CN218586683U - Mobile power distribution device based on new energy technology - Google Patents

Abstract

The utility model discloses a mobile power distribution device based on new energy technology, which comprises a box body and a supporting mechanism; There is a partition board on the side, a solar photovoltaic controller is installed on the left side of the top of the partition board, a battery is installed on the right side of the top of the partition board, fixed boxes are installed on the left and right ends of the box body, and a Wiring port, the four corners of the lower end of the box are respectively equipped with universal wheels; supporting mechanism: it is set inside the fixed box, the mobile power distribution device based on new energy technology, through one-third of the gear and double-sided rack plate The matching setting drives the support column to contact the ground, which improves the stability of the mobile power distribution device based on new energy technology when it is stationary. The structure is simple, and the support work can be realized by a single motor, and the cost is relatively low.

Description

A mobile power distribution device based on new energy technology

technical field

The utility model relates to the technical field of power distribution equipment, in particular to a mobile power distribution device based on new energy technology.

Background technique

Power distribution device is a term in power engineering. It is used to measure and control the distribution device of electric energy. It is composed of busbar, switchgear, protective appliances, measuring instruments and other accessories. Threatening the safety of people and surrounding equipment, it is installed in power plants, substations and distribution stations, etc.;

The existing mobile power distribution device is electrically connected to the power plant, substation and distribution station, etc. through cables, and then distributes the power for people to use. Therefore, the existing power distribution device must have a cable to transmit power in use. Use, resulting in limitations in the use of power distribution devices. Some mobile power distribution devices based on new energy technologies generate electricity for people through new energy sources such as solar energy or wind power. They do not need to transmit power through cables, and generate electricity through new energy, which is green and environmentally friendly. , more versatile;

The existing mobile power distribution device based on new energy technology often adjusts the position of the support column through multiple hydraulic rods or electric push rods when it is stationary, so that the support column is in contact with the ground, thereby improving the mobile power distribution device based on new energy technology. For the stability of the power distribution device at rest, the position of the support column is adjusted by multiple hydraulic rods or electric push rods, the cost is relatively high, and the structure is relatively complicated. For this reason, we propose a new energy technology based mobile power distribution device.

Utility model content

The technical problem to be solved by the utility model is to overcome the existing defects and provide a mobile power distribution device based on new energy technology. Through the cooperative arrangement of one-third of the gear and the double-sided rack plate, the support column and the ground are driven Contact improves the stability of the mobile power distribution device based on new energy technology when it is at rest. The structure is simple, and the supporting work can be realized through a single motor. The cost is relatively low, and the problems in the background technology can be effectively solved.

In order to achieve the above purpose, the utility model provides the following technical solutions: a mobile power distribution device based on new energy technology, including a box body and a supporting mechanism;

Cabinet: the upper end is provided with a mounting column, the upper end of the installation column is provided with a solar panel, the upper side of the inside of the cabinet is provided with a partition board, and the left side of the partition board is provided with a solar photovoltaic controller. The right side of the box is provided with a battery, the left and right ends of the box are provided with a fixed box, the front end of the box is provided with a wiring port, and the four corners of the lower end of the box are respectively provided with universal wheels;

Supporting mechanism: it is arranged inside the fixed box, and the supporting mechanism is respectively slidably connected with the sliding holes provided at the lower end of the fixed box;

Among them: it also includes a single-chip microcomputer, which is set at the front end of the box, the input end of the single-chip microcomputer is electrically connected to the external power supply, the input end of the solar photovoltaic controller is electrically connected to the output end of the single-chip microcomputer, and the output end of the solar panel is connected to the solar photovoltaic controller. The input end of the solar photovoltaic controller is electrically connected to the input end of the battery, and the output end of the battery is electrically connected to the input end of the wiring port. Through the cooperation of one-third of the gear and the double-sided rack plate, Drive the support column to contact the ground, which improves the stability of the mobile power distribution device based on new energy technology when it is still. The structure is simple, and the support work can be realized by a motor, and the cost is relatively low.

