CN214281008U - Energy optimization management system based on building information model - Google Patents

Abstract

The utility model discloses an energy optimization management system based on building information model, including power module, power module's output difference electric connection has conventional power module and photovoltaic power generation module, power module's output electric connection has photovoltaic power generation module, photovoltaic power generation module's output electric connection has battery power module, and battery power module's output electric connection has power conversion module, power conversion module's output electric connection has the infrared ray induction module, and the output electric connection of infrared ray induction module has signal emission module. In the energy optimization management system based on the building information model, under the double power supply mode of the photovoltaic power generation module and the conventional power supply module, the power supply conversion module is matched to circularly switch the power supply mode according to the actual electric quantity consumption degree, so that the energy consumption of the system during working is reduced, and the practicability of the system is effectively improved.

Description

Energy optimization management system based on building information model

Technical Field

The utility model relates to a building information model correlation technique field specifically is an energy optimization management system based on building information model.

Background

The building information model is a new tool for architecture, engineering and civil engineering, which is a computer aided design mainly based on three-dimensional graphics, object guide and architecture, has been widely recognized in the world, can help to realize the integration of building information, and all kinds of information are always integrated in a three-dimensional model information database from the design, construction and operation of a building to the end of the whole life cycle of the building, and personnel of a design team, a construction unit, a facility operation department, an owner and the like can perform cooperative work, thereby effectively improving the working efficiency, saving resources, reducing the cost and realizing sustainable development.

However, in the currently used energy optimization management system based on the building information model, the equipment is in a power supply state for a long time, the durability is low, the energy-saving effect is poor, the power supply capacity is single, and emergency power supply cannot be performed under the condition that an external power supply is powered off.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an energy optimization management system based on building information model to solve the energy optimization management system based on building information model of present use who proposes in the above-mentioned background art, equipment is in power supply state for a long time, and the durability is low, and energy-conserving effect is not good, and the power supply capacity is single, can't carry out the problem of emergent power supply under the external power supply outage condition.

In order to achieve the above object, the utility model provides a following technical scheme: an energy optimization management system based on a building information model comprises a power supply module, wherein the output end of the power supply module is respectively and electrically connected with a conventional power supply module and a photovoltaic power generation module, the output end of the power supply module is electrically connected with a photovoltaic power generation module, the output end of the photovoltaic power generation module is electrically connected with a storage battery power supply module, the output end of the storage battery power supply module is electrically connected with a power supply conversion module, the output end of the power supply conversion module is electrically connected with an infrared sensing module, the output end of the infrared sensing module is electrically connected with a signal transmitting module, the output end of the signal transmitting module is electrically connected with a signal receiving module, the output end of the signal receiving module is electrically connected with a central processing module, the output end of the central processing module is electrically connected with a system power supply module, and the output end of the system power supply module is respectively and electrically connected with the illuminating lamp module and the display screen module.

Preferably, the power module is arranged in a bidirectional transmission mode, and the power module, the conventional power supply module and the photovoltaic power generation module form an electric parallel structure.

Preferably, the storage battery power supply module comprises a low-power alarm unit, a charging prompt unit and a power monitoring unit, wherein the output end of the low-power alarm unit is electrically connected with the charging prompt unit, and the output end of the charging prompt unit is electrically connected with the power monitoring unit.

Preferably, the power conversion module includes an electric quantity identification unit, a power consumption counting unit and an intelligent distribution unit, and an output end of the electric quantity identification unit is electrically connected with the power consumption counting unit, and an output end of the power consumption counting unit is electrically connected with the intelligent distribution unit.

Preferably, the lighting color of the lighting lamp module is white, the lighting brightness is adjustable, and the lighting lamp module is electrically connected with the system power supply module.

Preferably, the system power supply module and the infrared sensing module are arranged in a reciprocating manner, and the system power supply module and the infrared sensing module form an electrical series connection structure.

