CN111725880A - Intelligent monitoring system of multi-power-supply grounding box - Google Patents

Abstract

The application discloses ground connection case intelligent monitoring system of many units power supplies, including case and control module, the control module is installed on the case, still includes main control system and battery, main control system and battery point connection, the last power cord plug that is connected with of main control system. The invention has the following beneficial effects: through setting up control host and battery, realized the multiform power supply to the control module, power source is abundanter, and the power supply guarantee is more stable.

Description

Intelligent monitoring system of multi-power-supply grounding box

Technical Field

The invention relates to the field of electrical equipment, in particular to an intelligent monitoring system for a multi-element power supply grounding box.

Background

The current ground box is to guarantee safe operation, all installs monitored control system on the ground box, utilizes monitored control system to carry out real-time detection to the operating condition of various equipment in the ground box and the condition of ground box, but present ground box all utilizes external power supply to supply power for monitored control system, so in case external power supply breaks down or the power supply line breaks down, then whole monitored control system then can lose effect.

Disclosure of Invention

Aiming at the problems, the invention provides an intelligent monitoring system of a multi-power-supply grounding box.

The technical scheme adopted by the invention is as follows:

the utility model provides a ground connection case intelligent monitoring system of many units power supplies, includes case and control module, the control module is installed on the case, still includes main control system and battery, main control system and battery point connection, the last power cord plug that is connected with of main control system.

Through setting up control host and battery, realized the multiform power supply to the control module, power source is abundanter, and the power supply guarantee is more stable.

Optionally, the photovoltaic panel is mounted on the mounting frame, and the photovoltaic panel is connected with the storage battery through a charging controller and an inverter.

The photovoltaic panel is used for generating electricity, the storage battery is used for storing electricity after the photovoltaic panel generates electricity, and the installation mode of the installation frame, the embedded pieces, the inner grooves and the telescopic rods is adopted so that the installation angle of the photovoltaic panel can be adjusted in time to facilitate the absorption of illumination at the maximum angle. Meanwhile, the embedded sheet is positioned in the inner groove, and the embedded sheet and the inner groove are connected by the rotating pin, so that the rotating pin can always keep a stable rotating posture by the installation mode. Meanwhile, an electromagnetic generator, a temperature difference generator and a super capacitor can be added to supply power to the battery.

Optionally, the electric power storage box further comprises a motor and an impeller, wherein the impeller is installed on a rotating shaft of the motor, the motor is fixedly installed at the top of the box, and the motor is connected with the storage battery through a wire.

The motor and the impeller are arranged to enable gas flowing out of the box and airflow in the environment to drive the impeller to rotate, and the impeller rotates to drive the motor to generate power and is stored by the storage battery.

Optionally, the impeller further comprises a crank rocker, a fixture block is arranged at one end of the crank rocker, a counter bore is formed in the rotation center of the impeller, a bayonet is arranged on the side wall of the counter bore and used for being matched with the fixture block, and the counter bore is used for being matched with one end of the crank rocker.

This is so that in an emergency situation when the battery is running low, the impeller can be manually rotated by means of the crank-rocker, which can generate electricity urgently to power the impeller.

Optionally, still include inlet port, support and mounting bracket, the support is fixed in the case, the mounting bracket is fixed on the support, the mounting bracket is used for fixed battery and main control system, the air inlet sets up the bottom of the case department at the case, just the air inlet is located the below of mounting bracket.

The installation mode is adopted for enabling airflow in the environment to smoothly enter the box to dissipate heat of the equipment, and the principle of the equipment is adopted for transferring heat in the environment to the box, so that the airflow can urge the impeller to drive the motor to generate power.

Optionally, still include the vibration generator, the vibration generator is installed in the bottom of the case department of case, and the vibration generator is located outside the case, is provided with the pothook on the vibration generator, the vibration generator is scraped through the pothook of self and is established on the case, just the vibration generator with the battery electricity is connected.

Because vibration often takes place in the surrounding environment, so set up above-mentioned vibration generator, adopt above-mentioned method of hanging to establish simultaneously firstly for the convenience dismouting, secondly for the convenience transmits the vibration in the environment to vibration generator through the case.

