CN217789587U - Wind-solar complementary zero-carbon forklift shed - Google Patents

Abstract

The utility model relates to a power supply unit discloses a zero carbon fork truck canopy of scene complementation, including bicycle shed, fan, photovoltaic board and energy memory, the top surface at the bicycle shed is installed to the photovoltaic board, and the fan passes through the fan installing support with the bicycle shed and links to each other to can generate electricity through photovoltaic board and fan, energy memory with photovoltaic board and fan link to each other, in the electric energy that can save photovoltaic board and fan and send and export the electric energy to the charging socket that sets up in the bicycle shed. The utility model discloses an installation photovoltaic board and fan on the bicycle shed, the photovoltaic board can be with solar energy transformation electric energy, can turn into the electric energy with the wind energy through the fan, the electric energy that fan and photovoltaic board obtained can provide the electric energy for the socket that charges in the bicycle shed, in addition, still be equipped with energy storage equipment in this bicycle shed, can store the electric energy that fan and photovoltaic board conversion come through energy storage equipment, and carry out arbitrary domination to the electric energy of storing through energy storage equipment, thereby the convenience and the flexibility of power consumption have been improved.

Description

Wind-solar complementary zero-carbon forklift shed

Technical Field

The utility model relates to a power supply unit specifically, relates to a zero carbon forklift canopy of scene complementation.

Background

The forklift is logistics carrying equipment commonly used in various industries, wherein the electric forklift is large in occupied ratio due to no tail gas emission, silence and no heat source generation, and all battery packs of the electric forklift need to be periodically charged by a special shed to meet the requirements of production, operation and use.

The existing forklift is charged by commercial power, the energy consumption is different in industry proportion, carbon emission carbon transaction can urge more zero-carbon factories and zero-carbon parks along with implementation of a carbon neutralization carbon peak reaching policy in China, enterprises are bound to use energy for cleaning, greening and zero-carbon, and the cost and the pressure drop are required because the traditional commercial power consumption is not a small expenditure for the enterprises.

Therefore, it is necessary to research and develop an intelligent wind-light complementary zero-carbon forklift shed with environmental protection, low carbon, high intelligent program and wide applicability.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the main technical problem that a zero carbon forklift shed of scene complementation is provided, it can realize the bicycle shed from electricity generation and self-power, has reduced electric actuator's power consumption cost.

In order to solve the technical problem, the utility model provides a zero carbon fork truck canopy of scene complementation, including bicycle shed, fan, photovoltaic board and energy storage equipment, the photovoltaic board is installed the top surface of bicycle shed, the fan with the bicycle shed passes through the fan installing support and links to each other, with can pass through the photovoltaic board with the fan generates electricity, energy storage equipment with the photovoltaic board and the fan links to each other, with can save the photovoltaic board with the electric energy and the output that the fan sent the electric energy extremely in the socket that charges that sets up in the bicycle shed.

Preferably, the fan comprises a fan blade and a wind driven generator, and the fan blade is mounted on a rotating shaft of the wind driven generator so as to be capable of driving the wind driven generator to rotate through the rotation of the fan blade to generate power.

Further preferably, the fan is a vertical axis fan or a horizontal axis fan.

Through the cooperation of above-mentioned preferred technical scheme through fan and aerogenerator, can realize wind power generation on the bicycle shed, reduce the consumption of municipal power consumption for the power consumption cost is reduced.

Preferably, the photovoltaic panel is a monocrystalline silicon solar photovoltaic panel, and the photovoltaic panel completely covers the outer surface of the top of the shed. Through this preferred technical scheme, realize solar energy power generation through the photovoltaic board, charge the bicycle shed through another kind of channel, and then reduce the power consumption cost.

Further preferably, the energy storage device comprises an energy storage battery pack and a control module, wherein the energy storage battery pack is connected with the control module so as to control the voltage level of the electric energy input and output by the energy storage battery pack through the control module. Through this preferred technical scheme, control the voltage level of the electric energy of energy storage battery group input and output through control module to can play the effect of regulating voltage, guarantee the power consumption safety of energy storage battery group input and output electric energy, and make the power consumption demand that the energy storage battery group can the different equipment of adaptation.