Further, the support mechanism includes a double-sided rack plate, a mounting plate and a supporting column, and the supporting columns are respectively slidably connected to the sliding holes provided at the lower end of the fixed box, and the upper ends of the supporting columns are connected to the vertically adjacent mounting plate. The lower end is fixedly connected, and the upper end of the mounting plate is provided with a double-sided rack plate, which is convenient for adjusting the position of the support column.

Further, the support mechanism also includes a connecting rod, a second gear and a third gear, the connecting rods are respectively connected to the inside of the fixed box through bearings, the second gear is arranged at one end of the connecting rod close to the box, and the third The one-third gears are all set at the end of the connecting rod away from the box body, and the two longitudinally adjacent one-third gears are installed in cooperation with the double-sided rack plate in between, through the one-third gear and the double-sided rack plate The matching setting drives the support column to contact the ground, which improves the stability of the power distribution device when it is stationary.

Further, it also includes an output rod, a bevel gear one and a gear one, the output rod is connected to the lower side inside the box through bearings, the bevel gear one is arranged in the middle of the output rod, and the gear one is respectively arranged on the left and right sides of the output rod At both ends, gear one is located inside the fixed box, and the longitudinally adjacent gear two is meshed with gear one to adjust the position of the support column.

Further, it also includes a motor and a second bevel gear, the motor is arranged on the lower side of the rear wall of the box, the second bevel gear is arranged on the front end of the output shaft of the motor, the second bevel gear is engaged with the first bevel gear, and the input end of the motor is connected to the first bevel gear. The output end of the single-chip microcomputer is electrically connected to provide power for adjusting the position of the support column.

Further, it also includes inserting posts, electromagnets, springs and inserting blocks. The inserting posts are respectively inserted into the jacks provided on the rear wall of the fixed box. One of the tooth slots at the rear end of the surface rack plate is plugged in, the electromagnet is set in the middle of the rear wall of the jack, the springs are respectively set between the rear wall of the fixed box and the rear end of the plug, and the springs are all sleeved on the plug Outside the front end, the input end of the electromagnet is electrically connected with the output end of the single-chip microcomputer to realize the fixed locking of the double-sided rack plate.

Further, rubber pads are also included, and the rubber pads are all arranged at the lower ends of the support columns to increase the contact area between the support columns and the ground.

Compared with the prior art, the beneficial effect of the utility model is that the mobile power distribution device based on new energy technology has the following advantages:

Through the control of the single-chip microcomputer, the motor and the electromagnet start to run. The electromagnet drives the insert to move backward through the insert, and the spring contracts to separate the insert from the double-sided rack plate. The output shaft of the motor starts to rotate, and the output shaft passes through the bevel gear. The second drives the bevel gear one to rotate, the bevel gear one drives the gear one to rotate through the output rod, the gear one drives the connecting rod to rotate through the gear two, the connecting rod drives one-third of the gear to rotate, the one-third gear on the current side and the double-sided gear When the front ends of the slats are meshed, the one-third gear on the front side drives the double-sided rack plate to move downward, and the double-sided rack plate drives the support column to move downward through the mounting plate, so that the support column contacts the ground through the rubber pad. To improve the stability of the mobile power distribution device based on new energy technology, through the cooperative setting of one-third gear and double-sided rack plate, the support column is driven to contact the ground, which improves the mobile power distribution device based on new energy technology. The stability of the device when it is still, the structure is simple, and the supporting work can be realized by a motor, the cost is relatively low, and it can ensure the photoelectric conversion of the solar panel based on new energy technology to be more stable.

Description of drawings

Fig. 1 is the structural representation of the utility model;

Fig. 2 is a side sectional structure schematic diagram of the utility model;

Fig. 3 is a schematic diagram of an enlarged structure at A of the utility model.

In the figure: 1 box body, 2 single-chip microcomputer, 3 fixed box, 4 wiring port, 5 installation column, 6 solar panel, 7 solar photovoltaic controller, 8 battery, 9 support mechanism, 91 double-sided rack plate, 92 installation plate , 93 supporting column, 94 connecting rod, 95 gear two, 96 one-third gear, 10 motor, 11 output rod, 12 bevel gear one, 13 bevel gear two, 14 gear one, 15 inserting column, 16 electromagnet, 17 Spring, 18 plugs, 19 universal wheels, 20 rubber pads.

