CN215897638U - Solar power supply monitoring device - Google Patents

Abstract

The utility model relates to a solar power supply monitoring device which comprises a monitor, wherein the monitor is arranged on the ground through a support rod, a distribution box for driving the monitor to work is arranged on the support rod, a storage battery and an MCU (micro control unit) for supplying power to the monitor are arranged in the distribution box, a fixed frame is arranged beside the support rod, a solar panel for supplying power to the storage battery is arranged on the fixed frame, a hinged frame for adjusting the angle of the solar panel is arranged at the rear part of the solar panel, and the hinged frame is arranged on the fixed frame through an installation assembly.

Description

Solar power supply monitoring device

Technical Field

The utility model relates to the technical field of monitoring devices, in particular to a solar power supply monitoring device.

Background

Solar monitoring device converts solar energy into the required electric energy of supervisory equipment work through solar panel to carry out real time monitoring to the all ring edge borders, solar panel generally directly installs through the mount, this kind of mounting means makes can't adjust the suitable angle of solar panel according to the topography of installation, simultaneously when solar panel damages, when this kind of mounting means leads to certain part to damage, need demolish whole solar panel device, need change whole device, a large amount of resources have been wasted.

SUMMERY OF THE UTILITY MODEL

In order to solve the above problems, an object of the present invention is to provide a solar power supply monitoring apparatus, which facilitates adjusting an angle of a solar panel and facilitating detachment and replacement of the solar panel apparatus.

The embodiment of the utility model is realized by adopting the following scheme: the utility model provides a solar energy power supply monitoring device, includes the watch-dog, the watch-dog passes through the bracing piece setting subaerial, be provided with the drive on the bracing piece the block terminal of watch-dog work, be provided with in the block terminal for the battery and the MCU of watch-dog power supply, the other fixed frame that is provided with of bracing piece, the last fixed frame that is provided with of fixed frame is used for the solar panel of battery powered, solar panel's rear portion is provided with and is used for adjusting the articulated frame of solar panel angle, articulated frame is in through an installation component setting fixed frame is last.

In an embodiment of the present invention, a first support column is further disposed beside the support rod, the first support column is disposed on the ground, a windmill is disposed at the top of the first support column, and a wind sensor is disposed on the windmill.

In one embodiment of the utility model, the hinge frame comprises two mounting vertical rods, two U-shaped adjusting plates and two mounting cross rods, the tops and the bottoms of the two mounting vertical rods are connected through the mounting cross rods, the upper ends of the mounting vertical rods are provided with first hinge joints matched with the solar panel, and the two ends of the top of the solar panel are respectively arranged on the first hinge joints matched with the solar panel; the utility model discloses a solar panel, including U type regulating plate, installation montant with a plurality of bolt hole has been seted up to impartial distance on the U type regulating plate, the one end of U type regulating plate with the installation montant passes through bolted connection, the top of the other end of U type regulating plate be provided with solar panel matched with second articulated joint, the both ends of solar panel bottom set up respectively in the matched with on the second articulated joint.

In an embodiment of the utility model, the mounting assembly comprises a T-shaped mounting rod, the T-shaped mounting rod is arranged on the rear surface of the mounting vertical rod, a T-shaped mounting groove matched with the T-shaped mounting rod is formed in the fixed frame, and the top and the bottom of the T-shaped mounting rod and the T-shaped mounting groove are both provided with a bolt hole.

In one embodiment of the utility model, the left end and the right end of the lower surface of the fixed frame are respectively provided with a tapered foot which is convenient to insert into soil, and the tapered feet are arranged on the lower surface of the fixed frame through threads.

In an embodiment of the utility model, the fixed frame is installed on a second support column, the second support column is arranged on the ground, a fixed block is arranged on a cross rod at the top of the fixed frame, a first U-shaped connecting piece matched with the fixed block is arranged on the second support column, two ends of the first U-shaped connecting piece penetrate through the fixed block and are locked through nuts, a second U-shaped connecting piece matched with the fixed frame is arranged on the second support column, and two ends of the second U-shaped connecting piece penetrate through the cross rod at the bottom of the fixed frame and are locked through nuts.

In an embodiment of the present invention, the MCU is connected to a power driving circuit, a monitor driving circuit, a wireless network card driving circuit, and a wind sensor driving circuit.