Preferably, the energy storage device further comprises a protection device, and the protection device is connected with the energy storage battery pack so as to limit charging of excessive electric energy into the energy storage battery pack through the protection device. Through this preferred technical scheme, can control the electric energy of charging in the energy storage battery group through protection device to thereby avoid charging the too much energy that leads to the energy storage battery group impaired in the energy storage battery group, influence the life of energy storage battery group.

Further preferably, the energy storage device further includes an output interface for connecting the charging socket, and a power transmission device for outputting electric energy to the outside of the carport, and both the output interface and the power transmission device are connected to the energy storage battery pack, so that electric energy in the energy storage battery pack can be shunted through the output interface and the power transmission device. Through this preferred technical scheme, through set up the output interface who is exclusively used in for charging socket in energy storage battery group, still be equipped with the power transmission device that can export electric energy outside the bicycle shed, can utilize the abundant electric energy in the energy storage battery group through power transmission device to this utilization ratio that improves the electric energy in the energy storage battery group.

Preferably, the end of the fan is further provided with a fan lightning protection system, and the fan lightning protection system is suitable for preventing the fan from being struck by lightning. Through this preferred technical scheme, adopt the lightning-arrest system of fan to avoid the fan to be struck by lightning to reduce the impaired probability of fan, improved the life of fan.

Further preferably, the fan mounting support is of a triangular support structure, the fan mounting support is arranged at four corners of the top of the car shed, and the fan mounting support is symmetrically arranged on two sides of the car shed.

Preferably, the wind power generator is detachably mounted on the fan mounting bracket through a generator mounting base.

Through the technical scheme, the utility model discloses a zero carbon fork truck canopy of scene complementation is through installing photovoltaic board and fan on the bicycle shed, can turn into the electric energy with solar energy through the photovoltaic board, can turn into the electric energy with wind energy through the fan, the electric energy that obtains through fan and photovoltaic board can provide the electric energy for the socket that charges in the bicycle shed, and the electric energy that provides is the clean energy of low carbon environmental protection, can not improve the consumption of municipal power consumption, in addition, the electric energy cost that obtains through fan and photovoltaic board is lower, in addition, still be equipped with energy storage equipment in this bicycle shed, can store the electric energy that fan and photovoltaic board conversion come through energy storage equipment, and can carry out arbitrary domination to the electric energy of storage through energy storage equipment, thereby the convenience and the flexibility of power consumption have been improved.

Further advantages of the invention, as well as the technical effects of preferred embodiments, will be further explained in the following detailed description.

Drawings

Fig. 1 is a schematic structural diagram of the wind-solar complementary zero-carbon forklift shed of the present invention.

Description of the reference numerals

1. Fan 11 blade

12. Generator installation base of wind driven generator 13

14. 2 photovoltaic panels of fan lightning protection system

3. Fan installing support 4 carport

41. Shed rolling door 5 forklift

6. Operating button of energy storage device 61

62. Display unit 63 charging socket

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings. It is to be understood that the description of the embodiments herein is for purposes of illustration and explanation only and is not intended to limit the invention.

It should be noted that, unless expressly stated or limited otherwise, the terms "disposed" and "connected" are to be construed broadly and include, for example, fixed or removable connections or integral connections; either directly or indirectly through intervening media, either internally or in any combination thereof. The specific meaning of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

The utility model provides an embodiment of 5 canopy 4 of zero carbon fork truck of scene complementation, as shown in figure 1, including bicycle shed 4, fan 1, photovoltaic board 2 and energy storage equipment 6, the top surface at bicycle shed 4 is installed to photovoltaic board 2, and fan 1 passes through fan installing support 3 with bicycle shed 4 and links to each other to can generate electricity through photovoltaic board 2 and fan 1, and energy storage equipment 6 links to each other with photovoltaic board 2 and fan 1, in the socket 63 that charges that sets up in with the electric energy that can save photovoltaic board 2 and fan 1 and export electric energy to bicycle shed 4. Wherein, the size of bicycle shed 4 is decided according to the size of the forklift truck 5 and the number of the forklift trucks 5 that can hold, when the used forklift truck 5 is large in size or large in number, the bicycle shed 4 needs to be set to be large, so as to ensure that the forklift truck 5 with large size can smoothly enter the bicycle shed 4, and the building type of the built bicycle shed 4 can avoid the forklift truck 5 parked therein from being drenched by rain, and the bicycle shed 4 is also provided with a bicycle shed rolling door 41, so that the wind and rain prevention effect can be further played through the bicycle shed rolling door 41. In addition, fan 1 and photovoltaic board 2 all set up the top at bicycle shed 4, because the setting of bicycle shed 4 is mainly outdoor setting to the place that sets up is spacious place outdoors, consequently, in spacious place, can guarantee photovoltaic board 2 and set up photovoltaic board 2 and can guarantee that photovoltaic board 2 turns into the electric energy with solar energy as far as at the top of bicycle shed 4, thereby guaranteed the high-efficient work of photovoltaic board 2 on bicycle shed 4. And, also set up fan 1 at the top of bicycle shed 4 for fan 1 can more efficient operation equally, it is higher through the position that sets up fan 1, when fan 1 is in the eminence, it can not receive the wall when receiving wind energy, sheltering from of stone etc., thereby guaranteed the efficiency that fan 1 received wind energy, and set up fan 1 in the eminence, in-process when fan 1 is moving, fan 1 is difficult to receive workplace's interference, for example, be difficult to touched by workplace's stone, silt etc. and touch, thereby lead to fan 1 to produce the emergence of unfavorable condition such as blade 11 stagnation in the operation process.

