CN219265383U - Building energy monitoring device based on building information model technology - Google Patents

Abstract

The utility model discloses a building energy monitoring device based on a building information model technology, which comprises a triangular base, a supporting rod and the following components: the energy monitoring unit, the energy-saving unit, supporting element, triangle base top fixed mounting has the bracing piece, triangle base bottom is provided with supporting element, the bracing piece sets up to the prism of bottom and the cylinder concatenation on top and form, the prism end of bracing piece is provided with energy monitoring unit, the cylinder end of bracing piece is provided with energy-saving unit, energy monitoring unit is used for detecting the building power consumption, energy-saving unit is used for detecting external environment and for energy monitoring unit energy supply, supporting element is used for stable installation triangle base.

Description

Building energy monitoring device based on building information model technology

Technical Field

The utility model relates to the technical field of building energy detection equipment, in particular to a building energy monitoring device based on a building information model technology.

Background

The building information model technology is an engineering data model based on a three-dimensional digital technology and integrating various related information of a building engineering project, and water energy, electric energy and the like are usually used in a building, so that an energy monitoring device carrying the building information model technology is required to be used for monitoring consumption of the water energy, the electric energy and the like in real time.

With the continuous deep progress of urban development in China, the construction technology in China is greatly developed, and the construction technology and the construction energy consumption are more and more valued by construction enterprises. Along with the improvement of life quality of people, the life concept of people is rapidly changed, more pursuits are carried out on energy conservation and consumption reduction, and in order to reduce the energy consumption of buildings, real-time monitoring and management are needed.

Therefore, it is needed to invent an energy monitoring device which can not only monitor the loss data of energy sources such as electric energy in real time, but also integrate, analyze and display the collected data information.

Disclosure of Invention

The utility model aims to provide an energy monitoring device for a building based on a building information model technology, which aims to solve the problem that the energy consumption needs to be monitored in real time by using the energy monitoring device carrying the building information model technology in the background technology.

Based on the thought, the utility model provides the following technical scheme:

the utility model provides an energy monitoring devices for building based on building information model technique, includes triangle base and bracing piece, still includes: the energy monitoring unit, the energy-saving unit, supporting element, triangle base top fixed mounting has the bracing piece, triangle base bottom is provided with supporting element, the bracing piece sets up to the prism of bottom and the cylinder concatenation on top and form, the prism end of bracing piece is provided with energy monitoring unit, the cylinder end of bracing piece is provided with energy-saving unit, energy monitoring unit is used for detecting the building power consumption, energy-saving unit is used for detecting external environment and for energy monitoring unit energy supply, supporting element is used for stable installation triangle base.

Further, the energy-saving unit comprises a rotating unit, a wind energy mechanism and a light energy mechanism, a first electric telescopic rod is fixedly connected to the top of the supporting rod, the rotating unit is arranged on the outer side of the bottom of the cylindrical end of the supporting rod, the wind energy mechanism is connected to the outer side of the rotating unit, and the light energy mechanism is connected to the top end of the cylindrical end of the supporting rod through the first electric telescopic rod.

Further, the rotation unit includes: the rotary sleeve is provided with a limiting key and a limiting groove, the outer side of the supporting rod is provided with at least two limiting grooves, the outer side of the supporting rod is sleeved with the rotary sleeve, a plurality of groups of limiting keys are fixedly connected to the corresponding limiting grooves in the rotary sleeve, and the limiting keys are rotationally arranged in the corresponding limiting grooves.

Further, the supporting unit includes the dwang, the spring, second electric telescopic handle and location end, the triangle base is provided with three edges triangle base circumference evenly distributed the supporting unit, triangle base bottom rotates and is connected with the dwang, the dwang is kept away from the one end fixedly connected with of triangle base the second electric telescopic handle, the other end rotation of second electric telescopic handle is connected with the location end, the second electric telescopic handle be close to the one end of location end with still be equipped with between the dwang the spring, the spring makes the location end has the trend of keeping close to the dwang.

Further, the wind energy mechanism is electrically connected with an external power supply, the wind energy mechanism is electrically connected with the energy monitoring unit, and the wind energy mechanism is electrically connected with the first electric telescopic rod; the light energy mechanism is electrically connected with the energy monitoring unit.

Further, the energy monitoring unit comprises an electric energy detection mechanism, a water energy detection mechanism and a display mechanism, wherein the electric energy detection mechanism and the water energy detection mechanism are arranged at the bottom of the prism end of the supporting rod, and the display mechanism is arranged at the top of the prism end of the supporting rod.

Further, an electricity consumption piece and a camera are further arranged on the outer side of the rotating sleeve, the electricity consumption piece is electrically connected with the wind energy mechanism, and the camera is electrically connected with the wind energy mechanism.