The utility model has the beneficial effects that: the utility model provides a solar power supply monitoring device, which is characterized in that a solar panel is hinged on a detachable hinged frame, so that the whole device does not need to be replaced when a certain part is damaged, and the angle of the solar panel is adjusted by manually adjusting the hinged frame according to the installed terrain and sunshine conditions.

Drawings

Fig. 1 is a perspective view of a first preferred embodiment of a solar powered monitoring device.

Figure 2 is a schematic view of the installation of a solar panel and a hinged rack.

Fig. 3 is a schematic view of the mounting of the fixed frame and the tapered foot.

Fig. 4 is a schematic view of a solar panel of a second preferred embodiment of a solar power monitoring apparatus.

Fig. 5 is a schematic circuit diagram of a solar power supply monitoring device.

Detailed Description

The utility model is further described below with reference to the accompanying drawings.

Referring to fig. 1 to 4, the present invention provides a solar power supply monitoring apparatus, which includes a monitor 1, the monitor 1 is arranged on the ground through a support rod 13, a distribution box 12 for driving the monitor 1 to work is arranged on the support rod 13, a storage battery (not shown) and an MCU (not shown) for supplying power to the monitor 1 are arranged in the distribution box 12, a fixed frame 2 is arranged beside the support rod 13, a solar panel 3 for supplying power to the storage battery (not shown) is arranged on the fixed frame 2, the rear part of the solar panel 3 is provided with a hinged frame 4 for adjusting the angle of the solar panel 3, the hinged frame 4 is arranged on the fixed frame 2 through a mounting component 5, the solar panel 3 supplies power to a storage battery (not shown), so that the normal operation of the monitor 1 is ensured, and the angle of the solar panel 3 can be adjusted to obtain the optimal absorption angle.

Referring to fig. 1, a first support column 6 is further disposed beside the support rod 13, the first support column 6 is disposed on the ground, a windmill 61 is disposed at the top of the first support column 6, and a wind sensor is disposed on the windmill 61 to detect a real-time wind condition.

With reference to fig. 1 to 2, the hinge frame 4 includes two vertical mounting rods 41, two U-shaped adjusting plates 42 and two horizontal mounting rods 43, the top and the bottom of the two vertical mounting rods 41 are connected by the horizontal mounting rods 43, the upper end of the vertical mounting rod 41 is provided with a first hinge 44 matched with the solar panel 3, and two ends of the top of the solar panel 3 are respectively disposed on the first hinge 44 matched with the solar panel 3; installing the montant 41 with a plurality of bolt hole has been seted up to impartial distance on the U type regulating plate 42, the one end of U type regulating plate 42 with installing montant 41 and passing through bolted connection, the top of the other end of U type regulating plate 42 be provided with solar panel 3 matched with second hinge 45, the both ends of solar panel 3 bottom set up respectively in the matched with on the second hinge 45.

With reference to fig. 1 to 3, the mounting assembly 5 includes a T-shaped mounting rod 51, the T-shaped mounting rod 51 is disposed on the rear surface of the mounting vertical rod 41, a T-shaped mounting groove 52 matched with the T-shaped mounting rod 51 is formed on the fixing frame 2, the top and the bottom of the T-shaped mounting rod 51 and the T-shaped mounting groove 52 are both provided with a pin hole 53, and the T-shaped mounting rod 51 at the rear end of the mounting vertical rod 41 is pushed into the T-shaped mounting groove 52 from above when mounting is required.

With continuing reference to fig. 1 to 3, the present invention provides a first embodiment, wherein the left and right ends of the lower surface of the fixed frame 2 are respectively provided with a tapered foot 21 for conveniently inserting into soil, and the tapered feet 21 are disposed on the lower surface of the fixed frame 2 through threads; insert T type mounting groove 52 through the T type installation pole 51 that will install montant 41 rear surface in, fix through the bolt and can accomplish the installation, when the angle that needs adjust solar panel 3, take off the bolt between installation montant 41 and the U type regulating plate 42, remove the one end of U type regulating plate 42 on installation montant 41 outer wall, adjust to and lock through the bolt and can accomplish angular adjustment after the suitable angle.