Specifically, the fan 1 comprises a fan blade 11 and a wind driven generator 12, the fan blade 11 is mounted on a rotating shaft of the wind driven generator 12, and the rotation of the fan blade 11 can drive the fan 1 to rotate to generate power. The wind driven generator 12 is a weather-resistant maintenance-free permanent magnet generator, and the protection grade of the generator is IP65 or above, so as to ensure the stability of the generator in the operation process.

In order to ensure the power generation efficiency of the fan 1, the type and the number of the fan blades 11 on the fan 1 need to be configured appropriately, wherein the type of the blades 11 of the fan 1, the type of the fan 1, the number needed to be set, and the like need to be determined according to the ambient wind conditions of the carport 4, the fan 1 can be mainly set as a vertical axis fan 1 or a horizontal axis fan 1, wherein the rated rotation speed of the small horizontal axis fan 1 is generally 500-800r/min, the rotation speed of the small horizontal axis fan 1 is high, the generated noise is large, the wind speed after starting is generally 3-5m/s, the noise is high, the fault is frequent and dangerous, and therefore the fan is not suitable for being installed in places where people live or pass through, the rated rotation speed of the small vertical axis fan 1 is generally 60-200r/min, the rotation speed of the vertical axis fan 1 is low, the generated noise is small and can be ignored almost, the wind speed for starting the small vertical axis fan 1 is generally 1.6-4m/s, and the wind speed of the fan 1 is greatly improved in the wind speed, and the advantages of the fan 1 can be installed in places where people live and the generator can be used. The maximum wind energy utilization of the vertical axis fan 1 is 0.16, the maximum wind energy utilization of the horizontal axis fan 1 is 0.593, when the carport 4 is in a relatively open environment, the external wind which can be received by the fan 1 can not be shielded by other objects, so that the fan 1 can smoothly operate, at the moment, in order to improve the wind energy utilization of the fan 1, the number of the blades 11 of the fan 1 is preferably three, and at the moment, the wind energy utilization of the fan 1 can reach a limit value under an ideal state.

More specifically, a fan lightning protection system 14 is further disposed on the top of the fan 1, the fan lightning protection system 14 may be a lightning rod, in thunderstorm weather, due to the high installation height of the fan 1, the fan is more easily struck by lightning in such weather, in order to prevent the fan 1 from being damaged by accidental lightning, therefore, the fan lightning protection system 14 can collect most of the charges at the tip end thereof in thunderstorm weather, the fan lightning protection system 14 forms a capacitor with the charged cloud layers, because the end of the fan lightning protection system 14 is the tip end, that is, the facing area of the two pole plates of the formed capacitor is very small, the capacitor is very small, that is, the charges that can be accommodated by the capacitor are very small, and most of the charges are collected at the tip end of the fan lightning protection system 14, therefore, after the fan lightning protection system 14 is grounded, the fan lightning falling into the top of the fan 1 can be conducted to the ground, so that even if the lightning damages the fan 1, the normal operation of the fan 1 is affected, and the service life and the use safety of the fan 1 are ensured.