Optionally, the box door further comprises a mounting seat, a lock hook and a torsion spring, and one end of the box door is rotatably mounted on the box through a hinge. The two lock hooks are rotatably installed on the installation seat through torsion springs, the torsion springs are used for driving the two lock hooks to mutually approach, a lock rod is arranged on the box door, the two lock hooks are used for hooking the lock rod, and the box door is a flat-plate type box door; when the box door is closed, the lock rod firstly impacts the lock hooks and jacks the two lock hooks, the two lock hooks hook the lock rod, and the lock rod impacts the base to cause the box to vibrate.

The installation seat, the lock hook, the torsion spring and the lock rod are arranged to lock the bead box door firstly, and to cause the box to vibrate when the box door is opened and closed secondly, and the vibration of the box can cause the vibration generator to work, so that surrounding vibration resources can be fully utilized.

Optionally, still include the curved arc pipe, the curved arc pipe is fixed on the lateral wall of case, and the curved arc pipe is located outside the case, the ground of the mouth of pipe orientation of curved arc pipe, curved arc pipe is located the below of vibration generator.

Because the mouse likes to climb to the box internal, so set up above-mentioned bended-arc pipe, the effect of setting up the bended-arc pipe lets the mouse climb this bended-arc pipe, but also can not climb into in the box, the mouse can the striking touch the box when climbing bended-arc pipe, can cause the box vibration like this, because the bended-arc pipe just in the vibration generator below, this small vibration can trigger the vibration generator work, biological power around can make full use of like this.

Optionally, still include support, dwang, rotary disk, installation clamp and lens, the roof department at the case is fixed to the support, just the support is located outside the case, the dwang rotates perpendicularly and installs on the support, the rotary disk is fixed on the dwang, the installation clamp is fixed on the rotary disk, and the installation clamp is on a parallel with the dwang, the installation clamp is used for the installation the lens.

The effect that sets up above-mentioned support, dwang, rotary disk, installation clamp and lens is in order to be located photovoltaic board with light reflection to improve the photoelectricity utilization efficiency of photovoltaic board as far as possible. A plurality of installation clamps are specifically arranged, and each installation clamp can be provided with a lens, so that the photovoltaic panel can reflect light from multiple angles in multiple directions.

Optionally, still include collar and jib, the collar passes through jib fixed mounting on the rotary disk, and the dwang is located the lantern ring, the collar is on a parallel with the rotary disk, the installation is pressed from both sides and is fixed on the collar, is fixed with four lenses on every installation presss from both sides, and four lenses are the cube column and distribute.

The effect of increasing collar and jib is in order to increase the stability of rotary disk when rotating, because the existence of jib and collar can let whole rotation focus move down, and four lenses of installation are in order to reflect light to photovoltaic board department of ability multi-angle on every installation clamp simultaneously.

The invention has the beneficial effects that: through setting up control host and battery, realized the multiform power supply to the control module, power source is abundanter, and the power supply guarantee is more stable.

Description of the drawings:

FIG. 1 is a schematic diagram of a multi-power-supply intelligent monitoring system of a grounding box;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

FIG. 3 is an enlarged schematic view at B of FIG. 1;

FIG. 4 is an enlarged schematic view at C of FIG. 1;

FIG. 5 is an enlarged schematic view at D of FIG. 1;

FIG. 6 is a schematic view of the impeller and crank rocker mating relationship.

The figures are numbered: 1. impeller, 101, counter bore, 102, bayonet socket, 2, battery, 3, support, 4, mounting bracket, 5, main control system, 6, case, 601, air inlet, 602, inner groovy, 7, vibration generator, 8, curved arc pipe, 9, installing frame, 10, photovoltaic board, 11, telescopic link, 12, dwang, 13, support, 14, lens, 15, collar, 16, jib, 17, rotary disk, 18, installation clamp, 19, pinhole, 20, mount pad, 21, torsional spring, 22, latch hook, 23, crank rocker, 2301, fixture block, 24, motor.

The specific implementation mode is as follows:

the present invention is described in detail below.

