CN205563141U - Residence community building device management system - Google Patents

Abstract

The utility model provides a residence community building device management system, building device management system uses one including the life drainage and is equipped with system, the dual -purpose system of life drainage, carbon monoxide linkage exhaust units system, elevator monitoring system, building device management network system and control center, the life drainage uses one, and system, the dual -purpose system of life drainage, carbon monoxide linkage exhaust units system, elevator monitoring system communicate through building device management network system fully, building device management network carries out the control operation through control center, the utility model discloses the building device management system that not only updates the tradition is applied to residence community, has realized the interior electromechanical device's of residence community automatic control and management moreover, reduces the operation cost of district property simultaneously, prolongs electromechanical device's life to realize green energy -conserving aim.

Description

A kind of residential quarters Architectural Equipment management system

Technical field

This utility model relates to a kind of residential quarters Architectural Equipment management system, belongs to building management system field.

Background technology

Building management system be by the electric power in building or groups of building, illumination, air-conditioning, plumbing, elevator, take precautions against natural calamities, ensure public security, equipment or the system such as garage management, by centralized watch, control and manage for the purpose of and an integrated system being constituted.

Development along with the epoch, building management system is progressively developed to DCS Distributed Control System, open Distributed Control System by CCMS central monitoring system, until the network type Distributed Control System of 21 century, but these systems, major part is to be applied to public building field, residential quarters not yet relate to, and are white spaces of this area.

Utility model content

This utility model is for the deficiencies in the prior art, a kind of residential quarters Architectural Equipment management system is provided, the Architectural Equipment management system application not only tradition updated is in residential quarters, and the automatically controlling and managing of electromechanical equipment in achieving residential quarters, reduce the operation cost of residential property simultaneously, extend the service life of electromechanical equipment, thus realize the objective of green energy conservation.

In order to reach above-mentioned technique effect, the technical scheme that this utility model provides is:

A kind of residential quarters Architectural Equipment management system, described Architectural Equipment management system includes living drainage the using and the reserved system, living drainage dual-purpose system, carbon monoxide linkage exhaust machine set system, elevator monitoring systems, Architectural Equipment management network system and control centre, described living drainage the using and the reserved system, living drainage dual-purpose system, carbon monoxide linkage exhaust machine set system, elevator monitoring systems are connected by Architectural Equipment management network system, and described Architectural Equipment managing network is crossed control centre and is controlled operation；

Described living drainage the using and the reserved system includes the first sump, the first ball float, the first liquid level sensor, first row water pump, the first distribution box and the first data acquisition unit, one end of described first liquid level sensor is connected with the first ball float, described first ball float is placed in the first sump, the other end of the first liquid level sensor and the first data acquisition unit are connected, one end of described first row water pump is connected with the first sump, and the other end of first row water pump is connected by the first distribution box and the first data acquisition unit；

nullDescribed living drainage dual-purpose system includes the second sump、Second ball float、3rd ball float、Second liquid level sensor、3rd liquid level sensor、Second row water pump、3rd draining pump、Second distribution box and the second data acquisition unit，One end of described second liquid level sensor is connected with the second ball float，Described second ball float is placed in the second sump，The other end of the second liquid level sensor and the second data acquisition unit are connected，One end of described 3rd liquid level sensor is connected with the 3rd ball float，Described 3rd ball float is placed in the second sump，The other end of the 3rd liquid level sensor and the second data acquisition unit are connected，One end of described second row water pump is connected with the second sump，The other end of second row water pump is connected by the second distribution box and the second data acquisition unit，The described two ends of the 3rd draining pump are connected with the two ends parallel connection of second row water pump，3rd draining pump is connected with the second distribution box simultaneously；

Described carbon monoxide linkage exhaust machine set system includes exhaust blower, exhaust duct, the 3rd distribution box, carbon monoxide quality detection device and the 4th data acquisition unit, one end of described exhaust blower is connected with exhaust duct, the other end of exhaust blower is connected by the 3rd distribution box and the 3rd data acquisition unit, and the 3rd data acquisition unit has been simultaneously connected with carbon monoxide quality detection device；

Described elevator monitoring systems includes that elevator electric cabinet, Fire lift electric cabinet and the 4th data acquisition unit, described elevator electric cabinet, Fire lift electric cabinet are connected with the 4th data acquisition unit respectively；

As of the present utility model further preferably, bottom described second ball float and the second sump between distance less than the distance between bottom the 3rd ball float and the second sump；

As of the present utility model further preferably, the moisture storage capacity of described second sump is more than the moisture storage capacity of the first sump.