In order to install fan 1 at the top of bicycle shed 4 steadily, the triangular support structure is chooseed for use to fan installing support 3, because the triangular support structure is comparatively stable, consequently adopt the weight of bearing fan 1 that the triangular support structure can bigger degree, through setting up fan installing support 3 in 4 top four corners of bicycle shed to fan installing support 3 symmetry is installed in the both sides of bicycle shed 4. In addition, according to the setting of fan installing support 3, not be limited to setting up fan 1 and fan installing support 3 in bicycle shed 4 both sides, also can set up fan installing support 3 around bicycle shed 4 to realize the multi-angle at fan 1, diversified installation. When fan 1 is installed on fan installing support 3, because blade 11 of fan 1 links to each other with aerogenerator 12's transmission shaft, therefore, aerogenerator 12 passes through generator installation base 13 detachable and installs on fan installing support 3, and not only aerogenerator 12 base can be dismantled with fan installing support 3 and be connected, aerogenerator 12 can dismantle with aerogenerator 12 base equally and be connected, and fan installing support 3 also detachable of being connected of bicycle shed 4 support links to each other, therefore, can realize 1 modular quick dismantlement of fan and installation through detachable connected mode, the convenience of installation has been improved, the installation effectiveness has been guaranteed.

Specifically, the photovoltaic panel 2 is a single crystalline silicon solar photovoltaic panel 2, and the photovoltaic panel 2 is covered on the top surface of the car shed 4, the number of the photovoltaic panels 2, the power generation power and the like are determined according to the total power of the electric load of the forklift 5, when the power consumption required by the forklift 5 is large, the photovoltaic panel 2 can be adopted to completely cover the top surface of the car shed 4 at the moment, so that higher power generation power is obtained, and in addition, the power generation capacity of the photovoltaic panels 2 in the same number can be improved by improving the power generation power of the photovoltaic panels 2.

The utility model provides an embodiment of zero carbon fork truck canopy 4 of scene complementation still is equipped with energy storage equipment 6 in this bicycle shed 4, and energy storage equipment 6 includes energy storage battery group and control module, and energy storage battery group and control module link to each other, can control the voltage level of the input of energy storage battery group and the electric energy of output through control module. Because the electric energy that the energy storage group battery can be stored is limited, after the energy storage group battery reaches its storage limit, and there is not fork truck 5 here to use the electric energy of storage in the energy storage group battery, therefore, if fan 1 or photovoltaic board 2 continue to input electric energy in the energy storage group battery, then can lead to the electric energy of input storage in the energy storage group battery too high, and consequently lead to the temperature rise in the energy storage group battery, can lead to the energy storage group battery impaired when serious. Therefore, in order to avoid the electric energy in the energy storage battery pack to be too high, a protection device needs to be arranged in the energy storage equipment 6, the protection device is connected with the energy storage battery pack, the protection device can monitor the charging energy in the energy storage battery pack at the moment, a threshold value is arranged in the protection device, after the storage energy in the energy storage battery pack exceeds the threshold value set by the protection device, the protection device is started, the stored electric quantity in the energy storage battery pack can be prevented from being further promoted through the protection device, the energy storage battery pack is prevented from being charged to cause interference, and the possibility of damage of the energy storage battery pack is reduced.

Specifically, the regulation of the input and output voltages in the energy storage battery pack needs to be determined according to the type and condition of the connected engineering machine, and the control module can regulate the rated voltage output in the energy storage battery pack according to the charging voltages required by different machines so as to adapt to the voltage grade finally charged in the engineering machine.

More specifically, energy storage equipment 6 is equipped with the output interface that the socket 63 that charges that is used for charging with fork truck 5 links to each other in bicycle shed 4 on the one hand, on the other hand still is equipped with the power transmission unit that can export electric energy outside bicycle shed 4, wherein, output interface and power transmission unit all link to each other with the energy storage battery group, therefore, under the condition that the energy storage battery group can supply with fork truck 5 power consumption completely, can export the surplus electric quantity in the energy storage battery group to other equipment that need carry out the power supply through power transmission unit to this realizes the reposition of redundant personnel to the electric energy of storing in the energy storage battery group, avoid the electric energy surplus in the energy storage battery group, thereby arouse the life of energy storage battery group. Certainly, surplus batteries in the energy storage battery pack can be applied to engineering machinery in the energy storage battery pack, and surplus electric energy can be sold to the outside, so that the use cost of the whole equipment is subsidized, and the electric energy in the energy storage battery pack is fully utilized.