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

1. in the energy optimization management system based on the building information model, the power supply mode is circularly switched according to the actual electric quantity consumption degree by matching the power supply conversion module under the double power supply mode of the photovoltaic power generation module and the conventional power supply module, so that the energy consumption of the system during working is reduced, and the practicability of the system is effectively improved;

2. in the energy optimization management system based on the building information model, through the arrangement of the storage battery power supply module, the storage battery power supply module can be matched with the photovoltaic power generation module to store the electric quantity collected in the dormant state of the system, and when an external power supply cannot supply power, the storage battery power supply module can supply power emergently to ensure the normal operation of the system;

3. in the energy optimization management system based on the building information model, through the arrangement of the infrared sensing module, the signal transmitting module and the signal receiving module, the signal transmitting module can be controlled to transmit sensing signals to a certain range through the infrared sensing module, when personnel enter the sensing signal range, the signal receiving module receives feedback to transmit information to the central processing module, and then the central processing module starts the system power supply module to supply power to the illuminating lamp module and the display screen module to start working.

Drawings

FIG. 1 is a schematic view of the overall flow of the system of the present invention;

FIG. 2 is a schematic flow chart of the battery power supply module of the present invention;

fig. 3 is a schematic diagram of the power conversion module of the present invention.

In the figure: 1. a power supply module; 2. a conventional power supply module; 3. a photovoltaic power generation module; 4. a storage battery power supply module; 401. a low power alarm unit; 402. a charging prompting unit; 403. an electric quantity monitoring unit; 5. a power conversion module; 501. an electric quantity identification unit; 502. a power consumption counting unit; 503. an intelligent distribution unit; 6. an infrared sensing module; 7. a signal transmitting module; 8. a signal receiving module; 9. a central processing module; 10. a system power supply module; 11. an illumination lamp module; 12. and a display screen module.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1-3, the present invention provides a technical solution: an energy optimization management system based on a building information model comprises a power supply module 1, wherein the output end of the power supply module 1 is respectively and electrically connected with a conventional power supply module 2 and a photovoltaic power generation module 3, the output end of the power supply module 1 is electrically connected with the photovoltaic power generation module 3, the output end of the photovoltaic power generation module 3 is electrically connected with a storage battery power supply module 4, the output end of the storage battery power supply module 4 is electrically connected with a power supply conversion module 5, the output end of the power supply conversion module 5 is electrically connected with an infrared sensing module 6, the output end of the infrared sensing module 6 is electrically connected with a signal transmitting module 7, the output end of the signal transmitting module 7 is electrically connected with a signal receiving module 8, the output end of the signal receiving module 8 is electrically connected with a central processing module 9, and the output end of the central processing module 9 is electrically connected with a system power supply module 10, and the output end of the system power supply module 10 is electrically connected with an illuminating lamp module 11 and a display screen module 12 respectively.

Further, power module 1 sets up for two-way transmission, and power module 1, conventional power module 2 and photovoltaic power module 3 constitute the parallelly connected structure of electrical property, and under the dual power supply mode through photovoltaic power module 3 and conventional power module 2, cooperate power conversion module 5 again to come to circulate according to actual electric quantity consumption degree and switch the power supply mode, reduce the energy resource consumption of this system during operation, improved this system's practicality effectively.

Further, the storage battery power supply module 4 comprises a low power alarm unit 401, a charging prompt unit 402 and a power monitoring unit 403, the output end of the low power alarm unit 401 is electrically connected with the charging prompt unit 402, the output end of the charging prompt unit 402 is electrically connected with the power monitoring unit 403, the storage battery power supply module 4 is arranged, so that the power collected in the dormant state of the system can be stored through the storage battery power supply module 4 in cooperation with the photovoltaic power generation module 3, when the external power supply cannot supply power, emergency power supply can be carried out through the storage battery power supply module 4, and normal operation of the system is guaranteed.

Further, the power conversion module 5 includes an electric quantity identification unit 501, an electricity consumption counting unit 502 and an intelligent distribution unit 503, an output end of the electric quantity identification unit 501 is electrically connected with the electricity consumption counting unit 502, an output end of the electricity consumption counting unit 502 is electrically connected with the intelligent distribution unit 503, conventional electricity consumption and photovoltaic electricity consumption data can be collected and recorded through the electricity consumption counting unit 502, evaluation and optimization of the energy saving effect of the system are facilitated, the electric quantity identification unit 501 can be matched with the intelligent distribution unit 503 to switch the power supply mode, and the energy saving effect and the working stability of the system are improved.

Further, the light color of the lighting lamp module 11 is white, and the light brightness is adjustable, and the lighting lamp module 11 is electrically connected with the system power supply module 10, so that the white illumination effect of the lighting lamp module 11 can be set to illuminate the building information model on the sand table, the use is convenient, and the brightness of the lighting lamp module 11 is adjustable, and the energy-saving type of the system is facilitated to be enhanced.

