CN210706948U

CN210706948U - Energy-saving charging cabinet

Info

Publication number: CN210706948U
Application number: CN201921063133.8U
Authority: CN
Inventors: 胡雄杰; 郑珍; 林和兵; 曾维兴; 张德秀; 黄建伟
Original assignee: Guangdong Huali Electric Co ltd
Current assignee: Guangdong Huali Electric Co ltd
Priority date: 2019-07-09
Filing date: 2019-07-09
Publication date: 2020-06-09
Anticipated expiration: 2029-07-09

Abstract

The utility model discloses an energy-saving charging cabinet, which comprises a charging cabinet body and a charging gun; the charging cabinet body comprises a first cavity, a second cavity and a cover plate; a control module is arranged in the first cavity; the bottom of the first chamber is provided with a geothermal energy conversion module; a power supply module, a current transformer and a solar energy conversion module are arranged in the second chamber; the top of the cover plate is provided with a wind energy conversion module; the wind energy conversion module, the solar energy conversion module and the geothermal energy conversion module are all electrically connected with the converter; the converter and the control module are electrically connected with the power supply module; the charging gun is electrically connected with the control module; the inside both sides of second cavity all are provided with the holding tank, and solar energy conversion module is including setting up the L template on the holding tank respectively and establishing the photovoltaic board on the L template to one side. The utility model discloses, make full use of clean energy solar energy, wind energy and geothermal energy, reduced the load requirement of the cabinet that charges to the electric wire netting, help the extensive construction of the cabinet that charges, and energy-concerving and environment-protective.

Description

Energy-saving charging cabinet

Technical Field

The utility model relates to a battery charging outfit technical field specifically is an energy-conserving cabinet that charges.

Background

The new energy automobile is a vehicle which uses vehicle-mounted direct current and drives wheels by a motor to run and meets various requirements of road traffic and safety regulations. Because the influence on the environment is smaller than that of the traditional automobile, the prospect is widely seen, the novel energy strategy requirement is met, and the new energy automobile can not be provided with a charging cabinet.

The defects of the existing charging device are as follows: the existing charging cabinet is supplied with power through commercial power, the power consumption is large, energy conservation and environmental protection are insufficient, and the construction of the charging cabinet is limited due to the fact that the construction of charging infrastructures in China is not perfect, the foundation of a power distribution network is weak, and the electric energy is not sufficient.

SUMMERY OF THE UTILITY MODEL

In order to overcome the technical problems in the prior art, after careful analysis and research, the inventor provides an energy-saving charging cabinet, which makes full use of clean energy sources such as solar energy, wind energy and geothermal energy, reduces the load requirement of the charging cabinet on a power grid, is beneficial to large-scale construction of the charging cabinet, and is energy-saving and environment-friendly.

In order to solve the above problem, the utility model discloses realize according to following technical scheme:

an energy-saving charging cabinet comprises a charging cabinet body and a charging gun connected with the charging cabinet body; the charging cabinet body comprises a first cavity arranged on the ground, a second cavity arranged above the first cavity, and a cover plate arranged above the second cavity; the charging gun is connected with the first chamber;

a control module is arranged in the first cavity; a placing groove is arranged above the joint of the first cavity and the charging gun; the bottom of the first chamber is provided with a geothermal energy conversion module; a power supply module, a current transformer and a solar energy conversion module are arranged in the second chamber; the top of the cover plate is provided with a wind energy conversion module; the wind energy conversion module, the solar energy conversion module and the geothermal energy conversion module are all electrically connected with the converter; the converter and the control module are electrically connected with the power supply module; the charging gun is electrically connected with the control module;

accommodating grooves are formed in two sides of the inner part of the second chamber, a communicated first limiting groove is transversely formed below the two accommodating grooves, and the first limiting groove is located in the bottom of the second chamber; a first motor is arranged in the middle of the first limiting groove, first screw rods are respectively arranged on two sides of the first motor, and one end of each first screw rod, which is far away from the first motor, extends into the first limiting groove; the solar energy conversion module comprises L-shaped plates and photovoltaic plates, wherein the L-shaped plates are respectively arranged on the accommodating grooves, and the photovoltaic plates are obliquely arranged on the L-shaped plates; a first limiting block is arranged at the bottom of the L-shaped plate, is arranged in the first limiting groove and is in threaded connection with the first screw; the first motor is electrically connected with the control module.