Detailed ways

The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only part of the embodiments of the present invention, not all of them. example. Based on the embodiments of the present utility model, all other embodiments obtained by persons of ordinary skill in the art without making creative efforts belong to the scope of protection of the present utility model.

Please refer to Figures 1-3, this embodiment provides a technical solution: a mobile power distribution device based on new energy technology, including a box 1 and a supporting mechanism 9;

Box 1: The upper end is provided with a mounting column 5, and the upper end of the installation column 5 is provided with a solar panel 6. The upper side of the box body 1 is provided with a partition board, and the left side of the top of the partition board is provided with a solar photovoltaic controller. 7. A storage battery 8 is provided on the right side of the upper part of the partition plate, a fixed box 3 is provided at the left and right ends of the box body 1, a wiring port 4 is provided at the front end of the box body 1, and a universal box is provided at the four corners of the lower end of the box body 1 respectively. Wheel 19, before use, push the box body 1 according to the actual electricity demand, and the universal wheel 19 starts to rotate, moving the mobile power distribution device based on new energy technology to the designated work place, through the regulation of the control equipment, the solar photovoltaic The controller 7 starts to run, and the solar panel 6 converts solar radiation into electric energy by absorbing sunlight, and the solar photovoltaic controller 7 regulates the power delivered to the storage battery 8 by the solar panel 6 to prevent the power of the solar panel 6 from being too high. When the battery 8 is damaged, the connection port 4 is connected to the external interface, and the battery 8 provides the stored electric energy to the external equipment through the external interface, which is green and environmentally friendly, so as to realize the power distribution work based on new energy technology;

Support mechanism 9: it is arranged inside the fixed box 3, and the support mechanism 9 is respectively slidably connected with the sliding holes provided at the lower end of the fixed box 3. The support mechanism 9 includes a double-sided rack plate 91, a mounting plate 92 and a support column 93, and the support column 93 are slidably connected with the sliding holes provided at the lower end of the fixed box 3 respectively, and the upper ends of the support columns 93 are fixedly connected with the lower ends of the vertically adjacent mounting plates 92, and the upper ends of the mounting plates 92 are provided with double-sided rack plates 91 to support Mechanism 9 also includes connecting rod 94, gear two 95 and one-third gear 96, connecting rod 94 is connected to the inside of fixed box 3 through bearing rotation respectively, and gear two 95 is arranged on connecting rod 94 near one end of box body 1, One-third gears 96 are all arranged on the end of the connecting rod 94 away from the box body 1, and two longitudinally adjacent one-third gears 96 are installed in cooperation with the double-sided rack plate 91 between them. Through the regulation of the single-chip microcomputer 2, The motor 10 and the electromagnet 16 start to run, the electromagnet 16 drives the insert 18 to move backward through the insert 15, the spring 17 shrinks, the insert 18 is separated from the double-sided rack plate 91, the output shaft of the motor 10 starts to rotate, and the output The shaft drives bevel gear one 12 to rotate through bevel gear two 13, bevel gear one 12 drives gear one 14 to rotate through output rod 11, gear one 14 drives connecting rod 94 to rotate through gear two 95, and connecting rod 94 drives one-third gear 96 Rotate, when the one-third gear 96 on the front side meshes with the front end of the double-sided rack plate 91, the one-third gear 96 on the front side drives the double-sided rack plate 91 to move downward, and the double-sided rack plate 91 passes through The mounting plate 92 drives the support column 93 to move downward, so that the support column 93 contacts the ground through the rubber pad 20, improving the stability of the mobile power distribution device based on new energy technology, through the one-third gear 96 and the double-sided rack The matching arrangement of the plate 91 drives the support column to contact the ground, which improves the stability of the power distribution device when it is stationary. The structure is simple, and the support work can be realized by a motor, and the cost is relatively low;

