CN212009838U - Wireless acquisition terminal device for energy consumption data of regional building - Google Patents

Abstract

The utility model discloses a wireless acquisition terminal device for energy consumption data of regional buildings, which comprises a wall frame, a damping unit, an energy consumption data acquisition device, a heat dissipation unit, a wire clamp and a plugging unit; wall mounting: it is fixed on the wall body through an expansion bolt; a damping unit: which is mounted on the side of the ledge; energy consumption data acquisition unit: the damping device is connected with the damping unit through a clamping unit, and the top of the damping device is provided with a wireless communication module and a singlechip respectively; a heat dissipation unit: the energy consumption data acquisition unit is arranged on the side surface of the energy consumption data acquisition unit; wire clamp: the energy consumption data acquisition device is fixed on the side surface of the ledge and is arranged corresponding to an interface of the energy consumption data acquisition device; a plugging unit: the wireless energy consumption data acquisition terminal device for the regional building is connected to a wire clamp, and is good in working stability, long in service life, convenient to install and disassemble and convenient to maintain.

Description

Wireless acquisition terminal device for energy consumption data of regional building

Technical Field

The utility model relates to a building energy consumption monitoring technology field specifically is a wireless acquisition terminal device of regional building energy consumption data.

Background

The transmission of energy consumption data information such as illumination, air conditioning, elevator power, fire control, ventilation, high-low voltage power distribution, water consumption and the like which are necessary for buildings is the basis of building energy conservation and industrial energy conservation, one of the key problems for realizing building energy conservation informatization is to solve the problem of acquiring the data, the biggest problem encountered in building buildings, especially existing buildings, is that comprehensive wiring is needed, the engineering quantity is large, the cost is high, the environment of the building is destructive, a wireless sensor data acquisition network has been widely applied by the advantages of easy deployment, convenient expansion and maintenance and the like, in order to reduce the floor area, the existing acquisition equipment is installed by adhering to the wall, however, the adhering contact surface of the equipment is not easy to radiate heat due to the influence of the wall, meanwhile, the wireless sensor data acquisition network can be influenced by the wall moisture regain, the service life of the equipment is reduced, and meanwhile, the dead weight of a wire body is easy to drag the, thereby causing the connection to loosen and causing the equipment to work unstably.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is to overcome current defect, provide a regional building energy consumption data wireless acquisition terminal device, job stabilization nature is good, long service life, and the installation is dismantled conveniently, and it is convenient to maintain, can effectively solve the problem in the background art.

In order to achieve the above object, the utility model provides a following technical scheme: a wireless acquisition terminal device for energy consumption data of regional buildings comprises a ledge, a damping unit, an energy consumption data acquisition unit, a heat dissipation unit, a wire clamp and a plugging unit;

wall mounting: it is fixed on the wall body through an expansion bolt;

a damping unit: which is mounted on the side of the ledge;

energy consumption data acquisition unit: the damping device is connected with the damping unit through a clamping unit, and the top of the damping device is provided with a wireless communication module and a singlechip respectively;

a heat dissipation unit: the energy consumption data acquisition unit is arranged on the side surface of the energy consumption data acquisition unit;

wire clamp: the energy consumption data acquisition device is fixed on the side surface of the ledge and is arranged corresponding to an interface of the energy consumption data acquisition device;

a plugging unit: it is connected to the wire clamp;

the output end of the energy consumption data acquisition unit is electrically connected with the input end of the single chip microcomputer, the input end of the single chip microcomputer is electrically connected with the output end of an external power supply, and the single chip microcomputer is electrically connected with the wireless communication module in a bidirectional mode.

Furthermore, the damping unit comprises a damping frame and a damping seat, the damping frame is fixed on the side face of the ledge, the damping seat is assembled at the end part of the damping frame, the bad vibration on the energy consumption data collector caused by elastic deformation of the damping frame and the damping seat is eliminated, the working stability of the energy consumption data collector is ensured, meanwhile, the damping frame and the damping seat can enable the space between the energy consumption data collector and the ledge to be reserved, so that air circulation is facilitated, the bad influence of the wall on the energy consumption data collector caused by moisture regain can be avoided, and the service life of the energy consumption data collector is prolonged.