The beneficial effects are that: through the arrangement of the rotating sleeve, the limit key and the limit groove, the wind energy mechanism can rotate around the support rod, so that the wind energy mechanism can utilize wind energy in different directions, and the energy supply effect is better; furthermore, the energy monitoring device for the building can be automatically installed on the bottom surfaces of different heights by arranging the rotating rod, the spring, the second electric telescopic rod and the positioning end, so that the energy monitoring device for the building is suitable for building construction environments; through the arrangement that the wind energy mechanism is electrically connected with the first electric telescopic rod, the height of the light energy mechanism can be adjusted, the light intensity of different heights can be detected, and the light energy mechanism is located at a position with larger light intensity, so that the energy-saving effect is better; the device has strong integral and good energy-saving effect.

Drawings

The utility model is further illustrated by the following examples in conjunction with the accompanying drawings:

FIG. 1 is a schematic structural view of the present utility model;

FIG. 2 is a schematic illustration of the present utility model with the rotating assembly removed;

FIG. 3 is a schematic view of a rotating assembly according to the present utility model;

fig. 4 is an enlarged schematic view of the structure of the present utility model at a.

In the figure: 11. a triangular base; 12. a support rod; 13. a first electric telescopic rod; 21. an electric energy detection mechanism; 22. a water energy detection mechanism; 23. a display mechanism; 24. a wind energy mechanism; 25. a light energy mechanism; 31. a rotating lever; 32. a spring; 33. a second electric telescopic rod; 34. a positioning end; 41. a rotating sleeve; 42. a limit key; 43. a limit groove; 51. an electric component; 52. a camera is provided.

Detailed Description

The utility model provides a building energy monitoring devices based on building information model technique, includes triangle base 11 and bracing piece 12, still includes: the energy monitoring unit, energy-saving unit, supporting element, triangle base 11 top fixed mounting has bracing piece 12, triangle base 11 bottom is provided with supporting element, the bracing piece 12 sets up to the prism of bottom and the cylinder concatenation on top and form, the prism end of bracing piece 12 is provided with energy monitoring unit, the cylinder end of bracing piece 12 is provided with energy-saving unit, energy monitoring unit is used for detecting the building power consumption, energy-saving unit is used for detecting external environment and for energy monitoring unit energy supply, supporting element is used for stable installation triangle base 11.

As a further aspect of this embodiment, the energy monitoring unit includes an electric energy detection mechanism 21, a water energy detection mechanism 22 and a display mechanism 23, where the electric energy detection mechanism 21 and the water energy detection mechanism 22 are disposed at the bottom of the prism end of the support rod 12, and the display mechanism 23 is disposed at the top of the prism end of the support rod 12.

The electric energy detection mechanism 21 comprises a first monitoring box and an electric meter, wherein the electric meter is installed in the first monitoring box; the first monitoring box is internally provided with an electric energy monitoring part, a protocol analysis module, a wireless transmission module and a communication module are arranged in the electric energy monitoring part, and the protocol analysis module, the wireless transmission module and the communication module are electrically connected with the ammeter through wires.

The water energy detection mechanism 22 comprises a second monitoring box and a water meter, the second monitoring box is arranged on one side of the supporting rod, the water meter is arranged in the second monitoring box, a protocol analysis module, a wireless transmission module and a communication module are also arranged in the second monitoring box, the water meter is electrically connected with the protocol analysis module, the wireless transmission module and the communication module through wires, and the wireless transmission module in the second monitoring box is in signal connection with the display mechanism 23.

As a further scheme of this embodiment, the energy-saving unit includes a rotation unit, a wind energy mechanism 24 and a light energy mechanism 25, the top of the support rod 12 is fixedly connected with a first electric telescopic rod 13, a rotation unit is disposed outside the bottom of the cylindrical end of the support rod 12, the wind energy mechanism 24 is connected outside the rotation unit, and the top of the cylindrical end of the support rod 12 is connected with the light energy mechanism 25 through the first electric telescopic rod 13.

The wind energy mechanism 24 may be configured as a wind turbine generator and the light energy mechanism 25 may be configured as a solar panel.

As a further aspect of the present embodiment, the rotation unit includes: the rotary sleeve 41, the limit key 42 and the limit groove 43, at least two limit grooves 43 are formed in the outer side of the support rod 12, the rotary sleeve 41 is sleeved on the outer side of the support rod 12, a plurality of groups of limit keys 42 are fixedly connected to the position, corresponding to the limit grooves 43, in the rotary sleeve 41, of the limit keys 42, and the limit keys 42 are rotatably arranged in the corresponding limit grooves 43.

Through the arrangement of the rotating sleeve 41, the limit key 42 and the limit groove 43, the wind energy mechanism 24 can rotate around the support rod 12, so that the wind energy mechanism 24 can utilize wind energy in different directions, and the energy supply effect is better.