Specifically, in order to further ensure the safety of the energy storage device 6, therefore, an operation button 61 capable of powering off the energy storage device 6 in an emergency and starting and stopping the system is further arranged on the energy storage device 6, and when an emergency occurs, the energy storage device 6 can be powered off in an emergency or the system can be started and stopped by pressing the corresponding operation control button. In addition, the energy storage device 6 is further provided with a display unit 62, the display unit 62 is embedded in the outer surface of the energy storage device 6, various states of the energy storage battery in the energy storage device 6, such as the battery capacity, the output voltage or the input voltage, can be displayed through the display unit 62, and the display unit 62 not only can monitor various states in the energy storage battery in real time, but also can control the operation of the energy storage device 6, including but not limited to controlling the output voltage, limiting the continuous input of electric energy or the output of electric energy. Therefore, the energy storage device 6 can be controlled through the display unit 62, so that human-computer interaction of the energy storage device 6 is realized, and the energy storage device 6 is more intelligent.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited thereto. In the technical idea scope of the present invention, it is possible to provide the technical solution of the present invention with a plurality of simple modifications, including combining each specific technical feature in any suitable manner, and in order to avoid unnecessary repetition, the present invention does not provide additional description for various possible combinations. However, these simple modifications and combinations should also be considered as disclosed in the present invention, and all fall within the scope of protection of the present invention.

Claims (10)

1. The utility model provides a zero carbon forklift shed of scene complementation, its characterized in that, includes bicycle shed (4), fan (1), photovoltaic board (2) and energy storage equipment (6), photovoltaic board (2) are installed the top surface of bicycle shed (4), fan (1) with bicycle shed (4) link to each other through fan installing support (3) to can pass through photovoltaic board (2) with fan (1) generate electricity, energy storage equipment (6) with photovoltaic board (2) and fan (1) link to each other, in order to can save photovoltaic board (2) with the electric energy that fan (1) sent and export the electric energy to in the charging socket (63) that sets up in bicycle shed (4).

2. The wind-solar complementary zero-carbon forklift shed according to claim 1, wherein the fan (1) comprises a fan blade (11) and a wind driven generator (12), and the fan blade (11) is mounted on a rotating shaft of the wind driven generator (12) so as to be capable of rotating the wind driven generator (12) to generate electricity through rotation of the fan blade (11).

3. The wind-solar complementary zero-carbon forklift shed according to claim 2, characterized in that the fan (1) is a vertical axis fan or a horizontal axis fan.

4. The wind-solar complementary zero-carbon forklift shed according to claim 1, characterized in that the photovoltaic panel (2) is a single crystalline silicon solar photovoltaic panel, the photovoltaic panel (2) completely covering the top outer surface of the shed (4).

5. The wind-solar hybrid zero-carbon forklift shed according to claim 1, wherein the energy storage device (6) comprises an energy storage battery pack and a control module, the energy storage battery pack being connected to the control module so as to be capable of controlling the voltage level of the electric energy input and output by the energy storage battery pack through the control module.

6. The wind-solar hybrid zero-carbon forklift shed according to claim 5, wherein the energy storage device (6) further comprises a protection device connected to the energy storage battery pack to limit charging of excess electrical energy into the energy storage battery pack by the protection device.

7. The wind-solar hybrid zero-carbon forklift shed according to claim 5, wherein the energy storage device (6) further comprises an output interface for connecting to the charging socket, and a power transmission device for outputting electrical energy to the outside of the shed, the output interface and the power transmission device being connected to the energy storage battery pack so as to be able to shunt electrical energy in the energy storage battery pack through the output interface and the power transmission device.

8. The wind-solar complementary zero-carbon forklift shed according to any one of claims 1 to 7, characterized in that the end of the wind turbine (1) is further provided with a wind turbine lightning protection system (14), the wind turbine lightning protection system (14) being adapted to avoid lightning strikes to the wind turbine (1).

9. The wind-solar complementary zero-carbon forklift shed according to any one of claims 1 to 7, wherein the fan mounting brackets (3) are of a triangular bracket structure, the fan mounting brackets (3) are arranged at four corners of the top of the shed (4), and the fan mounting brackets (3) are symmetrically arranged at two sides of the shed (4).

10. The wind-solar complementary zero-carbon forklift shed according to claim 2, wherein the wind-driven generator (12) is detachably mounted on the fan mounting bracket (3) by a generator mounting base (13).

Images