As shown in the attached drawing 1, the intelligent monitoring system of the multi-power-supply grounding box comprises a box 6 and a monitoring module, wherein the monitoring module is installed on the box 6, the intelligent monitoring system further comprises a control host 5 and a storage battery 2, the control host 5 is connected with the storage battery 2 and a battery point, and a power line plug is connected to the control host 5.

Through setting up control host 5 and battery 2, realized the multiform power supply to the control module, the electric power source is abundanter, and the power supply guarantee is more stable.

As shown in fig. 1, 4 and 5, the photovoltaic panel installation structure further comprises an installation frame 9, a photovoltaic panel 10, a rotating pin and an expansion link 11, wherein an embedded sheet is arranged on the installation frame 9, an inner groove 602 is formed in the side wall of the box 6, pin holes 19 are formed in the side walls of the embedded sheet and the inner groove 602, the embedded sheet is located in the inner groove, the rotating pin is located in the pin holes 19 of the embedded sheet and the inner groove 602, the expansion links 11 are two, one end of each expansion link 11 is hinged and matched with the box 6, the other end of each expansion link 11 is hinged and matched with the installation frame 9, the photovoltaic panel 10 is installed on the installation frame 9, and the photovoltaic panel 10 is connected with the storage battery.

The photovoltaic panel 10 is used for generating electricity, the storage battery 2 is used for storing the electricity generated by the photovoltaic panel 10, and the installation mode of the installation frame 9, the embedded sheet, the inner groove 602 and the telescopic rod 11 is adopted to adjust the installation angle of the photovoltaic panel 10 in time so as to absorb the illumination at the maximum angle. Meanwhile, in the scheme, the embedded sheet is positioned in the inner groove 602, and the embedded sheet and the inner groove 602 are connected by adopting a rotating pin, so that the rotating pin can always keep a stable rotating posture.

As shown in the attached fig. 1 and 6, the electric energy storage box further comprises a motor 24 and an impeller 1, wherein the impeller 1 is installed on a rotating shaft of the motor 24, the motor 24 is fixedly installed at the top of the box 6, and the motor 24 is connected with the storage battery 2 through a lead.

The motor 24 and the impeller 1 are arranged to enable the gas flowing out of the box 6 and the gas flow in the environment to drive the impeller 1 to rotate, and the rotation of the impeller 1 drives the motor 24 to generate power and store the power by using the storage battery 2.

As shown in fig. 1 and 6, the centrifugal impeller further comprises a crank rocker 23, one end of the crank rocker 23 is provided with a fixture block 2301, a counter bore 101 is arranged at the rotation center of the impeller 1, a bayonet 102 is arranged on the side wall of the counter bore 101, the bayonet 102 is used for being matched with the fixture block 2301, and the counter bore 101 is used for being matched with one end of the crank rocker 23.

This is to allow the impeller 1 to be manually rotated by the crank-rocker 23 when the battery 2 is running out of power in an emergency, so that emergency power generation can be performed to supply power to the impeller 1.

As shown in the attached drawing 1, the air storage box further comprises an air inlet hole, a support 3 and a mounting frame 4, the support 3 is fixed in the box 6, the mounting frame 4 is fixed on the support 3, the mounting frame 4 is used for fixing the storage battery 2 and the control host 5, the air inlet 601 is arranged at the bottom of the box 6, and the air inlet 601 is located below the mounting frame 4.

The installation mode is adopted for enabling the airflow in the environment to smoothly enter the box 6 to radiate the equipment, and the principle of the equipment is adopted for transferring the heat in the environment to the box 6, so that the airflow can urge the impeller 1 to drive the motor 24 to generate power.

As shown in fig. 1, the battery box further comprises a vibration generator 247, the vibration generator 247 is installed at the bottom of the box 6, the vibration generator 247 is located outside the box 6, a hook is arranged on the vibration generator 247, the vibration generator 247 is arranged on the box 6 by scraping through the hook, and the vibration generator 247 is electrically connected with the battery 2.