Furthermore, second limiting grooves are vertically formed in two sides of the second chamber, a second motor is arranged at the top of the second limiting groove, and a second screw rod is connected below the second motor; the upper parts of two sides of the second cavity are provided with baffle plates, one side of the baffle plate, which is connected with the second cavity, is provided with a second limiting block, and the second limiting block is arranged in the second limiting groove and is in threaded connection with the second screw; the second motor is electrically connected with the control module. The baffle with structure setting between the second cavity, when being in adverse circumstances, the baffle can slide downwards to with the opening of holding tank shelters from, prevents that the photovoltaic board receives the damage, has increased the life of photovoltaic board.

Furthermore, two sides of the bottom of the cover plate are provided with first locking grooves corresponding to the baffle plates; when the baffle plate is positioned at the upper part of the second chamber, the top end of the baffle plate is fixed through the first locking groove.

Furthermore, two sides of the bottom of the second chamber are provided with fixing plates, and second locking grooves are formed in the fixing plates corresponding to the baffle plates; when the baffle plate is positioned at the lower part of the second chamber, the bottom end of the baffle plate is fixed through the second locking groove.

Further, a heat dissipation module is arranged in the charging cabinet body; the heat dissipation module comprises fans respectively arranged at the bottom of the cover plate and the inner bottom of the first cavity and temperature sensors arranged at two sides in the first cavity; the fan and the temperature sensor are electrically connected with the control module. When the temperature sensor detects that the temperature in the charging cabinet body is too high, the fan is started through the control module to dissipate heat inside the charging cabinet body.

Furthermore, an LED lamp is arranged below the cover plate and positioned outside the second chamber, and the LED lamp is electrically connected with the control module. And at night, the LED lamp can be turned on by the control module to illuminate.

Further, the control module is electrically connected with a display screen, and the display screen is arranged on the outer side of the first chamber; the power consumption condition can be observed through the display screen.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses an energy-saving charging cabinet, which respectively generates electric energy by geothermal energy, solar energy and wind energy through a geothermal energy conversion module, a solar energy conversion module and a wind energy conversion module, converts the electric energy into direct current through a converter and stores the direct current in a power module for use; through setting up first spacing groove in solar energy conversion module below, set up first motor and first screw rod in first spacing inslot for solar energy conversion module can take in the holding tank under adverse circumstances, has prolonged the life of photovoltaic board. The utility model discloses, make full use of clean energy solar energy, wind energy and geothermal energy, reduced the load requirement of the cabinet that charges to the electric wire netting, help the extensive construction of the cabinet that charges, and energy-concerving and environment-protective.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic view of an internal structure of an energy-saving charging cabinet according to the present invention;

fig. 2 is a schematic view illustrating the connection between the solar energy conversion module, the baffle plate, the cover plate and the second cavity according to the present invention;

fig. 3 is a block diagram of an electrical connection of an energy-saving charging cabinet according to the present invention;

fig. 4 is a working state diagram of the photovoltaic panel of the energy-saving charging cabinet of the present invention;

fig. 5 is the closing state diagram of the photovoltaic panel of the energy-saving charging cabinet.