Furthermore, the clamping unit comprises a fastener and a positioning groove, the fastener is fixed on the side face of the energy consumption data collector, the positioning groove is formed in the shock absorption seat, the fastener is clamped with the positioning groove, the energy consumption data collector and the shock absorption seat are assembled through the fastener and the positioning groove in a clamping mode, the installation and the disassembly are convenient, and the energy consumption data collector is convenient to maintain.

Further, the radiating unit comprises a heat-conducting silica gel sheet and radiating fins, the radiating fins are evenly distributed on the side face of the energy consumption data collector, the heat-conducting silica gel sheet is attached to the joint of the radiating fins and the energy consumption data collector, heat generated by the energy consumption data collector is gathered on the heat-conducting silica gel sheet, and the heat on the heat-conducting silica gel sheet is dissipated through the radiating fins, so that the radiating effect is good, no energy consumption is generated, and the radiating unit is energy-saving and environment-friendly.

Further, the shutoff unit includes the rubber buffer and connects the rope, and the rubber buffer is pegged graft with the interface on the energy consumption data collection station, the rubber buffer is connected with the fastener through connecting the rope, carries out the centre gripping through the fastener to the line body and fixes, avoids the line body dead weight to pull the department of splicing, has guaranteed the stability of energy consumption data collection station work, to the shutoff of pegging graft through the rubber buffer of interface that does not use, avoids inside external moisture and the dust got into the interface, has guaranteed energy consumption data collection station's life.

Compared with the prior art, the beneficial effects of the utility model are that: this regional building energy consumption data wireless acquisition terminal device has following benefit:

1. the damping unit is used for eliminating the bad vibration on the energy consumption data collector, so that the working stability of the energy consumption data collector is ensured, and meanwhile, the damping unit can keep a space between the energy consumption data collector and the wall frame, so that the air circulation is facilitated, the bad influence of the wall moisture regain on the energy consumption data collector can be avoided, and the service life of the energy consumption data collector is prolonged.

2. The energy consumption data collector and the shock absorption seat are assembled through the clamping unit, and the energy consumption data collector is convenient to install and disassemble and maintain.

3. Carry out the centre gripping through the fastener to the line body fixed, avoid the line body dead weight to pull the junction, guaranteed the stability of energy consumption data collection station work, to the shutoff of pegging graft through the rubber buffer of interface not using, avoid outside moisture and dust to get into inside the interface, guaranteed energy consumption data collection station's life.

Drawings

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

fig. 2 is a schematic side view of the present invention.

In the figure: 1 ledge, 2 shock attenuation units, 201 shock attenuation frame, 202 shock attenuation seat, 3 joint units, 31 fasteners, 32 constant head tank, 4 energy consumption data collection station, 5 fastener, 6 radiating element, 61 heat conduction silica gel piece, 62 radiating fin, 7 shutoff units, 71 rubber buffer, 72 connection rope, 8 wireless communication module, 9 singlechips.

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. 1-2, the present invention provides a technical solution: a wireless acquisition terminal device for energy consumption data of regional buildings comprises a ledge 1, a damping unit 2, an energy consumption data acquisition device 4, a heat dissipation unit 6, a wire clamp 5 and a plugging unit 7;

wall rack 1: it is fixed on the wall body through an expansion bolt;

the damping unit 2: which is mounted on the side of the ledge 1;

energy consumption data collector 4: the damping device is connected with the damping unit 2 through the clamping unit 3, and the top of the damping device is provided with a wireless communication module 8 and a singlechip 9 respectively;

the heat dissipation unit 6: it is arranged on the side surface of the energy consumption data collector 4;