With continuing reference to fig. 4, the present invention provides a second embodiment, wherein the fixed frame 2 is installed on a second supporting column 22, the second supporting column 22 is disposed on the ground, a fixing block 23 is disposed on a cross bar at the top of the fixed frame 2, a first U-shaped connecting member 24 matched with the fixing block 23 is disposed on the second supporting column 22, two ends of the first U-shaped connecting member 24 pass through the fixing block 23 and are locked by nuts, a second U-shaped connecting member 25 matched with the fixed frame 2 is disposed on the second supporting column 22, two ends of the second U-shaped connecting member 25 pass through the cross bar at the bottom of the fixed frame 2 and are locked by nuts; during installation, the first U-shaped connecting piece 24 penetrates through the fixing block 23 and is locked through the nut, the second U-shaped connecting piece 25 penetrates through the cross rod at the bottom of the fixing frame 2 and is locked through the nut, when the angle of the solar panel 3 needs to be adjusted, the bolt between the installation vertical rod 41 and the U-shaped adjusting plate 42 is taken down, one end of the U-shaped adjusting plate 42 is moved on the outer wall of the installation vertical rod 41, and the bolt is locked after the proper angle is adjusted to complete angle adjustment.

Referring to fig. 5, the MCU (not shown) is connected to a power driving circuit, a monitor driving circuit, a wireless network card driving circuit, and a wind sensor driving circuit, so as to detect the wind power in real time and monitor the surrounding environment through the monitor 1, and is suitable for farmlands, mountain forests, and other areas.

The above description is only a preferred embodiment of the present invention, and should not be construed as limiting the present invention, and all equivalent variations and modifications made in the claims of the present invention should be covered by the present invention.

Claims (7)

1. A solar power supply monitoring device comprises a monitor, and is characterized in that: the utility model discloses a solar monitor, including watch-dog, bracing piece, cell, the cell is provided with the battery that is used for the watch-dog to supply power, the watch-dog passes through the bracing piece setting subaerial, be provided with the drive on the bracing piece the block terminal of watch-dog work, be provided with in the block terminal for the battery and the MCU of watch-dog power supply, the other fixed frame that is provided with of bracing piece, be provided with on the fixed frame and be used for the solar panel of battery power supply, solar panel's rear portion is provided with and is used for adjusting the articulated frame of solar panel angle, articulated frame is in through an installation component setting on the fixed frame.

2. A solar powered monitoring device according to claim 1 characterised in that: the other first support post that still is provided with of bracing piece, first support post sets up subaerial, the top of first support post is provided with the windmill, be provided with wind-force sensor on the windmill.

3. A solar powered monitoring device according to claim 1 characterised in that: the hinged frame comprises two mounting vertical rods, two U-shaped adjusting plates and two mounting cross rods, the tops and the bottoms of the two mounting vertical rods are connected through the mounting cross rods, first hinged joints matched with the solar panel are arranged at the upper ends of the mounting vertical rods, and two ends of the top of the solar panel are respectively arranged on the first hinged joints; the utility model discloses a solar panel, including U type regulating plate, installation montant with a plurality of bolt hole has been seted up to impartial distance on the U type regulating plate, the one end of U type regulating plate with the installation montant passes through bolted connection, the top of the other end of U type regulating plate be provided with solar panel matched with second articulated joint, the both ends of solar panel bottom set up respectively in the matched with on the second articulated joint.

4. A solar powered monitoring device according to claim 3 wherein: the mounting assembly comprises a T-shaped mounting rod, the T-shaped mounting rod is arranged on the rear surface of the mounting vertical rod, a T-shaped mounting groove matched with the T-shaped mounting rod is formed in the fixed frame, and the T-shaped mounting rod and the top and the bottom of the T-shaped mounting groove are provided with bolt holes.

5. A solar powered monitoring device according to claim 4 characterised in that: the left and right both ends of fixed frame lower surface all are provided with the toper foot that conveniently inserts in the earth, the toper foot passes through the screw thread setting and is in fixed frame's lower surface.

6. A solar powered monitoring device according to claim 4 characterised in that: fixed frame installs on the second support column, the second support column sets up subaerial, be provided with the fixed block on the horizontal pole at fixed frame top, be provided with on the second support column with fixed block matched with first U type connecting piece, the both ends of first U type connecting piece are passed the fixed block locks through the nut, be provided with on the second support column with fixed frame matched with second U type connecting piece, the both ends of second U type connecting piece are passed the horizontal pole of fixed frame bottom locks through the nut.

7. A solar powered monitoring device according to claim 1 characterised in that: the MCU is connected with a power supply driving circuit, a monitor driving circuit, a wireless network card driving circuit and a wind sensor driving circuit.

Images