of the device box, a partition plate is fixedly arranged in the middle of the device box, the power supply voltage stabilizer, the communication module and the GNSS host are placed on the partition plate side by side, a mounting net is fixedly arranged on a rear panel of the interior of the device box and above the partition plate, and a wireless router and a solar controller are fixedly connected to the mounting net; a storage battery is arranged on the lower bottom plate in the equipment box; an antenna mounting groove is formed in the upper portion of the outer surface of the box body of the equipment box, the lower end of the antenna is of a cone structure, and the lower end of the antenna is fixedly clamped with the antenna mounting groove.

Further, a through hole is formed in one side of the bottom plate inside the equipment box, and mounting holes A are formed in four corners of the bottom plate inside the equipment box.

Further, the both ends of baffle are equipped with U type threading mouth, the opening of U type threading mouth aligns with the electric wire buckle of top.

Further, four rows of long strip-shaped holes are formed in the mounting net, and each row of long strip-shaped holes is provided with four holes; the four corners of the mounting net are provided with mounting holes B.

Furthermore, two magnetic anti-theft locks are arranged on one side of the box door, the two magnetic anti-theft locks are arranged in an up-down symmetrical mode, and the two magnetic anti-theft locks are respectively provided with a magnetic key.

Further, the storage battery is electrically connected with the wire inlet end of the power supply voltage stabilizer and the wire outlet end of the solar controller respectively; the outlet end of the power supply voltage stabilizer is electrically connected with the communication module, the GNSS host, the wireless router, the antenna and external GNSS monitoring equipment respectively; and the incoming line end of the solar controller is electrically connected with the solar photovoltaic panel.

Further, the communication module is in wired communication connection with the GNSS host; the communication module is in wireless communication connection with the wireless router, the wireless router is in wireless communication connection with the antenna, and the GNSS host is in wireless communication connection with the GNSS monitoring device.

Preferably, the box body and the box door of the equipment box are made of stainless steel materials.

The utility model has the beneficial effects that: the equipment box is simple in structure, easy to manufacture and convenient to assemble, and can play a good role in theft prevention and protection when being arranged at a lower position, and the battery layer, the equipment layer, the wire buckle and the installation net are arranged inside the equipment box, so that the equipment box achieves the effects of tidy and attractive appearance after being installed or placed and electrically connected, is small in investment, economical and practical, ensures the safety of monitoring equipment, improves the protection effect and generates economic benefit.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic view of the interior of the equipment cabinet of the present utility model;

FIG. 3 is a schematic view of a separator of the present utility model;

FIG. 4 is a schematic view of an installation net of the present utility model;

FIG. 5 is an enlarged schematic view of an antenna mounting slot of the present utility model;

FIG. 6 is a schematic diagram of a magnetic anti-theft lock according to the present utility model;

FIG. 7 is a schematic diagram of a magnetic key of the present utility model;

FIG. 8 is a schematic view of the utility model mounted to a pole of a GNSS monitoring device;

FIG. 9 is a schematic diagram of the power supply flow of the present utility model;

fig. 10 is a flow chart of data transmission and processing according to the present utility model.

In the figure: 1. the device comprises a device box, 101, a box door, 102, a wire buckle, 103, a partition plate, 1031, a U-shaped threading opening, 104, a mounting net, 1041, a strip-shaped hole, 1042, mounting holes B,105, an antenna mounting groove, 106, through holes, 107 and a mounting hole A; 2. a storage battery; 3. a power supply voltage stabilizer; 4. a communication module; 5. a GNSS host; 6. magnetic anti-theft lock; 7. a wireless router; 8. a solar controller; 9. an antenna; 10. a magnetic key; 11. a GNSS monitoring device; 12. a solar photovoltaic panel; 13. and a vertical rod of the GNSS monitoring device.