wire clamp 5: the energy consumption data acquisition device is fixed on the side surface of the ledge 1 and is arranged corresponding to the interface of the energy consumption data acquisition device 4;

the plugging unit 7: which is connected to the wire clamp 5;

the energy consumption data collector 4 is electrically connected with the input end of the single chip microcomputer 9, the input end of the single chip microcomputer 9 is electrically connected with the output end of an external power supply, the single chip microcomputer 9 is electrically connected with the wireless communication module 8 in a two-way mode, the energy consumption data collector 4 collects building energy consumption information, the collected information is transmitted to the single chip microcomputer 9, the single chip microcomputer 9 analyzes and processes the information, and the information is transmitted to the terminal device through the wireless communication module 8.

Damping unit 2 includes shock attenuation frame 201 and shock attenuation seat 202, shock attenuation frame 201 is fixed in the side of ledge 1, shock attenuation seat 202 assembles the tip at shock attenuation frame 201, when the installation, fix ledge 1 on the wall body through expansion bolts earlier, eliminate the bad vibrations that receive energy consumption data collector 4 through shock attenuation frame 201 and shock attenuation seat 202 elastic deformation, the stability of energy consumption data collector 4 work has been guaranteed, simultaneously, shock attenuation frame 201 and shock attenuation seat 202 can make the space remain between energy consumption data collector 4 and ledge 1, thereby make things convenient for the circulation of air, and can avoid the wall to get damp the harmful effects to energy consumption data collector 4, energy consumption data collector 4's life has been increased.

The clamping unit 3 comprises a fastener 31 and a positioning groove 32, the fastener 31 is fixed on the side surface of the energy consumption data collector 4, the positioning groove 32 is formed in the shock absorption seat 202, the fastener 31 is clamped with the positioning groove 32, the energy consumption data collector 4 and the shock absorption seat 202 are assembled through clamping of the fastener 31 and the positioning groove 32, and the energy consumption data collector is convenient to install and disassemble and maintain on the energy consumption data collector 4.

Radiating element 6 includes heat conduction silica gel piece 61 and radiating fin 62, radiating fin 62 evenly distributed is in energy consumption data collection station 4's side, heat conduction silica gel piece 61 laminates in radiating fin 62 and energy consumption data collection station 4's junction, the heat gathering that energy consumption data collection station 4 produced is to heat conduction silica gel piece 61, the heat on the heat conduction silica gel piece 61 is gived off through radiating fin 62, its radiating effect is good, no energy consumption produces, energy-concerving and environment-protective.

Plugging unit 7 includes rubber buffer 71 and connection rope 72, rubber buffer 71 pegs graft with the interface on the energy consumption data collection station 4, rubber buffer 71 is connected with fastener 5 through connecting rope 72, it is fixed to carry out the centre gripping to the line body through fastener 5, avoid the line body dead weight to pull the department of being qualified for the next round of competitions, the stability of energy consumption data collection station 4 work has been guaranteed, the shutoff of pegging graft through rubber buffer 71 to the interface that does not use, inside avoiding external moisture and dust to get into the interface, energy consumption data collection station 4's life has been guaranteed.

When in use: the energy consumption data collector 4 collects the building energy consumption information, the collected information is transmitted to the single chip microcomputer 9, the single chip microcomputer 9 analyzes and processes the information, and the information is transmitted to the terminal equipment through the wireless communication module 8.

When the energy consumption data collector is installed, the wall frame 1 is fixed on a wall body through the expansion bolt, then the energy consumption data collector 4 and the shock absorption seat 202 are assembled through the clamping of the fastener 31 and the positioning groove 32, the bad vibration on the energy consumption data collector 4 is eliminated through the elastic deformation of the shock absorption frame 201 and the shock absorption seat 202, meanwhile, the shock absorption frame 201 and the shock absorption seat 202 can enable a space to be reserved between the energy consumption data collector 4 and the wall frame 1, so that the air circulation is facilitated, and the bad influence of the wall moisture regain on the energy consumption data collector 4 can be avoided.