Since vibration often occurs in the surrounding environment, the vibration generator 247 is provided, and the above-mentioned hanging method is adopted to facilitate the mounting and dismounting, and to facilitate the transmission of the vibration in the environment to the vibration generator 247 through the box 6.

As shown in fig. 1 and 2, the box door further comprises an installation seat 20, a locking hook 22 and a torsion spring 21, and one end of the box door is rotatably installed on the box 6 through a hinge. The two lock hooks 22 are rotatably mounted on the mounting base 20 through torsion springs 21, the torsion springs 21 are used for driving the two lock hooks 22 to approach each other, a lock rod is arranged on the box door, the two lock hooks 22 are used for hooking the lock rod, and the box door is a flat-plate-type box door; when closing the door, the locking lever first strikes the locking hooks 22 and pushes the two locking hooks 22 open, the two locking hooks 22 catch the locking lever, and the locking lever strikes the base causing the box 6 to vibrate. As shown in fig. 2, a circular openable clip is formed between the two latch hooks 22, the lock rod is an L-shaped round rod, one end of the round rod is fixed on the door, and the other end of the round rod is in clamping fit with the latch hooks 22.

The installation seat 20, the locking hook 22, the torsion spring 21 and the locking rod are arranged to lock the bead box door firstly, and to cause the box 6 to vibrate when the box door is opened and closed secondly, and the vibration of the box 6 causes the vibration generator 247 to work, so that the surrounding vibration resources can be fully utilized.

As shown in the attached drawings, the vibration generator further comprises a curved pipe 8, the curved pipe 8 is fixed on the side wall of the box 6, the curved pipe 8 is located outside the box 6, the pipe orifice of the curved pipe 8 faces the ground, and the curved pipe 8 is located below the vibration generator 247.

Because the mouse likes to climb to the box in, so set up above-mentioned bended-arc pipe 8, the effect of setting up bended-arc pipe 8 lets the mouse climb this bended-arc pipe 8, but in failing to climb into case 6, the mouse can the striking touch case 6 when climbing bended-arc pipe 8, can arouse case 6 vibration like this, because bended-arc pipe 8 is just in vibration generator 247 below, this small vibration can trigger vibration generator 247 work, biological power around can the make full use of like this.

As shown in fig. 1 and 3, the eyeglass frame further comprises a support 13, a rotating rod 12, a rotating disk 17, a mounting clamp 18 and a lens 14, wherein the support 13 is fixed at the top of the box 6, the support 13 is positioned outside the box 6, the rotating rod 12 is vertically and rotatably mounted on the support 13, the rotating disk 17 is fixed on the rotating rod 12, the mounting clamp 18 is fixed on the rotating disk 17, the mounting clamp 18 is parallel to the rotating rod 12, and the mounting clamp 18 is used for mounting the lens 14.

The support 13, the rotating rod 12, the rotating disc 17, the mounting clip 18 and the lens 14 are arranged to reflect light to the photovoltaic panel 10, so as to improve the photoelectric utilization efficiency of the photovoltaic panel 10 as much as possible. Specifically, a plurality of mounting clips 18 are provided, and each mounting clip 18 can be provided with a lens 14, so that light can be reflected to the photovoltaic panel 10 from multiple angles and multiple directions.

As shown in fig. 1 and 3, the spectacle frame further comprises a mounting ring 15 and a suspension rod 16, wherein the mounting ring 15 is fixedly mounted on a rotating disc 17 through the suspension rod 16, the rotating rod 12 is located in a sleeve ring, the mounting ring 15 is parallel to the rotating disc 17, mounting clamps 18 are fixed on the mounting ring 15, four lenses 14 are fixed on each mounting clamp 18, and the four lenses 14 are distributed in a cubic column shape.

The purpose of adding the mounting ring 15 and the suspension rod 16 is to increase the stability of the rotating disk 17 during rotation, because the suspension rod 16 and the mounting ring 15 can move the center of gravity of the whole rotation downwards, and the four lenses 14 are mounted on each mounting clip 18 to reflect light rays to the photovoltaic panel 10 at multiple angles.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, which is defined by the claims and their equivalents, and can be directly or indirectly applied to other related fields of technology.