By above technical scheme, relative to prior art, this utility model has the advantages that

1, ecology, environmental protection, healthy green residential needs are adapted to；

2, people-oriented, the living environment of safety convenient in construction；

3, the standardization operation management requirement of residential housing property is met；

4, achieve automatically controlling and managing of electromechanical equipment in residential quarters, extend the service life of electromechanical equipment.

Accompanying drawing explanation

It it is overall structure schematic diagram of the present utility model shown in Fig. 1；

It it is the structural representation of this utility model living drainage the using and the reserved system shown in Fig. 2；

It it is the structural representation of this utility model living drainage dual-purpose system shown in Fig. 3；

It it is the structural representation of this utility model carbon monoxide linkage exhaust machine set system shown in Fig. 4；

It it is the structural representation of this utility model elevator monitoring systems shown in Fig. 5；

nullWherein: 1 is living drainage the using and the reserved system，2 is living drainage dual-purpose system，3 is carbon monoxide linkage exhaust machine set system，4 is elevator monitoring systems，5 manage network system for Architectural Equipment，6 is control centre，7 is the first sump，8 is the first ball float，9 is the first liquid level sensor，10 is first row water pump，11 is the first distribution box，12 is the first data acquisition unit，13 is the second sump，14 is the second ball float，15 is the 3rd ball float，16 is the second liquid level sensor，17 is the 3rd liquid level sensor，18 second row water pumps，19 is the 3rd draining pump，20 is the second distribution box，21 is the second data acquisition unit，22 is exhaust blower，23 is exhaust duct，24 is the 3rd distribution box，25 is carbon monoxide quality detection device，26 is the 3rd data acquisition unit，27 is elevator electric cabinet，28 is Fire lift electric cabinet，29 is the 4th data acquisition unit.

Detailed description of the invention

Accompanying drawing discloses the structural representation of preferred embodiment involved by this utility model without limitation；The technical solution of the utility model is explained below with reference to accompanying drawing.Below in conjunction with the accompanying drawings and detailed description of the invention, it is further elucidated with this utility model.It should be understood that following detailed description of the invention is merely to illustrate this utility model rather than limits scope of the present utility model.It should be noted that the word "front", "rear" used in describing below, "left", "right", "up" and "down" refer to the direction in accompanying drawing, word " interior " and " outward " refer respectively to the direction towards or away from particular elements geometric center.

This utility model shown in Fig. 1 provides a kind of residential quarters Architectural Equipment management system, described Architectural Equipment management system includes living drainage the using and the reserved system 1, living drainage dual-purpose system 2, carbon monoxide linkage exhaust machine set system 3, elevator monitoring systems 4, Architectural Equipment management network system 5 and control centre 6, described living drainage the using and the reserved system 1, living drainage dual-purpose system 2, carbon monoxide linkage exhaust machine set system 3, elevator monitoring systems 4 is connected by Architectural Equipment management network system 5, described Architectural Equipment managing network is crossed control centre 6 and is controlled operation；

Shown in Fig. 2, described living drainage the using and the reserved system 1 includes first sump the 7, first ball float the 8, first liquid level sensor 9, first row water pump the 10, first distribution box 11 and the first data acquisition unit 12, one end of described first liquid level sensor 9 is connected with the first ball float 8, described first ball float 8 is placed in the first sump 7, the other end and first data acquisition unit 12 of the first liquid level sensor 9 are connected, one end of described first row water pump 10 is connected with the first sump 7, and the other end of first row water pump 10 is connected with the first data acquisition unit 12 by the first distribution box 11；

nullShown in Fig. 3，Described living drainage dual-purpose system 2 includes the second sump 13、Second ball float 14、3rd ball float 15、Second liquid level sensor 16、3rd liquid level sensor 17、Second row water pump 18、3rd draining pump 19、Second distribution box 20 and the second data acquisition unit 21，One end of described second liquid level sensor 16 is connected with the second ball float 14，Described second ball float 14 is placed in the second sump 13，The other end and second data acquisition unit 21 of the second liquid level sensor 16 are connected，One end of described 3rd liquid level sensor 17 is connected with the 3rd ball float 15，Described 3rd ball float 15 is placed in the second sump 13，The other end and second data acquisition unit 21 of the 3rd liquid level sensor 17 are connected，One end of described second row water pump 18 is connected with the second sump 13，The other end of second row water pump 18 is connected with the second data acquisition unit 21 by the second distribution box 20，The described two ends of the 3rd draining pump 19 are connected with the two ends parallel connection of second row water pump 18，3rd draining pump 19 is connected with the second distribution box 20 simultaneously；