The heat generated by the energy consumption data collector 4 is collected on the heat-conducting silicon rubber sheet 61, and the heat on the heat-conducting silicon rubber sheet 61 is dissipated through the heat dissipation fins 62.

Carry out the centre gripping through fastener 5 to the line body fixed, avoid the line body dead weight to pull the wiring department, to the shutoff of pegging graft through rubber buffer 71 of interface not using, avoid inside external moisture and the dust entering interface.

It is worth noting that: the singlechip 9 controls the energy consumption data collector 4 and the wireless communication module 8 to adopt a common method in the prior art, and the energy consumption data collector 4 is a special building energy consumption data collection device adopting an embedded microcomputer system and has the functions of data collection, data processing, data storage, data transmission, field equipment operation state monitoring, fault diagnosis and the like. The system hardware mainly comprises a microprocessor, an I/O interface, a man-machine interface and a communication interface 4; the software part mainly comprises a monitoring program and a function execution program, the wireless communication module 8 adopts a LoRa Pro module which is thought to be a wireless company, and the singlechip 9 carries out model selection configuration according to actual application scenes.

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 (5)

1. The utility model provides a wireless acquisition terminal device of regional building energy consumption data which characterized in that: the energy consumption data acquisition device comprises a wall frame (1), a damping unit (2), an energy consumption data acquisition device (4), a heat dissipation unit (6), a wire clamp (5) and a plugging unit (7);

ledge (1): it is fixed on the wall body through an expansion bolt;

damping unit (2): which is mounted on the side of the ledge (1);

energy consumption data collector (4): the damping device is connected with the damping unit (2) through a clamping unit (3), and the top of the damping device is provided with a wireless communication module (8) and a singlechip (9) respectively;

heat dissipation unit (6): the energy consumption data acquisition device is arranged on the side surface of the energy consumption data acquisition unit (4);

the wire clamp (5): the energy consumption data acquisition device is fixed on the side surface of the ledge (1) and is arranged corresponding to an interface of the energy consumption data acquisition device (4);

plugging means (7): which is connected to a wire clamp (5);

the output end of the energy consumption data collector (4) is electrically connected with the input end of the single chip microcomputer (9), the input end of the single chip microcomputer (9) is electrically connected with the output end of an external power supply, and the single chip microcomputer (9) is electrically connected with the wireless communication module (8) in a two-way mode.

2. The wireless acquisition terminal device for the energy consumption data of the regional buildings according to claim 1, characterized in that: the damping unit (2) comprises a damping frame (201) and a damping seat (202), the damping frame (201) is fixed on the side surface of the ledge (1), and the damping seat (202) is assembled at the end part of the damping frame (201).

3. The wireless acquisition terminal device for the energy consumption data of the regional buildings according to claim 2, characterized in that: clamping unit (3) include fastener (31) and constant head tank (32), and fastener (31) are fixed in the side of energy consumption data collector (4), constant head tank (32) are seted up on shock attenuation seat (202), fastener (31) and constant head tank (32) joint.

4. The wireless acquisition terminal device for the energy consumption data of the regional buildings according to claim 1, characterized in that: the heat dissipation unit (6) comprises heat conduction silica gel sheets (61) and heat dissipation fins (62), wherein the heat dissipation fins (62) are uniformly distributed on the side face of the energy consumption data acquisition unit (4), and the heat conduction silica gel sheets (61) are attached to the connecting positions of the heat dissipation fins (62) and the energy consumption data acquisition unit (4).

5. The wireless acquisition terminal device for the energy consumption data of the regional buildings according to claim 1, characterized in that: plugging unit (7) include rubber buffer (71) and connect rope (72), and rubber buffer (71) are pegged graft with the interface on energy consumption data collection station (4), rubber buffer (71) are connected with fastener (5) through connecting rope (72).

Images