Description of the embodiments

Embodiment 1, as shown in fig. 1-9, a GNSS monitoring equipment box with a layered collection and an anti-theft function, comprising an equipment box 1; one side of the box body of the equipment box 1 is movably hinged with one side of the box door 101, and a magnetic anti-theft lock 6 is fixedly arranged on the other side of the box door 101; the device comprises a device box 1, wherein two sides of the interior of the device box 1 are provided with wire buckles 102, the middle part of the device box is fixedly provided with a partition plate 103, a power supply voltage stabilizer 3, a communication module 4 and a GNSS host 5 are arranged on the partition plate 103 side by side, a rear panel of the interior of the device box 1 is positioned above the partition plate 103, a mounting net 104 is fixedly installed, and a wireless router 7 and a solar controller 8 are fixedly connected to the mounting net 104; a storage battery 2 is arranged on the lower bottom plate in the equipment box 1; an antenna mounting groove 105 is formed above the outer surface of the box body of the equipment box 1, the lower end of the antenna 9 is of a cone structure, and the lower end of the antenna 9 is fixedly clamped with the antenna mounting groove 105.

A through hole 106 is formed in one side of the bottom plate inside the equipment box 1, and the through hole 106 is arranged so as to facilitate the electrical connection between the equipment inside the equipment box 1 and external equipment; and mounting hole A107 has been seted up at inside bottom plate's four angles, and mounting hole A107 sets up inside equipment box 1, and the outsider can't dismantle equipment box 1 easily, has strengthened the theftproof effect.

The both ends of baffle (103) are equipped with U type through wires mouth 1031, U type through wires mouth 1031's opening aligns with the electric wire buckle 102 of top, and the secondary design has made things convenient for the inside power line wiring of equipment box 1 to with the electric wire card in the electric wire buckle 102, with reaching neat pleasing to the eye purpose.

Four rows of elongated holes 1041 are arranged on the mounting net 104, and each row of elongated holes 1041 is provided with four holes; the strip-shaped hole 1041 facilitates the installation and fixation of the wireless router 7 and the solar controller 8; the four corners of the mounting net 104 are provided with mounting holes B1042, whereby the mounting net 104 can be fixed to bolts provided on the rear panel in the equipment cabinet 1.

Two magnetic anti-theft locks 6 are arranged on one side of the box door 101, the two magnetic anti-theft locks 6 are arranged in a vertically symmetrical mode, the two magnetic anti-theft locks 6 are respectively provided with a magnetic key 10, and the anti-prying level of the equipment box 1 is enhanced by the arrangement of the two magnetic anti-theft locks 6, so that a good anti-theft effect is achieved.

The storage battery 2 is respectively and electrically connected with the wire inlet end of the power supply voltage stabilizer 3 and the wire outlet end of the solar controller 8; the outlet end of the power supply voltage stabilizer 3 is electrically connected with the communication module 4, the GNSS host 5, the wireless router 7, the antenna 9 and the external GNSS monitoring equipment 11 respectively; the incoming line end of the solar controller (8) is electrically connected with the solar photovoltaic panel 12, and the voltage level of the storage battery 2 is 12V.

The communication module 4 is in wired communication connection with the GNSS host 5; the communication module (4) is in wireless communication connection with the wireless router 7, the wireless router 7 and the antenna 9, and the GNSS host 5 and the GNSS monitoring device.

The box body of the equipment box 1 and the box door 101 are made of stainless steel materials, and the design prolongs the service life of the equipment box 1 in a field environment.

The application method and the working principle of the utility model are as follows:

1) The using method comprises the steps of firstly, welding a partition plate on the middle part in an equipment box, and then installing an installation net on a bolt welded in advance on a rear panel in the equipment box through an installation hole B arranged in the installation net; the two side panels in the equipment box are aligned with the U-shaped threading openings at the two ends of the partition plate, nuts are welded firstly, then the plastic electric wires are buckled on the two side panels in the equipment box through screws (or the electric wires with the metal base are directly fixedly welded with the two side panels in the equipment box), and meanwhile, two magnetic anti-theft locks are installed on the box door; after the work is completed, the equipment box and required equipment (including a storage battery, a power supply voltage stabilizer, a communication module, a GNSS host, a wireless router, a solar controller, an antenna and required power wires) are transported together to a GNSS monitoring point site, and the equipment box is fixedly installed on a pre-installed GNSS monitoring equipment upright rod through an installation hole A arranged in the equipment box; then the storage battery, the power supply voltage stabilizer, the communication module and the GNSS host are placed at corresponding positions in the equipment box, the wireless router and the solar controller are fixedly installed on the installation net, and the antenna is clamped into the antenna installation groove; then, wiring of the power wires is carried out (each device needs to be electrically connected for connection, and the power wires connected with the solar controller by the solar photovoltaic panel, the antenna and the GNSS monitoring device by the power supply voltage stabilizer are connected, the power wires need to be connected after passing through the through hole of the bottom plate inside the device box, the power wires connected in the device box need to be clamped into the wire buckle so as to achieve the purposes of tidy and attractive appearance), and after the operation is completed and the device is electrified, the monitoring operation of the GNSS monitoring point position can be carried out.