Shown in Fig. 4, described carbon monoxide linkage exhaust machine set system 3 includes exhaust blower 22, exhaust duct the 23, the 3rd distribution box 24, carbon monoxide quality detection device 25 and the 4th data acquisition unit 29, one end of described exhaust blower 22 is connected with exhaust duct 23, the other end of exhaust blower 22 is connected with the 3rd data acquisition unit 26 by the 3rd distribution box 24, and the 3rd data acquisition unit 26 has been simultaneously connected with carbon monoxide quality detection device 25；

Shown in Fig. 5, described elevator monitoring systems 4 includes elevator electric cabinet 27, Fire lift electric cabinet 28 and the 4th data acquisition unit 29, and described elevator electric cabinet 27, Fire lift electric cabinet 28 are connected with the 4th data acquisition unit 29 respectively.

Carrying out practically flow process is as follows:

nullLiving drainage the using and the reserved system 1: when liquid level at a high value，I.e. first ball float 8 is higher than when opening pump water level，First liquid level sensor 9 sends warning，It is sent to control centre 6 by the first data acquisition unit 12，Now control centre 6 sends enabled instruction，The first distribution box 11 is fed back to by the first data acquisition unit 12，Enabled instruction is sent to first row water pump 10 by the first distribution box 11 simultaneously，Now first row water pump 10 starts，Start draining，Draining is to when being positioned at the termination of pumping water level opened below pump water level，First liquid level sensor 9 alarm signal releases，It is sent to control centre 6 by the first data acquisition unit 12，Now control centre 6 sends halt instruction，The first distribution box 11 is fed back to by the first data acquisition unit 12，Halt instruction is sent to first row water pump 10 by the first distribution box 11 simultaneously，Now first row water pump 10 is out of service；

The living drainage the using and the reserved system 1 of the application has programming count equipment task time, points out hard time maintenance, in time the feedback operation of first row water pump 10, fault, hands auto state.

Living drainage dual-purpose system 2: inside the second sump 13, from top to bottom it is sequentially provided with overflow alarm water level, opens pump water level and termination of pumping water level, when liquid level is in and opens pump water level, second liquid level sensor 16 sends alarm, it is sent to control centre 6 by the second data acquisition unit 21, now control centre 6 sends enabled instruction, the second distribution box 20 is fed back to by the second data acquisition unit 21, enabled instruction is sent to second row water pump 18 by the second distribution box 20 simultaneously, now second row water pump 18 starts, and starts draining；When draining is to termination of pumping water level, second liquid level sensor 16 alarm signal releases, it is sent to control centre 6 by the second data acquisition unit 21, now control centre 6 sends halt instruction, the second distribution box 20 is fed back to by the second data acquisition unit 21, halt instruction is sent to second row water pump 18 by the second distribution box 20 simultaneously, and now second row water pump 18 is out of service；

When liquid level is higher than overflow alarm water level, 3rd liquid level sensor 17 sends alarm, it is sent to control centre 6 by the second data acquisition unit 21, now control centre 6 sends enabled instruction, feeding back to the second distribution box 20 by the second data acquisition unit 21, enabled instruction is sent to the 3rd draining pump 19 by the second distribution box 20 simultaneously, and the 3rd draining pump 19 starts, 3rd draining pump 19 starts draining, now second row water pump 18 and the draining simultaneously of the 3rd draining pump 19；Draining releases to the 3rd liquid level sensor 17 alarm signal, it is sent to control centre 6 by the second data acquisition unit 21, now control centre 6 sends halt instruction, the second distribution box 20 is fed back to by the second data acquisition unit 21, halt instruction is sent to the 3rd draining pump 19 by the second distribution box 20 simultaneously, and now the 3rd draining pump 19 is out of service；When draining is to termination of pumping water level, second liquid level sensor 16 alarm signal releases, it is sent to control centre 6 by the second data acquisition unit 21, now control centre 6 sends halt instruction, the second distribution box 20 is fed back to by the second data acquisition unit 21, halt instruction is sent to second row water pump 18 by the second distribution box 20 simultaneously, and now second row water pump 18 is out of service；