Claims (10)

1. The utility model provides a ground connection case intelligent monitoring system of many units power supplies, includes case and control module, the control module is installed on the case, its characterized in that still includes main control system and battery, main control system is connected with battery and battery point, the last power cord plug that is connected with of main control system.

2. The intelligent monitoring system for the multi-power-supply grounding box as claimed in claim 1, further comprising a mounting frame, a photovoltaic panel, a rotation pin and a telescopic rod, wherein the mounting frame is provided with a tabling piece, the side wall of the box is provided with an inner groove, the side wall of the tabling piece and the side wall of the inner groove are provided with pin holes, the tabling piece is positioned in the inner groove, the rotation pin is positioned in the pin holes of the tabling piece and the inner groove, the number of the telescopic rods is two, one end of the telescopic rod is in hinged fit with the box, the other end of the telescopic rod is in hinged fit with the mounting frame, the photovoltaic panel is mounted on the mounting frame, and the photovoltaic panel is connected with the storage battery through a charging controller.

3. The intelligent monitoring system for the multi-power-supply grounding box of claim 1, further comprising a motor and an impeller, wherein the impeller is installed on a rotating shaft of the motor, the motor is fixedly installed at the top of the box, and the motor is connected with a storage battery through a wire.

4. The intelligent monitoring system of the multi-power-supply grounding box as claimed in claim 3, further comprising a crank rocker, wherein a fixture block is arranged at one end of the crank rocker, a counter bore is arranged at the rotation center of the impeller, a bayonet is arranged on the side wall of the counter bore, the bayonet is used for being matched with the fixture block, and the counter bore is used for being matched with one end of the crank rocker.

5. The intelligent monitoring system for the multi-power-supply grounding box of claim 3, further comprising an air inlet, a support and a mounting rack, wherein the support is fixed in the box, the mounting rack is fixed on the support, the mounting rack is used for fixing the storage battery and the control host, the air inlet is arranged at the bottom of the box, and the air inlet is positioned below the mounting rack.

6. The intelligent monitoring system for the multi-power-supply grounding box of claim 1, further comprising a vibration generator, wherein the vibration generator is installed at the bottom of the box and located outside the box, a hook is arranged on the vibration generator, the vibration generator is arranged on the box through the hook, and the vibration generator is electrically connected with the storage battery.

7. The intelligent monitoring system for the multi-element power supply grounding box of claim 5, further comprising a mounting seat, a locking hook and a torsion spring, wherein one end of the box door is rotatably mounted on the box through a hinge. The two lock hooks are rotatably installed on the installation seat through torsion springs, the torsion springs are used for driving the two lock hooks to mutually approach, a lock rod is arranged on the box door, the two lock hooks are used for hooking the lock rod, and the box door is a flat-plate type box door; when the box door is closed, the lock rod firstly impacts the lock hooks and jacks the two lock hooks, the two lock hooks hook the lock rod, and the lock rod impacts the base to cause the box to vibrate.

8. The intelligent monitoring system for the multi-element power supply grounding box of claim 5, further comprising an arc bending pipe, wherein the arc bending pipe is fixed on the side wall of the box and is positioned outside the box, the opening of the arc bending pipe faces the ground, and the arc bending pipe is positioned below the vibration generator.

9. The multi-powered intelligent monitoring system for the grounding box according to claim 2, further comprising a support, a rotating rod, a rotating disk, a mounting clip and a lens, wherein the support is fixed at the top of the box and is located outside the box, the rotating rod is vertically and rotatably mounted on the support, the rotating disk is fixed on the rotating rod, the mounting clip is fixed on the rotating disk and is parallel to the rotating rod, and the mounting clip is used for mounting the lens.

10. The intelligent monitoring system for a multi-power-supply grounding box of claim 9, further comprising a mounting ring and a suspension rod, wherein the mounting ring is fixedly mounted on the rotating disk through the suspension rod, the rotating rod is located in the sleeve ring, the mounting ring is parallel to the rotating disk, the mounting clips are fixed on the mounting ring, each mounting clip is fixed with four lenses, and the four lenses are distributed in a cubic column shape.

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