Wherein: also comprise single-chip microcomputer 2, and single-chip microcomputer 2 it is arranged on the front end of casing 1, and the input end of single-chip microcomputer 2 is electrically connected with external power supply, and the input end of solar photovoltaic controller 7 is electrically connected with the output end of single-chip microcomputer 2, and the solar panel 6 The output end is electrically connected to the input end of the solar photovoltaic controller 7, the output end of the solar photovoltaic controller 7 is electrically connected to the input end of the storage battery 8, and the output end of the storage battery 8 is electrically connected to the input end of the connection port 4, which can be based on the new The electrical components inside the mobile power distribution unit of energy technology are controlled to increase the working efficiency.

Wherein: also include output rod 11, bevel gear one 12 and gear one 14, output rod 11 is connected to the lower side inside box body 1 by bearing rotation, bevel gear one 12 is arranged on the middle part of output rod 11, gear one 14 is respectively arranged At the left and right ends of the output rod 11, the gear one 14 is located inside the fixed box 3, and the longitudinally adjacent gear two 95 are meshed with the gear one 14. The bevel gear one 12 drives the gear one 14 to rotate through the output rod 11, and the gear one 14 rotates. One 14 drives connecting rod 94 to rotate through gear two 95, and connecting rod 94 drives one-third gear 96 to rotate. One of the gears 96 drives the double-sided rack plate 91 to move downward, and the double-sided rack plate 91 drives the support column 93 to move downward through the mounting plate 92, so that the support column 93 contacts the ground through the rubber pad 20, improving the energy efficiency based on new energy technology. The stability of the mobile power distribution device.

Wherein: also include motor 10 and bevel gear 2 13, motor 10 is arranged on the lower side of casing 1 rear wall, bevel gear 2 13 is arranged on the front end of motor 10 output shaft, bevel gear 2 13 and bevel gear 1 12 meshing connection, The input end of the motor 10 is electrically connected with the output end of the single-chip microcomputer 2, and through the regulation and control of the single-chip microcomputer 2, the motor 10 starts to run, and the output shaft of the motor 10 starts to rotate, and the output shaft drives the bevel gear one 12 to rotate through the bevel gear two 13, and the bevel gear one 12 The output rod 11 drives the gear one 14 to rotate to realize the adjustment of the position of the support column 93 .

Wherein: also include post 15, electromagnet 16, spring 17 and plug 18, post 15 is plugged with the jack that fixed box 3 rear wall is provided with respectively, and plug 18 is all arranged on the front end of post 15, and plug The front end of 18 is plugged with one of the tooth grooves of double-sided rack plate 91 rear ends respectively, and electromagnet 16 is arranged on the middle part of jack rear wall, and spring 17 is respectively arranged on the rear wall of fixed box 3 and the rear of plug 18. Between the ends, the spring 17 is sleeved on the outside of the front end of the post 15, the input end of the electromagnet 16 is electrically connected to the output end of the single-chip microcomputer 2, and through the regulation of the single-chip microcomputer 2, the electromagnet 16 starts to run, and the electromagnet 16 passes through the post. 15 drives the plug 18 to move backward, and the spring 17 shrinks, so that the plug 18 is separated from the double-sided rack plate 91. When the support column 93 contacts the ground through the rubber pad 20, the motor 10 and the electromagnet are controlled by the single-chip microcomputer 2. 16 stops running, and spring 17 rebounds, and inserting post 15 drives inserting block 18 to move forward, and inserting block 18 and double-sided rack plate 91 are inserted again, realizes the fixed locking of double-sided rack plate 91.

Among them: rubber pads 20 are also included, and the rubber pads 20 are all arranged at the lower end of the support column 93 to increase the contact area between the support column 93 and the ground.