As a further solution of this embodiment, the supporting unit includes a rotating rod 31, a spring 32, a second electric telescopic rod 33 and a positioning end 34, the triangular base 11 is provided with three supporting units uniformly distributed along the circumference of the triangular base 11, the bottom of the triangular base 11 is rotationally connected with the rotating rod 31, one end of the rotating rod 31 away from the triangular base 11 is fixedly connected with the second electric telescopic rod 33, the other end of the second electric telescopic rod 33 is rotationally connected with the positioning end 34, a spring 32 is further provided between one end of the second electric telescopic rod 33 close to the positioning end 34 and the rotating rod 31, and the spring 32 makes the positioning end 34 have a tendency to keep close to the rotating rod 31.

The energy monitoring device for the building can be automatically installed on the bottom surfaces of different heights by arranging the rotating rod 31, the spring 32, the second electric telescopic rod 33 and the positioning end 34, so that the energy monitoring device for the building adapts to the construction environment of the building.

As a further scheme of the embodiment, the wind energy mechanism 24 is electrically connected with an external power supply, the wind energy mechanism 24 is electrically connected with the energy monitoring unit, and the wind energy mechanism 24 is electrically connected with the first electric telescopic rod 13; the light energy mechanism 25 is electrically connected to the energy monitoring unit.

Through the setting that wind energy mechanism 24 and the electricity of first electric telescopic handle 13 link, can realize the altitude mixture control of light energy mechanism 25, detect the light intensity of different height, and then make light energy mechanism be in the great position of light intensity, energy-conserving effect is better.

As a further solution of this embodiment, an electric component 51 and a camera 52 are further disposed on the outer side of the rotating sleeve 41, the electric component 51 is electrically connected with the wind energy mechanism 24, and the camera 52 is electrically connected with the wind energy mechanism 24.

The power consuming element 51 may be provided as a lighting lamp or the like.

Claims (7)

1. The utility model provides an energy monitoring devices for building based on building information model technique, includes triangle base and bracing piece, its characterized in that:

further comprises: an energy monitoring unit, an energy saving unit, a supporting unit,

the support rod is fixedly arranged at the top of the triangular base, the support unit is arranged at the bottom of the triangular base, the support rod is formed by splicing a prism at the bottom end and a cylinder at the top end, the energy monitoring unit is arranged at the prism end of the support rod, the energy saving unit is arranged at the cylinder end of the support rod,

the energy monitoring unit is used for detecting building energy consumption, the energy saving unit is used for detecting external environment and supplying energy for the energy monitoring unit, and the supporting unit is used for stably installing the triangular base.

2. The building energy monitoring device based on the building information model technology as claimed in claim 1, wherein:

the energy-saving unit comprises a rotating unit, a wind energy mechanism and a light energy mechanism,

the top of the supporting rod is also fixedly connected with a first electric telescopic rod,

the outer side of the bottom of the cylindrical end of the supporting rod is provided with a rotating unit, the outer side of the rotating unit is connected with the wind energy mechanism, and the top end of the cylindrical end of the supporting rod is connected with the light energy mechanism through the first electric telescopic rod.

3. The building energy monitoring device based on the building information model technology as claimed in claim 2, wherein: the rotation unit includes: a rotating sleeve, a limit key and a limit groove,

at least two limit grooves are formed in the outer side of the support rod, the rotating sleeve is sleeved on the outer side of the support rod, a plurality of groups of limit keys are fixedly connected to the position, corresponding to the limit grooves, in the rotating sleeve, and the limit keys are rotatably arranged in the corresponding limit grooves.

4. The building energy monitoring device based on the building information model technology as claimed in claim 1, wherein:

the supporting unit comprises a rotating rod, a spring, a second electric telescopic rod and a positioning end,

the triangular base is provided with three edges triangular base circumference evenly distributed's supporting unit, triangular base bottom rotates and is connected with the dwang, the dwang is kept away from triangular base's one end fixedly connected with second electric telescopic handle, the other end of second electric telescopic handle rotates and is connected with the location end, the second electric telescopic handle be close to the one end of location end with still be equipped with between the dwang the spring, the spring makes the location end has the trend of keeping being close to the dwang.

5. A building energy monitoring device based on building information model technology according to claim 3, characterized in that:

the wind energy mechanism is electrically connected with an external power supply, the wind energy mechanism is electrically connected with the energy monitoring unit, and the wind energy mechanism is electrically connected with the first electric telescopic rod;

the light energy mechanism is electrically connected with the energy monitoring unit.

6. The building energy monitoring device based on the building information model technology as claimed in claim 1, wherein:

the energy monitoring unit comprises an electric energy detection mechanism, a water energy detection mechanism and a display mechanism,

the electric energy detection mechanism and the water energy detection mechanism are arranged at the bottom of the prism end of the supporting rod, and the display mechanism is arranged at the top of the prism end of the supporting rod.

7. The building energy monitoring device based on the building information model technology according to claim 5, wherein:

the wind energy mechanism is characterized in that an electricity consumption piece and a camera are further arranged on the outer side of the rotating sleeve, the electricity consumption piece is electrically connected with the wind energy mechanism, and the camera is electrically connected with the wind energy mechanism.

Images