Further, it is reciprocal to be set up for the circulation between system power module 10 and the infrared ray induction module 6, and system power module 10 and infrared ray induction module 6 constitute electric series connection structure, through infrared ray induction module 6, the setting of signal transmission module 7 and signal receiving module 8, it can be through infrared ray induction module 6 control signal transmission module 7 to certain extent transmission sensing signal to set up like this, when personnel get into the sensing signal within range, signal receiving module 8 receives the feedback and transmits information to central processing module 9, then central processing module 9 will start system power module 10 and supply power to light module 11 and display screen module 12 and begin work.

The working principle is as follows: for the energy optimization management system based on the building information model, firstly, under the double power supply mode of the photovoltaic power generation module 3 and the conventional power supply module 2, the power supply conversion module 5 is matched to circularly switch the power supply mode according to the actual power consumption degree;

then the infrared sensing module 6 controls the signal transmitting module 7 to transmit a sensing signal to a certain range, when a person enters the sensing signal range, the signal receiving module 8 receives feedback and transmits information to the central processing module 9, then the central processing module 9 starts the system power supply module 10 to supply power to the illuminating lamp module 11 and the display screen module 12 to start working, and illumination work and video demonstration work are carried out on the sand table provided with the building information model;

when the signal receiving module 8 receives a signal that a person leaves, the signal is transmitted to the central processing module 9, the central processing module 9 starts the system power supply module 10 to cut off power supply to the illumination lamp module 11 and the display screen module 12 on the sand table of the building information model, collected electric quantity is stored through the storage battery power supply module 4 in cooperation with the photovoltaic power generation module 3 when the system is dormant, and when an external power supply cannot supply power, emergency power supply can be performed through the storage battery power supply module 4 to ensure normal operation of the system;

the use process of the whole energy optimization management system based on the building information model is completed in this way, and the circuit related technology related to the utility model is the disclosed prior art.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. An energy optimization management system based on a building information model comprises a power module (1), and is characterized in that: the output end of the power supply module (1) is respectively and electrically connected with a conventional power supply module (2) and a photovoltaic power generation module (3), the output end of the power supply module (1) is electrically connected with the photovoltaic power generation module (3), the output end of the photovoltaic power generation module (3) is electrically connected with a storage battery power supply module (4), the output end of the storage battery power supply module (4) is electrically connected with a power supply conversion module (5), the output end of the power supply conversion module (5) is electrically connected with an infrared sensing module (6), the output end of the infrared sensing module (6) is electrically connected with a signal transmitting module (7), the output end of the signal transmitting module (7) is electrically connected with a signal receiving module (8), the output end of the signal receiving module (8) is electrically connected with a central processing module (9), the output end of the central processing module (9) is electrically connected, and the output end of the system power supply module (10) is respectively and electrically connected with an illuminating lamp module (11) and a display screen module (12).

2. The system according to claim 1, wherein the energy optimization management system based on the building information model comprises: the power supply module (1) is arranged in a bidirectional transmission mode, and the power supply module (1), the conventional power supply module (2) and the photovoltaic power generation module (3) form an electric parallel structure.

3. The system according to claim 1, wherein the energy optimization management system based on the building information model comprises: the storage battery power supply module (4) comprises a low-power alarm unit (401), a charging prompt unit (402) and a power monitoring unit (403), wherein the output end of the low-power alarm unit (401) is electrically connected with the charging prompt unit (402), and the output end of the charging prompt unit (402) is electrically connected with the power monitoring unit (403).

4. The system according to claim 1, wherein the energy optimization management system based on the building information model comprises: the power conversion module (5) comprises an electric quantity identification unit (501), a power consumption counting unit (502) and an intelligent distribution unit (503), wherein the output end of the electric quantity identification unit (501) is electrically connected with the power consumption counting unit (502), and the output end of the power consumption counting unit (502) is electrically connected with the intelligent distribution unit (503).

5. The system according to claim 1, wherein the energy optimization management system based on the building information model comprises: the lighting lamp module (11) is white in light color and adjustable in light brightness, and the lighting lamp module (11) is electrically connected with the system power supply module (10).

6. The system according to claim 1, wherein the energy optimization management system based on the building information model comprises: the system power supply module (10) and the infrared sensing module (6) are arranged in a reciprocating mode, and the system power supply module (10) and the infrared sensing module (6) form an electric series connection structure.

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