The working principle of a mobile power distribution device based on new energy technology provided by the utility model is as follows: before use, according to the actual electricity demand for new energy power generation, it is necessary to move the solar panel 6 based on new energy technology to a suitable position When the person pushes the box body 1, the universal wheel 19 starts to rotate. After moving the mobile power distribution device based on new energy technology to a suitable working place, the motor 10 and the electromagnet 16 start to run through the regulation of the single-chip microcomputer 2, and the electromagnetic The iron 16 is energized to generate magnetism, and the post 15 is magnetically adsorbed. The post 15 drives the block 18 to move backward, and the spring 17 shrinks, so that the block 18 is separated from the double-sided rack plate 91. The output shaft of the motor 10 starts to rotate, and the output The shaft drives bevel gear one 12 to rotate through bevel gear two 13, bevel gear one 12 drives gear one 14 to rotate through output rod 11, gear one 14 drives connecting rod 94 to rotate through gear two 95, and connecting rod 94 drives one-third gear 96 Rotate, when the one-third gear 96 on the front side meshes with the front end of the double-sided rack plate 91, the one-third gear 96 on the front side drives the double-sided rack plate 91 to move downward, and the double-sided rack plate 91 passes through The mounting plate 92 drives the support column 93 to move downward, so that the support column 93 contacts the ground through the rubber pad 20 until the bottom surface of the rubber pad 20 is lower than the lowest end of the outer arc surface of the universal wheel 19, thereby the universal wheel 19 is suspended in the air. Improve the stability of the mobile power distribution device based on new energy technology. At this time, through the regulation of the single-chip microcomputer 2, the motor 10 and the electromagnet 16 stop running, the electromagnet 16 loses its magnetic adsorption force when it is powered off, the spring 17 rebounds, and the post 15 Drive the plug-in block 18 to move forward, so that the plug-in block 18 and the double-sided rack plate 91 are re-inserted, and the fixed locking of the double-sided rack plate 91 is realized. Through the regulation of the single-chip microcomputer 2, the solar photovoltaic controller 7 starts to run. The solar panel 6 converts solar radiation into electrical energy by absorbing sunlight, and the solar photovoltaic controller 7 adjusts the power delivered from the solar panel 6 to the storage battery 8 to prevent damage to the storage battery 8 caused by the excessive power of the solar panel 6. Wiring The port 4 is connected with the external interface, and the storage battery 8 provides the stored electric energy to the external equipment through the external interface, which is green and environmentally friendly, thereby realizing the power distribution work based on new energy technology based on solar energy. When the cabinet 1 needs to be moved again, the electromagnet 16 starts Running, the electromagnet 16 is energized to generate magnetism, magnetically adsorbs the plug 15, drives the plug 18 to move backward through the plug 15, and the spring 17 shrinks, so that the plug 18 is separated from the double-sided rack plate 91, and continues to drive the connecting rod 94 to drive The one-third gear 96 on the front side rotates so that the part without teeth of the one-third gear 96 on the front side corresponds to the front end of the double-sided rack plate 91. The whole composed of the double-sided rack plate 91, the mounting plate 92 and the support column 93 slides relative to the fixed box 3, and the center of the box body 1 moves down until the rear third gear 96 has teeth. The rack plate 91 engages and lifts the double-sided rack plate 91 and the support column 93, and finally reaches the bottom surface of the rubber pad 20 higher than the outer arc of the universal wheel 19 The lowest end of the surface, and then move by the bottom rotation support of the universal wheel 19.

It is worth noting that the single chip microcomputer 2 disclosed in the above embodiments can be STM8S207S8T6C, the solar panel 6 can be HP-S425-60S, the solar photovoltaic controller 7 can be MPPT5010, the battery 8 can be GFMD-C, and the motor 10 can be Select 5IK200A-AF, single-chip microcomputer 2 controls electromagnet 16, solar panel 6, solar photovoltaic controller 7, storage battery 8 and motor 10 to work using the methods commonly used in the prior art.

The above descriptions are only examples of the utility model, and are not intended to limit the patent scope of the utility model. Any equivalent structure or equivalent process transformation made by using the utility model specification and accompanying drawings may be directly or indirectly used in other applications. Related technical fields are all included in the patent protection scope of the present utility model in the same way.