Carbon monoxide linkage exhaust machine set system 3: carbon monoxide quality detection device 25 detects when carbonomonoxide concentration is higher than country's public building energy design standard, 3rd data acquisition unit 26 transmits signals to control centre 6, now control centre 6 sends enabled instruction, the 3rd distribution box 24 is fed back to by the 3rd data acquisition unit 26, enabled instruction is sent to exhaust blower 22 by the 3rd distribution box 24 simultaneously, and exhaust blower 22 starts；

Elevator monitoring systems 4: the four data acquisition unit 29 gathers the elevator in elevator electric cabinet 27 and Fire lift electric cabinet 28 and rises, declines, runs and fault-signal, when collecting fault-signal, control centre 6 sends alarm sounds property personnel on site and checks process, and last solution is except reporting to the police.

With above-mentioned according to desirable embodiment of the present utility model for enlightenment, by above-mentioned description, relevant staff can carry out various change and amendment completely in the range of without departing from this utility model technological thought.The content that the technical scope of this utility model is not limited in description, it is necessary to determine its technical scope according to right.

Claims (3)

1. a residential quarters Architectural Equipment management system, it is characterized in that: described Architectural Equipment management system includes living drainage the using and the reserved system, living drainage dual-purpose system, carbon monoxide linkage exhaust machine set system, elevator monitoring systems, Architectural Equipment management network system and control centre, described living drainage the using and the reserved system, living drainage dual-purpose system, carbon monoxide linkage exhaust machine set system, elevator monitoring systems are connected by Architectural Equipment management network system, and described Architectural Equipment managing network is crossed control centre and is controlled operation；

Described living drainage the using and the reserved system includes the first sump, the first ball float, the first liquid level sensor, first row water pump, the first distribution box and the first data acquisition unit, one end of described first liquid level sensor is connected with the first ball float, described first ball float is placed in the first sump, the other end of the first liquid level sensor and the first data acquisition unit are connected, one end of described first row water pump is connected with the first sump, and the other end of first row water pump is connected by the first distribution box and the first data acquisition unit；

nullDescribed living drainage dual-purpose system includes the second sump、Second ball float、3rd ball float、Second liquid level sensor、3rd liquid level sensor、Second row water pump、3rd draining pump、Second distribution box and the second data acquisition unit，One end of described second liquid level sensor is connected with the second ball float，Described second ball float is placed in the second sump，The other end of the second liquid level sensor and the second data acquisition unit are connected，One end of described 3rd liquid level sensor is connected with the 3rd ball float，Described 3rd ball float is placed in the second sump，The other end of the 3rd liquid level sensor and the second data acquisition unit are connected，One end of described second row water pump is connected with the second sump，The other end of second row water pump is connected by the second distribution box and the second data acquisition unit，The described two ends of the 3rd draining pump are connected with the two ends parallel connection of second row water pump，3rd draining pump is connected with the second distribution box simultaneously；

Described carbon monoxide linkage exhaust machine set system includes exhaust blower, exhaust duct, the 3rd distribution box, carbon monoxide quality detection device and the 4th data acquisition unit, one end of described exhaust blower is connected with exhaust duct, the other end of exhaust blower is connected by the 3rd distribution box and the 3rd data acquisition unit, and the 3rd data acquisition unit has been simultaneously connected with carbon monoxide quality detection device；

Described elevator monitoring systems includes that elevator electric cabinet, Fire lift electric cabinet and the 4th data acquisition unit, described elevator electric cabinet, Fire lift electric cabinet are connected with the 4th data acquisition unit respectively.

Residential quarters the most according to claim 1 Architectural Equipments management system, it is characterised in that: the distance between bottom described second ball float and the second sump is less than the distance between bottom the 3rd ball float and the second sump.

Residential quarters the most according to claim 1 Architectural Equipment management system, it is characterised in that: the moisture storage capacity of described second sump is more than the moisture storage capacity of the first sump.