Wherein, 1, a first chamber; 11. a control module; 12. a placement groove; 13. a geothermal energy conversion module; 14. a display screen; 2. a second chamber; 21. a power supply module; 22. a current transformer; 23. a solar energy conversion module; 231. an L-shaped plate; 232. a photovoltaic panel; 233. a first stopper; 24. accommodating grooves; 25. a first limit groove; 251. a first motor; 252. a first screw; 26. a baffle plate; 261. a second limiting block; 27. a second limit groove; 271. a second motor; 272. a second screw; 28. a fixing plate; 281. a second locking groove; 3. a cover plate; 31. a wind energy conversion module; 32. a first locking groove; 33. an LED lamp; 4. a charging gun; 5. a heat dissipation module; 51. a fan; 52. a temperature sensor.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings.

Fig. 1 to 5 show an energy-saving charging cabinet, which comprises a charging cabinet body and a charging gun 4 connected with the charging cabinet body; the charging cabinet body comprises a first cavity 1 arranged on the ground, a second cavity 2 arranged above the first cavity 1 and a cover plate 3 arranged above the second cavity 2; the charging gun 4 is connected with the first chamber 1;

a control module 11 is arranged in the first chamber 1; a placing groove 12 is arranged above the joint of the first chamber 1 and the charging gun 4; the bottom of the first chamber 1 is provided with a geothermal energy conversion module 13; a power module 21, a current transformer 22 and a solar energy conversion module 23 are arranged in the second chamber 2; the top of the cover plate 3 is provided with a wind energy conversion module 31; the wind energy conversion module 31, the solar energy conversion module 23 and the geothermal energy conversion module 13 are all electrically connected with the converter 22; the converter 22 and the control module 11 are both electrically connected with the power module 21; the charging gun 4 is electrically connected with the control module 11;

accommodating grooves 24 are formed in two sides of the interior of the second chamber 2, a communicated first limiting groove 25 is transversely formed below the two accommodating grooves 24, and the first limiting groove 25 is located at the bottom of the interior of the second chamber 2; a first motor 251 is arranged in the middle of the first limiting groove 25, first screw rods 252 are respectively arranged on two sides of the first motor 251, and one end of each first screw rod 252, which deviates from the first motor 251, extends into the first limiting groove 25; the solar energy conversion module 23 comprises L-shaped plates 231 respectively arranged on the accommodating grooves 24 and photovoltaic plates 232 obliquely arranged on the L-shaped plates 231; the bottom of the L-shaped plate 231 is provided with a first limit block 233, and the first limit block 233 is arranged in the first limit groove 25 and is in threaded connection with the first screw 252; the first motor 251 is electrically connected to the control module 11.

As an embodiment, the two sides of the second chamber 2 are vertically provided with second limiting grooves 27, the inner top of the second limiting groove 27 is provided with a second motor 271, and a second screw 272 is connected below the second motor 271; the upper parts of the two sides of the second chamber 2 are provided with the baffle 26, one side of the baffle 26 connected with the second chamber 2 is provided with a second limiting block 261, and the second limiting block 261 is arranged in the second limiting groove 27 and is in threaded connection with the second screw 272; the second motor 271 is electrically connected to the control module 11. Baffle 26 and second cavity 2 are between the structure setting, and when being in adverse circumstances, baffle 26 can slide downwards to shelter from the opening of holding tank 24, prevent that photovoltaic board 232 from receiving the damage, increased photovoltaic board 232's life.

In the above embodiment, the two sides of the bottom of the cover plate 3 are provided with the first locking grooves 32 corresponding to the baffle plates 26; when the baffle 26 is located at the upper portion of the second chamber 2, the top end of the baffle 26 is fixed by the first locking groove 32.

In the above embodiment, the fixing plates 28 are disposed on both sides of the bottom of the second chamber 2, and the fixing plates 28 are provided with the second locking grooves 281 corresponding to the baffle plates 26; when the baffle plate 26 is located at the lower portion of the second chamber 2, the bottom end of the baffle plate 26 is fixed by the second locking groove 281.