Claims (7)

1. The utility model provides a portable distribution device based on new forms of energy technique which characterized in that: comprises a box body (1) and a supporting mechanism (9);

case (1): the solar photovoltaic power generation box is characterized in that an installation column (5) is arranged at the upper end of the box body (1), a solar cell panel (6) is arranged at the upper end of the installation column (5), a partition plate is arranged on the upper side in the box body (1), a solar photovoltaic controller (7) is arranged on the left side of the upper end of the partition plate, a storage battery (8) is arranged on the right side of the upper end of the partition plate, fixed boxes (3) are arranged at the left end and the right end of the box body (1), a wiring port (4) is arranged at the front end of the box body (1), and universal wheels (19) are arranged at four corners of the lower end of the box body (1) respectively;

support mechanism (9): the supporting mechanism (9) is arranged in the fixed box (3) and is respectively connected with a sliding hole arranged at the lower end of the fixed box (3) in a sliding way;

wherein: still include singlechip (2), singlechip (2) its sets up in the front end of box (1), singlechip (2) input is connected with external power supply electricity, the input of solar photovoltaic controller (7) is connected with the output electricity of singlechip (2), the output of solar cell panel (6) is connected with the input electricity of solar photovoltaic controller (7), the output of solar photovoltaic controller (7) is connected with the input electricity of battery (8), the output of battery (8) is connected with the input electricity of wiring mouth (4).

2. A mobile power distribution unit based on new energy technology as claimed in claim 1, characterized in that: supporting mechanism (9) are including two-sided rack board (91), mounting panel (92) and support column (93), support column (93) respectively with the slide opening sliding connection of fixed case (3) lower extreme setting, the upper end of support column (93) all with the lower extreme fixed connection of vertical adjacent mounting panel (92), the upper end of mounting panel (92) all is provided with two-sided rack board (91).

3. A mobile power distribution unit based on new energy technology as claimed in claim 2, wherein: the supporting mechanism (9) further comprises a connecting rod (94), a second gear (95) and a third gear (96), the connecting rod (94) is connected to the inside of the fixed box (3) in a rotating mode through a bearing, the second gear (95) is arranged at one end, close to the box body (1), of the connecting rod (94), the third gear (96) is arranged at one end, far away from the box body (1), of the connecting rod (94), and the two vertically adjacent third gears (96) and the two-sided toothed lath (91) between the two vertically adjacent third gears are installed in a matched mode.

4. A mobile power distribution unit based on new energy technology as claimed in claim 3, characterized in that: still include output rod (11), bevel gear (12) and gear (14), output rod (11) rotate through the bearing and connect in the inside downside of box (1), bevel gear (12) set up in the middle part of output rod (11), gear (14) set up both ends about output rod (11) respectively, gear (14) all are located the inside of fixed case (3), and vertical adjacent gear two (95) all are connected with gear (14) meshing.

5. A mobile power distribution unit based on new energy technology as claimed in claim 4, characterized in that: the motor (10) is arranged on the lower side of the rear wall of the box body (1), the second bevel gear (13) is arranged at the front end of an output shaft of the motor (10), the second bevel gear (13) is meshed with the first bevel gear (12) in a connecting mode, and the input end of the motor (10) is electrically connected with the output end of the single chip microcomputer (2).

6. A mobile power distribution unit based on new energy technology as claimed in claim 2, characterized in that: still include inserted column (15), electro-magnet (16), spring (17) and inserted block (18), inserted column (15) are pegged graft with the jack that fixed case (3) rear wall set up respectively, inserted block (18) all set up in the front end of inserted column (15), the front end of inserted block (18) is pegged graft with one of them tooth's socket of double-sided tooth slat (91) rear end respectively, electro-magnet (16) all set up in the middle part of jack rear wall, spring (17) set up respectively between the rear end of fixed case (3) rear wall and inserted block (18), the outside of inserted column (15) front end is all located in spring (17), the input of electro-magnet (16) is connected with the output electricity of singlechip (2).

7. A mobile power distribution unit based on new energy technology as claimed in claim 2, characterized in that: still include rubber pad (20), rubber pad (20) all set up in the lower extreme of support column (93).

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