2) The working principle is that after the GNSS host receives signals sent by the GNSS monitoring equipment, the signals are processed and transmitted to the communication module, the communication module connected with the wireless router transmits real-time data back to the rear monitoring base station through the antenna, and the monitoring base station processes the real-time data to obtain the real-time condition of geological deformation of the GNSS monitoring point location and timely analyzes and processes the real-time condition.

While the foregoing is directed to embodiments of the present utility model, other and further details of the utility model may be had by the present utility model, it should be understood that the foregoing description is merely illustrative of the utility model and that no changes, substitutions, and alterations are intended to be included within the spirit and principles of the utility model.

Claims (8)

1. A GNSS monitoring equipment box which is assembled in a layered manner and has an anti-theft function, comprising an equipment box (1); the method is characterized in that: one side of a box body of the equipment box (1) is movably hinged with one side of a box door (101), and a magnetic anti-theft lock (6) is fixedly arranged on the other side of the box door (101); the intelligent power supply device comprises an equipment box (1), wherein electric wire buckles (102) are arranged on two sides of the inside of the equipment box (1), a partition plate (103) is fixedly arranged in the middle of the equipment box, a power supply voltage stabilizer (3), a communication module (4) and a GNSS host (5) are arranged on the partition plate (103) side by side, an installation net (104) is fixedly installed on a rear panel of the inside of the equipment box (1) and above the partition plate (103), and a wireless router (7) and a solar controller (8) are fixedly connected to the installation net (104); a storage battery (2) is arranged on the lower bottom plate in the equipment box (1); an antenna mounting groove (105) is formed in the upper portion of the outer surface of the box body of the equipment box (1), the lower end of the antenna (9) is of a cone structure, and the lower end of the antenna (9) is fixedly clamped with the antenna mounting groove (105).

2. The layered assembly and anti-theft GNSS monitoring equipment pod of claim 1 wherein: a through hole (106) is formed in one side of an inner bottom plate of the equipment box (1), and mounting holes A (107) are formed in four corners of the inner bottom plate.

3. The layered assembly and anti-theft GNSS monitoring equipment pod of claim 1 wherein: two ends of the partition plate (103) are provided with U-shaped threading holes (1031), and openings of the U-shaped threading holes (1031) are aligned with the wire buckles (102) above.

4. The layered assembly and anti-theft GNSS monitoring equipment pod of claim 1 wherein: four rows of elongated holes (1041) are formed in the mounting net (104), and four elongated holes (1041) are formed in each row; the four corners of the mounting net (104) are provided with mounting holes B (1042).

5. The layered assembly and anti-theft GNSS monitoring equipment pod of claim 1 wherein: two magnetic anti-theft locks (6) are arranged on one side of the box door (101), the two magnetic anti-theft locks (6) are arranged symmetrically up and down, and the two magnetic anti-theft locks (6) are respectively provided with a magnetic key (10).

6. The layered assembly and anti-theft GNSS monitoring equipment pod of claim 1 wherein: the storage battery (2) is respectively and electrically connected with the wire inlet end of the power supply voltage stabilizer (3) and the wire outlet end of the solar controller (8); the outlet end of the power supply voltage stabilizer (3) is electrically connected with the communication module (4), the GNSS host (5), the wireless router (7), the antenna (9) and external GNSS monitoring equipment respectively; the incoming line end of the solar controller (8) is electrically connected with the solar photovoltaic panel (12).

7. The layered assembly and anti-theft GNSS monitoring equipment pod of claim 6 wherein: the communication module (4) is in wired communication connection with the GNSS host (5); the communication module (4) is in wireless communication connection with the wireless router (7), the wireless router (7) is in wireless communication connection with the antenna (9), and the GNSS host (5) is in wireless communication connection with the GNSS monitoring device.

8. The layered assembly and anti-theft GNSS monitoring equipment pod of claim 6 wherein: the box body and the box door (101) of the equipment box (1) are made of stainless steel materials.