In the above embodiment, the charging cabinet body is further provided with a heat dissipation module 5; the heat dissipation module 5 comprises a fan 51 respectively arranged at the bottom of the cover plate 3 and the inner bottom of the first chamber 1, and temperature sensors 52 arranged at two sides inside the first chamber 1; the fan 51 and the temperature sensor 52 are both electrically connected to the control module 11. When the temperature sensor 52 detects that the temperature in the charging cabinet body is too high, the fan 51 is turned on by the control module 11 to dissipate heat inside the charging cabinet body.

In the above embodiment, the LED lamp 33 is further disposed below the cover plate 3 outside the second chamber 2, and the LED lamp 33 is electrically connected to the control module 11. At night, the LED lamp 33 can be turned on by the control module 11 for illumination.

In the above embodiment, the control module 11 is further electrically connected with a display screen 14, and the display screen 14 is arranged outside the first chamber 1; the power usage can be observed via the display screen 14.

Energy-conserving cabinet that charges's theory of operation: the electric energy generated by the geothermal energy conversion module 13, the solar energy conversion module 23 and the wind energy conversion module 31 is converted into direct current through the converter 22 and stored in the power supply module 21, the control module 11 controls the charging gun 4 to be started to charge the new energy automobile, and after the charging is finished, the control module 11 controls the charging gun 4 to be closed; when the temperature sensor 52 detects that the temperature in the charging cabinet body is too high, the control module 11 controls the fan 51 to be started for heat dissipation; when the solar energy conversion module is in a severe environment, the control module 11 controls the first motor 251 to be started, the solar energy conversion module 23 is received in the accommodating groove 24, and then the control module 11 controls the second motor 271 to be started, and the baffle 26 is moved downwards to shield the opening of the accommodating groove 24.

While the preferred embodiments of the present invention have been described, the present invention is not limited to the above embodiments, and those skilled in the art can make various equivalent modifications or substitutions without departing from the spirit of the present invention, and such equivalent modifications or substitutions are intended to be included within the scope of the present invention as defined by the appended claims.

Claims

1. An energy-saving charging cabinet comprises a charging cabinet body and a charging gun connected with the charging cabinet body; the method is characterized in that: the charging cabinet body comprises a first cavity arranged on the ground, a second cavity arranged above the first cavity, and a cover plate arranged above the second cavity; the charging gun is connected with the first chamber;

2. The energy-saving charging cabinet according to claim 1, wherein: second limiting grooves are vertically formed in two sides of the second chamber, a second motor is arranged at the top of the second limiting groove, and a second screw rod is connected below the second motor; the upper parts of two sides of the second cavity are provided with baffle plates, one side of the baffle plate, which is connected with the second cavity, is provided with a second limiting block, and the second limiting block is arranged in the second limiting groove and is in threaded connection with the second screw; the second motor is electrically connected with the control module.

3. The energy-saving charging cabinet according to claim 2, wherein: and first locking grooves are formed in the two sides of the bottom of the cover plate corresponding to the baffle plates.

4. The energy-saving charging cabinet according to claim 3, wherein: and fixing plates are arranged on two sides of the bottom of the second cavity, and second locking grooves are formed in the fixing plates corresponding to the baffle plates.

5. The energy-saving charging cabinet according to any one of claims 1 to 4, wherein: a heat dissipation module is also arranged in the charging cabinet body; the heat dissipation module comprises fans respectively arranged at the bottom of the cover plate and the inner bottom of the first cavity and temperature sensors arranged at two sides in the first cavity; the fan and the temperature sensor are electrically connected with the control module.

6. The energy-saving charging cabinet according to any one of claims 1 to 4, wherein: and an LED lamp is also arranged below the cover plate and positioned outside the second chamber, and the LED lamp is electrically connected with the control module.

7. The energy-saving charging cabinet according to any one of claims 1 to 4, wherein: the control module is also electrically connected with a display screen, and the display screen is arranged on the outer side of the first cavity.